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Fix inliner funclet unwind memoization
Summary: The inliner may need to determine where a given funclet unwinds to, and this determination may depend on other funclets throughout the funclet tree. The code that performs this walk in getUnwindDestToken memoizes results to avoid redundant computations. In the case that a funclet's unwind destination is derived from its ancestor, there's code to walk back down the tree from the ancestor updating the memo map of its descendants to record the unwind destination. This change fixes that code to account for the case that some descendant has a different unwind destination, which can happen if that unwind dest is a descendant of the EHPad being queried and thus didn't determine its unwind destination. Also update test inline-funclets.ll, which is supposed to cover such scenarios, to include a case that fails an assertion without this fix but passes with it. Fixes PR29151. Reviewers: majnemer Subscribers: llvm-commits Differential Revision: https://reviews.llvm.org/D24117 llvm-svn: 280610
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@ -14,6 +14,7 @@
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#include "llvm/Transforms/Utils/Cloning.h"
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#include "llvm/ADT/SetVector.h"
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#include "llvm/ADT/SmallPtrSet.h"
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#include "llvm/ADT/SmallSet.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/ADT/StringExtras.h"
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@ -228,7 +229,7 @@ static Value *getUnwindDestTokenHelper(Instruction *EHPad,
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Instruction *ChildPad = cast<Instruction>(Child);
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auto Memo = MemoMap.find(ChildPad);
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if (Memo == MemoMap.end()) {
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// Haven't figure out this child pad yet; queue it.
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// Haven't figured out this child pad yet; queue it.
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Worklist.push_back(ChildPad);
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continue;
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}
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@ -366,6 +367,10 @@ static Value *getUnwindDestToken(Instruction *EHPad,
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// search up the chain to try to find a funclet with information. Put
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// null entries in the memo map to avoid re-processing as we go up.
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MemoMap[EHPad] = nullptr;
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#ifndef NDEBUG
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SmallPtrSet<Instruction *, 4> TempMemos;
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TempMemos.insert(EHPad);
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#endif
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Instruction *LastUselessPad = EHPad;
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Value *AncestorToken;
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for (AncestorToken = getParentPad(EHPad);
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@ -374,6 +379,13 @@ static Value *getUnwindDestToken(Instruction *EHPad,
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// Skip over catchpads since they just follow their catchswitches.
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if (isa<CatchPadInst>(AncestorPad))
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continue;
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// If the MemoMap had an entry mapping AncestorPad to nullptr, since we
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// haven't yet called getUnwindDestTokenHelper for AncestorPad in this
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// call to getUnwindDestToken, that would mean that AncestorPad had no
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// information in itself, its descendants, or its ancestors. If that
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// were the case, then we should also have recorded the lack of information
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// for the descendant that we're coming from. So assert that we don't
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// find a null entry in the MemoMap for AncestorPad.
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assert(!MemoMap.count(AncestorPad) || MemoMap[AncestorPad]);
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auto AncestorMemo = MemoMap.find(AncestorPad);
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if (AncestorMemo == MemoMap.end()) {
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@ -384,25 +396,85 @@ static Value *getUnwindDestToken(Instruction *EHPad,
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if (UnwindDestToken)
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break;
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LastUselessPad = AncestorPad;
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MemoMap[LastUselessPad] = nullptr;
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#ifndef NDEBUG
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TempMemos.insert(LastUselessPad);
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#endif
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}
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// Since the whole tree under LastUselessPad has no information, it all must
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// match UnwindDestToken; record that to avoid repeating the search.
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// We know that getUnwindDestTokenHelper was called on LastUselessPad and
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// returned nullptr (and likewise for EHPad and any of its ancestors up to
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// LastUselessPad), so LastUselessPad has no information from below. Since
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// getUnwindDestTokenHelper must investigate all downward paths through
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// no-information nodes to prove that a node has no information like this,
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// and since any time it finds information it records it in the MemoMap for
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// not just the immediately-containing funclet but also any ancestors also
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// exited, it must be the case that, walking downward from LastUselessPad,
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// visiting just those nodes which have not been mapped to an unwind dest
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// by getUnwindDestTokenHelper (the nullptr TempMemos notwithstanding, since
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// they are just used to keep getUnwindDestTokenHelper from repeating work),
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// any node visited must have been exhaustively searched with no information
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// for it found.
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SmallVector<Instruction *, 8> Worklist(1, LastUselessPad);
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while (!Worklist.empty()) {
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Instruction *UselessPad = Worklist.pop_back_val();
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assert(!MemoMap.count(UselessPad) || MemoMap[UselessPad] == nullptr);
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auto Memo = MemoMap.find(UselessPad);
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if (Memo != MemoMap.end() && Memo->second) {
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// Here the name 'UselessPad' is a bit of a misnomer, because we've found
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// that it is a funclet that does have information about unwinding to
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// a particular destination; its parent was a useless pad.
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// Since its parent has no information, the unwind edge must not escape
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// the parent, and must target a sibling of this pad. This local unwind
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// gives us no information about EHPad. Leave it and the subtree rooted
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// at it alone.
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assert(getParentPad(Memo->second) == getParentPad(UselessPad));
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continue;
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}
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// We know we don't have information for UselesPad. If it has an entry in
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// the MemoMap (mapping it to nullptr), it must be one of the TempMemos
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// added on this invocation of getUnwindDestToken; if a previous invocation
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// recorded nullptr, it would have had to prove that the ancestors of
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// UselessPad, which include LastUselessPad, had no information, and that
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// in turn would have required proving that the descendants of
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// LastUselesPad, which include EHPad, have no information about
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// LastUselessPad, which would imply that EHPad was mapped to nullptr in
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// the MemoMap on that invocation, which isn't the case if we got here.
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assert(!MemoMap.count(UselessPad) || TempMemos.count(UselessPad));
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// Assert as we enumerate users that 'UselessPad' doesn't have any unwind
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// information that we'd be contradicting by making a map entry for it
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// (which is something that getUnwindDestTokenHelper must have proved for
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// us to get here). Just assert on is direct users here; the checks in
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// this downward walk at its descendants will verify that they don't have
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// any unwind edges that exit 'UselessPad' either (i.e. they either have no
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// unwind edges or unwind to a sibling).
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MemoMap[UselessPad] = UnwindDestToken;
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if (auto *CatchSwitch = dyn_cast<CatchSwitchInst>(UselessPad)) {
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for (BasicBlock *HandlerBlock : CatchSwitch->handlers())
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for (User *U : HandlerBlock->getFirstNonPHI()->users())
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assert(CatchSwitch->getUnwindDest() == nullptr && "Expected useless pad");
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for (BasicBlock *HandlerBlock : CatchSwitch->handlers()) {
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auto *CatchPad = HandlerBlock->getFirstNonPHI();
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for (User *U : CatchPad->users()) {
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assert(
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(!isa<InvokeInst>(U) ||
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(getParentPad(
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cast<InvokeInst>(U)->getUnwindDest()->getFirstNonPHI()) ==
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CatchPad)) &&
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"Expected useless pad");
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if (isa<CatchSwitchInst>(U) || isa<CleanupPadInst>(U))
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Worklist.push_back(cast<Instruction>(U));
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}
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}
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} else {
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assert(isa<CleanupPadInst>(UselessPad));
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for (User *U : UselessPad->users())
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for (User *U : UselessPad->users()) {
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assert(!isa<CleanupReturnInst>(U) && "Expected useless pad");
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assert((!isa<InvokeInst>(U) ||
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(getParentPad(
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cast<InvokeInst>(U)->getUnwindDest()->getFirstNonPHI()) ==
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UselessPad)) &&
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"Expected useless pad");
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if (isa<CatchSwitchInst>(U) || isa<CleanupPadInst>(U))
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Worklist.push_back(cast<Instruction>(U));
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}
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}
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}
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@ -409,20 +409,240 @@ exit:
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ret void
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}
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;;; Test with funclets that don't have information for themselves, but have
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;;; descendants which unwind to other descendants (left.left unwinds to
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;;; left.right, and right unwinds to far_right). Make sure that these local
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;;; unwinds don't trip up processing of the ancestor nodes (left and root) that
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;;; ultimately have no information.
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;;; CHECK-LABEL: define void @test6(
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define void @test6() personality void()* @ProcessCLRException {
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entry:
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; CHECK-NEXT: entry:
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invoke void @test6_inlinee()
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to label %exit unwind label %cleanup
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cleanup:
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%pad = cleanuppad within none []
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call void @g() [ "funclet"(token %pad) ]
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cleanupret from %pad unwind to caller
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exit:
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ret void
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}
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define void @test6_inlinee() alwaysinline personality void ()* @ProcessCLRException {
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entry:
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invoke void @g()
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to label %exit unwind label %root
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; CHECK-NEXT: invoke void @g()
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; CHECK-NEXT: unwind label %[[root:.+]]
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root:
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%root.pad = cleanuppad within none []
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invoke void @g() [ "funclet"(token %root.pad) ]
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to label %root.cont unwind label %left
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; CHECK: [[root]]:
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; CHECK-NEXT: %[[root_pad:.+]] = cleanuppad within none []
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; CHECK-NEXT: invoke void @g() [ "funclet"(token %[[root_pad]]) ]
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; CHECK-NEXT: to label %[[root_cont:.+]] unwind label %[[left:.+]]
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left:
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%left.cs = catchswitch within %root.pad [label %left.catch] unwind to caller
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; CHECK: [[left]]:
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; CHECK-NEXT: %[[left_cs:.+]] = catchswitch within %[[root_pad]] [label %[[left_catch:.+]]] unwind label %cleanup
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left.catch:
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%left.cp = catchpad within %left.cs []
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call void @g() [ "funclet"(token %left.cp) ]
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invoke void @g() [ "funclet"(token %left.cp) ]
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to label %unreach unwind label %left.left
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; CHECK: [[left_catch:.+]]:
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; CHECK-NEXT: %[[left_cp:.+]] = catchpad within %[[left_cs]] []
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; CHECK-NEXT: invoke void @g() [ "funclet"(token %[[left_cp]]) ]
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; CHECK-NEXT: to label %[[lc_cont:.+]] unwind label %cleanup
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; CHECK: [[lc_cont]]:
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; CHECK-NEXT: invoke void @g() [ "funclet"(token %[[left_cp]]) ]
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; CHECK-NEXT: to label %[[unreach:.+]] unwind label %[[left_left:.+]]
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left.left:
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%ll.pad = cleanuppad within %left.cp []
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cleanupret from %ll.pad unwind label %left.right
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; CHECK: [[left_left]]:
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; CHECK-NEXT: %[[ll_pad:.+]] = cleanuppad within %[[left_cp]] []
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; CHECK-NEXT: cleanupret from %[[ll_pad]] unwind label %[[left_right:.+]]
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left.right:
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%lr.pad = cleanuppad within %left.cp []
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unreachable
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; CHECK: [[left_right]]:
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; CHECK-NEXT: %[[lr_pad:.+]] = cleanuppad within %[[left_cp]] []
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; CHECK-NEXT: unreachable
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root.cont:
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call void @g() [ "funclet"(token %root.pad) ]
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invoke void @g() [ "funclet"(token %root.pad) ]
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to label %unreach unwind label %right
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; CHECK: [[root_cont]]:
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; CHECK-NEXT: invoke void @g() [ "funclet"(token %[[root_pad]]) ]
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; CHECK-NEXT: to label %[[root_cont_cont:.+]] unwind label %cleanup
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; CHECK: [[root_cont_cont]]:
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; CHECK-NEXT: invoke void @g() [ "funclet"(token %[[root_pad]]) ]
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; CHECK-NEXT: to label %[[unreach]] unwind label %[[right:.+]]
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right:
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%right.pad = cleanuppad within %root.pad []
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invoke void @g() [ "funclet"(token %right.pad) ]
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to label %unreach unwind label %right.child
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; CHECK: [[right]]:
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; CHECK-NEXT: %[[right_pad:.+]] = cleanuppad within %[[root_pad]] []
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; CHECK-NEXT: invoke void @g() [ "funclet"(token %[[right_pad]]) ]
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; CHECK-NEXT: to label %[[unreach]] unwind label %[[right_child:.+]]
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right.child:
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%rc.pad = cleanuppad within %right.pad []
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invoke void @g() [ "funclet"(token %rc.pad) ]
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to label %unreach unwind label %far_right
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; CHECK: [[right_child]]:
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; CHECK-NEXT: %[[rc_pad:.+]] = cleanuppad within %[[right_pad]] []
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; CHECK-NEXT: invoke void @g() [ "funclet"(token %[[rc_pad]]) ]
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; CHECK-NEXT: to label %[[unreach]] unwind label %[[far_right:.+]]
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far_right:
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%fr.cs = catchswitch within %root.pad [label %fr.catch] unwind to caller
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; CHECK: [[far_right]]:
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; CHECK-NEXT: %[[fr_cs:.+]] = catchswitch within %[[root_pad]] [label %[[fr_catch:.+]]] unwind label %cleanup
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fr.catch:
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%fr.cp = catchpad within %fr.cs []
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unreachable
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; CHECK: [[fr_catch]]:
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; CHECK-NEXT: %[[fr_cp:.+]] = catchpad within %[[fr_cs]] []
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; CHECK-NEXT: unreachable
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unreach:
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unreachable
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; CHECK: [[unreach]]:
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; CHECK-NEXT: unreachable
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exit:
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ret void
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}
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;;; Test with a no-info funclet (right) which has a cousin (left.left) that
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;;; unwinds to another cousin (left.right); make sure we don't trip over this
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;;; when propagating unwind destination info to "right".
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;;; CHECK-LABEL: define void @test7(
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define void @test7() personality void()* @ProcessCLRException {
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entry:
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; CHECK-NEXT: entry:
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invoke void @test7_inlinee()
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to label %exit unwind label %cleanup
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cleanup:
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%pad = cleanuppad within none []
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call void @g() [ "funclet"(token %pad) ]
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cleanupret from %pad unwind to caller
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exit:
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ret void
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}
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define void @test7_inlinee() alwaysinline personality void ()* @ProcessCLRException {
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entry:
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invoke void @g()
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to label %exit unwind label %root
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; CHECK-NEXT: invoke void @g()
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; CHECK-NEXT: unwind label %[[root:.+]]
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root:
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%root.cp = cleanuppad within none []
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invoke void @g() [ "funclet"(token %root.cp) ]
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to label %root.cont unwind label %child
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; CHECK: [[root]]:
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; CHECK-NEXT: %[[root_cp:.+]] = cleanuppad within none []
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; CHECK-NEXT: invoke void @g() [ "funclet"(token %[[root_cp]]) ]
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; CHECK-NEXT: to label %[[root_cont:.+]] unwind label %[[child:.+]]
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root.cont:
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cleanupret from %root.cp unwind to caller
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; CHECK: [[root_cont]]:
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; CHECK-NEXT: cleanupret from %[[root_cp]] unwind label %cleanup
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child:
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%child.cp = cleanuppad within %root.cp []
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invoke void @g() [ "funclet"(token %child.cp) ]
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to label %child.cont unwind label %left
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; CHECK: [[child]]:
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; CHECK-NEXT: %[[child_cp:.+]] = cleanuppad within %[[root_cp]] []
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; CHECK-NEXT: invoke void @g() [ "funclet"(token %[[child_cp]]) ]
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; CHECK-NEXT: to label %[[child_cont:.+]] unwind label %[[left:.+]]
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left:
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%left.cp = cleanuppad within %child.cp []
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invoke void @g() [ "funclet"(token %left.cp) ]
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to label %left.cont unwind label %left.left
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; CHECK: [[left]]:
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; CHECK-NEXT: %[[left_cp:.+]] = cleanuppad within %[[child_cp]] []
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; CHECK-NEXT: invoke void @g() [ "funclet"(token %[[left_cp]]) ]
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; CHECK-NEXT: to label %[[left_cont:.+]] unwind label %[[left_left:.+]]
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left.left:
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%ll.cp = cleanuppad within %left.cp []
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cleanupret from %ll.cp unwind label %left.right
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; CHECK: [[left_left]]:
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; CHECK-NEXT: %[[ll_cp:.+]] = cleanuppad within %[[left_cp]] []
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; CHECK-NEXT: cleanupret from %[[ll_cp]] unwind label %[[left_right:.+]]
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left.cont:
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invoke void @g() [ "funclet"(token %left.cp) ]
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to label %unreach unwind label %left.right
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; CHECK: [[left_cont]]:
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; CHECK-NEXT: invoke void @g() [ "funclet"(token %[[left_cp]]) ]
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; CHECK-NEXT: to label %[[unreach:.+]] unwind label %[[left_right]]
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left.right:
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%lr.cp = cleanuppad within %left.cp []
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unreachable
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; CHECK: [[left_right]]:
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; CHECK-NEXT: %[[lr_cp:.+]] = cleanuppad within %[[left_cp]] []
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; CHECK-NEXT: unreachable
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child.cont:
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invoke void @g() [ "funclet"(token %child.cp) ]
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to label %unreach unwind label %right
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; CHECK: [[child_cont]]:
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; CHECK-NEXT: invoke void @g() [ "funclet"(token %[[child_cp]]) ]
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; CHECK-NEXT: to label %[[unreach]] unwind label %[[right:.+]]
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right:
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%right.cp = cleanuppad within %child.cp []
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call void @g() [ "funclet"(token %right.cp) ]
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unreachable
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; CHECK: [[right]]:
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; CHECK-NEXT: %[[right_cp:.+]] = cleanuppad within %[[child_cp]]
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; CHECK-NEXT: invoke void @g() [ "funclet"(token %[[right_cp]]) ]
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; CHECK-NEXT: to label %[[right_cont:.+]] unwind label %cleanup
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; CHECK: [[right_cont]]:
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; CHECK-NEXT: unreachable
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unreach:
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unreachable
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; CHECK: [[unreach]]:
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; CHECK-NEXT: unreachable
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exit:
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ret void
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}
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declare void @ProcessCLRException()
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; Make sure the logic doesn't get tripped up when the inlined invoke is
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; itself within a funclet in the caller.
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; CHECK-LABEL: define void @test6(
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define void @test6() personality void ()* @ProcessCLRException {
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; CHECK-LABEL: define void @test8(
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define void @test8() personality void ()* @ProcessCLRException {
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entry:
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invoke void @g()
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to label %exit unwind label %callsite_parent
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callsite_parent:
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%callsite_parent.pad = cleanuppad within none []
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; CHECK: %callsite_parent.pad = cleanuppad within none
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invoke void @test6_inlinee() [ "funclet"(token %callsite_parent.pad) ]
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invoke void @test8_inlinee() [ "funclet"(token %callsite_parent.pad) ]
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to label %ret unwind label %cleanup
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ret:
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cleanupret from %callsite_parent.pad unwind label %cleanup
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@ -434,7 +654,7 @@ exit:
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ret void
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}
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define void @test6_inlinee() alwaysinline personality void ()* @ProcessCLRException {
|
||||
define void @test8_inlinee() alwaysinline personality void ()* @ProcessCLRException {
|
||||
entry:
|
||||
invoke void @g()
|
||||
to label %exit unwind label %inlinee_cleanup
|
||||
|
Loading…
Reference in New Issue
Block a user