From d647ec52396ed0f1886537114ab587c71fc43565 Mon Sep 17 00:00:00 2001 From: Chandler Carruth Date: Thu, 21 Mar 2013 09:52:18 +0000 Subject: [SROA] Prefix names using a custom IRBuilder inserter. The key part of this is ensuring that name prefixes remain in a Twine form until we get to a point where we can nuke them under NDEBUG. This is tricky using the old APIs as they played fast and loose with Twine, which is prone to serious error. The inserter is much cleaner as it is actually in the call stack leading to the setName call, and so has a good opportunity to prepend the prefix. This matters more than you might imagine because most runs over an alloca find a single partition, and rewrite 3 or 4 instructions referring to it. As a consequence doing this lazily and exclusively with Twine allows the optimizer to delete more of it and shaves another 2% to 3% off of the release build's SROA run time for PR15412. I also think the APIs are cleaner, and the use of Twine is more reliable, so I consider it a win-win despite the churn required to reach this state. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@177631 91177308-0d34-0410-b5e6-96231b3b80d8 --- lib/Transforms/Scalar/SROA.cpp | 196 +++++++++++++++++++++++------------------ 1 file changed, 108 insertions(+), 88 deletions(-) diff --git a/lib/Transforms/Scalar/SROA.cpp b/lib/Transforms/Scalar/SROA.cpp index 0719789167..25306c2681 100644 --- a/lib/Transforms/Scalar/SROA.cpp +++ b/lib/Transforms/Scalar/SROA.cpp @@ -73,11 +73,39 @@ static cl::opt ForceSSAUpdater("force-ssa-updater", cl::init(false), cl::Hidden); namespace { +/// \brief A custom IRBuilder inserter which prefixes all names if they are +/// preserved. +template +class IRBuilderPrefixedInserter : + public IRBuilderDefaultInserter { + std::string Prefix; + +public: + void SetNamePrefix(const Twine &P) { Prefix = P.str(); } + +protected: + void InsertHelper(Instruction *I, const Twine &Name, BasicBlock *BB, + BasicBlock::iterator InsertPt) const { + IRBuilderDefaultInserter::InsertHelper( + I, Name.isTriviallyEmpty() ? Name : Prefix + Name, BB, InsertPt); + } +}; + +// Specialization for not preserving the name is trivial. +template <> +class IRBuilderPrefixedInserter : + public IRBuilderDefaultInserter { +public: + void SetNamePrefix(const Twine &P) {} +}; + /// \brief Provide a typedef for IRBuilder that drops names in release builds. #ifndef NDEBUG -typedef llvm::IRBuilder<> IRBuilderTy; +typedef llvm::IRBuilder > IRBuilderTy; #else -typedef llvm::IRBuilder IRBuilderTy; +typedef llvm::IRBuilder > IRBuilderTy; #endif } @@ -1688,8 +1716,7 @@ private: /// This will return the BasePtr if that is valid, or build a new GEP /// instruction using the IRBuilder if GEP-ing is needed. static Value *buildGEP(IRBuilderTy &IRB, Value *BasePtr, - SmallVectorImpl &Indices, - const Twine &Prefix) { + SmallVectorImpl &Indices) { if (Indices.empty()) return BasePtr; @@ -1698,7 +1725,7 @@ static Value *buildGEP(IRBuilderTy &IRB, Value *BasePtr, if (Indices.size() == 1 && cast(Indices.back())->isZero()) return BasePtr; - return IRB.CreateInBoundsGEP(BasePtr, Indices, Prefix + ".idx"); + return IRB.CreateInBoundsGEP(BasePtr, Indices, "idx"); } /// \brief Get a natural GEP off of the BasePtr walking through Ty toward @@ -1712,10 +1739,9 @@ static Value *buildGEP(IRBuilderTy &IRB, Value *BasePtr, /// indicated by Indices to have the correct offset. static Value *getNaturalGEPWithType(IRBuilderTy &IRB, const DataLayout &TD, Value *BasePtr, Type *Ty, Type *TargetTy, - SmallVectorImpl &Indices, - const Twine &Prefix) { + SmallVectorImpl &Indices) { if (Ty == TargetTy) - return buildGEP(IRB, BasePtr, Indices, Prefix); + return buildGEP(IRB, BasePtr, Indices); // See if we can descend into a struct and locate a field with the correct // type. @@ -1742,7 +1768,7 @@ static Value *getNaturalGEPWithType(IRBuilderTy &IRB, const DataLayout &TD, if (ElementTy != TargetTy) Indices.erase(Indices.end() - NumLayers, Indices.end()); - return buildGEP(IRB, BasePtr, Indices, Prefix); + return buildGEP(IRB, BasePtr, Indices); } /// \brief Recursively compute indices for a natural GEP. @@ -1752,10 +1778,9 @@ static Value *getNaturalGEPWithType(IRBuilderTy &IRB, const DataLayout &TD, static Value *getNaturalGEPRecursively(IRBuilderTy &IRB, const DataLayout &TD, Value *Ptr, Type *Ty, APInt &Offset, Type *TargetTy, - SmallVectorImpl &Indices, - const Twine &Prefix) { + SmallVectorImpl &Indices) { if (Offset == 0) - return getNaturalGEPWithType(IRB, TD, Ptr, Ty, TargetTy, Indices, Prefix); + return getNaturalGEPWithType(IRB, TD, Ptr, Ty, TargetTy, Indices); // We can't recurse through pointer types. if (Ty->isPointerTy()) @@ -1775,7 +1800,7 @@ static Value *getNaturalGEPRecursively(IRBuilderTy &IRB, const DataLayout &TD, Offset -= NumSkippedElements * ElementSize; Indices.push_back(IRB.getInt(NumSkippedElements)); return getNaturalGEPRecursively(IRB, TD, Ptr, VecTy->getElementType(), - Offset, TargetTy, Indices, Prefix); + Offset, TargetTy, Indices); } if (ArrayType *ArrTy = dyn_cast(Ty)) { @@ -1788,7 +1813,7 @@ static Value *getNaturalGEPRecursively(IRBuilderTy &IRB, const DataLayout &TD, Offset -= NumSkippedElements * ElementSize; Indices.push_back(IRB.getInt(NumSkippedElements)); return getNaturalGEPRecursively(IRB, TD, Ptr, ElementTy, Offset, TargetTy, - Indices, Prefix); + Indices); } StructType *STy = dyn_cast(Ty); @@ -1807,7 +1832,7 @@ static Value *getNaturalGEPRecursively(IRBuilderTy &IRB, const DataLayout &TD, Indices.push_back(IRB.getInt32(Index)); return getNaturalGEPRecursively(IRB, TD, Ptr, ElementTy, Offset, TargetTy, - Indices, Prefix); + Indices); } /// \brief Get a natural GEP from a base pointer to a particular offset and @@ -1822,8 +1847,7 @@ static Value *getNaturalGEPRecursively(IRBuilderTy &IRB, const DataLayout &TD, /// If no natural GEP can be constructed, this function returns null. static Value *getNaturalGEPWithOffset(IRBuilderTy &IRB, const DataLayout &TD, Value *Ptr, APInt Offset, Type *TargetTy, - SmallVectorImpl &Indices, - const Twine &Prefix) { + SmallVectorImpl &Indices) { PointerType *Ty = cast(Ptr->getType()); // Don't consider any GEPs through an i8* as natural unless the TargetTy is @@ -1842,7 +1866,7 @@ static Value *getNaturalGEPWithOffset(IRBuilderTy &IRB, const DataLayout &TD, Offset -= NumSkippedElements * ElementSize; Indices.push_back(IRB.getInt(NumSkippedElements)); return getNaturalGEPRecursively(IRB, TD, Ptr, ElementTy, Offset, TargetTy, - Indices, Prefix); + Indices); } /// \brief Compute an adjusted pointer from Ptr by Offset bytes where the @@ -1861,8 +1885,7 @@ static Value *getNaturalGEPWithOffset(IRBuilderTy &IRB, const DataLayout &TD, /// a single GEP as possible, thus making each GEP more independent of the /// surrounding code. static Value *getAdjustedPtr(IRBuilderTy &IRB, const DataLayout &TD, - Value *Ptr, APInt Offset, Type *PointerTy, - const Twine &Prefix) { + Value *Ptr, APInt Offset, Type *PointerTy) { // Even though we don't look through PHI nodes, we could be called on an // instruction in an unreachable block, which may be on a cycle. SmallPtrSet Visited; @@ -1896,7 +1919,7 @@ static Value *getAdjustedPtr(IRBuilderTy &IRB, const DataLayout &TD, // See if we can perform a natural GEP here. Indices.clear(); if (Value *P = getNaturalGEPWithOffset(IRB, TD, Ptr, Offset, TargetTy, - Indices, Prefix)) { + Indices)) { if (P->getType() == PointerTy) { // Zap any offset pointer that we ended up computing in previous rounds. if (OffsetPtr && OffsetPtr->use_empty()) @@ -1931,19 +1954,19 @@ static Value *getAdjustedPtr(IRBuilderTy &IRB, const DataLayout &TD, if (!OffsetPtr) { if (!Int8Ptr) { Int8Ptr = IRB.CreateBitCast(Ptr, IRB.getInt8PtrTy(), - Prefix + ".raw_cast"); + "raw_cast"); Int8PtrOffset = Offset; } OffsetPtr = Int8PtrOffset == 0 ? Int8Ptr : IRB.CreateInBoundsGEP(Int8Ptr, IRB.getInt(Int8PtrOffset), - Prefix + ".raw_idx"); + "raw_idx"); } Ptr = OffsetPtr; // On the off chance we were targeting i8*, guard the bitcast here. if (Ptr->getType() != PointerTy) - Ptr = IRB.CreateBitCast(Ptr, PointerTy, Prefix + ".cast"); + Ptr = IRB.CreateBitCast(Ptr, PointerTy, "cast"); return Ptr; } @@ -2357,8 +2380,9 @@ class AllocaPartitionRewriter : public InstVisitorisSplit(); OldUse = I->getUse(); OldPtr = cast(OldUse->get()); - NamePrefix = (Twine(NewAI.getName()) + "." + Twine(BeginOffset)).str(); + + Instruction *OldUserI = cast(OldUse->getUser()); + IRB.SetInsertPoint(OldUserI); + IRB.SetCurrentDebugLocation(OldUserI->getDebugLoc()); + IRB.SetNamePrefix(Twine(NewAI.getName()) + "." + Twine(BeginOffset) + + "."); + CanSROA &= visit(cast(OldUse->getUser())); } if (VecTy) { @@ -2423,14 +2454,10 @@ private: llvm_unreachable("No rewrite rule for this instruction!"); } - Twine getName(const Twine &Suffix) { - return NamePrefix + Suffix; - } - Value *getAdjustedAllocaPtr(IRBuilderTy &IRB, Type *PointerTy) { assert(BeginOffset >= NewAllocaBeginOffset); APInt Offset(TD.getPointerSizeInBits(), BeginOffset - NewAllocaBeginOffset); - return getAdjustedPtr(IRB, TD, &NewAI, Offset, PointerTy, getName("")); + return getAdjustedPtr(IRB, TD, &NewAI, Offset, PointerTy); } /// \brief Compute suitable alignment to access an offset into the new alloca. @@ -2480,27 +2507,27 @@ private: Pass.DeadInsts.insert(I); } - Value *rewriteVectorizedLoadInst(IRBuilderTy &IRB) { + Value *rewriteVectorizedLoadInst() { unsigned BeginIndex = getIndex(BeginOffset); unsigned EndIndex = getIndex(EndOffset); assert(EndIndex > BeginIndex && "Empty vector!"); Value *V = IRB.CreateAlignedLoad(&NewAI, NewAI.getAlignment(), - getName(".load")); - return extractVector(IRB, V, BeginIndex, EndIndex, getName(".vec")); + "load"); + return extractVector(IRB, V, BeginIndex, EndIndex, "vec"); } - Value *rewriteIntegerLoad(IRBuilderTy &IRB, LoadInst &LI) { + Value *rewriteIntegerLoad(LoadInst &LI) { assert(IntTy && "We cannot insert an integer to the alloca"); assert(!LI.isVolatile()); Value *V = IRB.CreateAlignedLoad(&NewAI, NewAI.getAlignment(), - getName(".load")); + "load"); V = convertValue(TD, IRB, V, IntTy); assert(BeginOffset >= NewAllocaBeginOffset && "Out of bounds offset"); uint64_t Offset = BeginOffset - NewAllocaBeginOffset; if (Offset > 0 || EndOffset < NewAllocaEndOffset) V = extractInteger(TD, IRB, V, cast(LI.getType()), Offset, - getName(".extract")); + "extract"); return V; } @@ -2511,24 +2538,23 @@ private: uint64_t Size = EndOffset - BeginOffset; - IRBuilderTy IRB(&LI); Type *TargetTy = IsSplit ? Type::getIntNTy(LI.getContext(), Size * 8) : LI.getType(); bool IsPtrAdjusted = false; Value *V; if (VecTy) { - V = rewriteVectorizedLoadInst(IRB); + V = rewriteVectorizedLoadInst(); } else if (IntTy && LI.getType()->isIntegerTy()) { - V = rewriteIntegerLoad(IRB, LI); + V = rewriteIntegerLoad(LI); } else if (BeginOffset == NewAllocaBeginOffset && canConvertValue(TD, NewAllocaTy, LI.getType())) { V = IRB.CreateAlignedLoad(&NewAI, NewAI.getAlignment(), - LI.isVolatile(), getName(".load")); + LI.isVolatile(), "load"); } else { Type *LTy = TargetTy->getPointerTo(); V = IRB.CreateAlignedLoad(getAdjustedAllocaPtr(IRB, LTy), getPartitionTypeAlign(TargetTy), - LI.isVolatile(), getName(".load")); + LI.isVolatile(), "load"); IsPtrAdjusted = true; } V = convertValue(TD, IRB, V, TargetTy); @@ -2551,7 +2577,7 @@ private: Value *Placeholder = new LoadInst(UndefValue::get(LI.getType()->getPointerTo())); V = insertInteger(TD, IRB, Placeholder, V, BeginOffset, - getName(".insert")); + "insert"); LI.replaceAllUsesWith(V); Placeholder->replaceAllUsesWith(&LI); delete Placeholder; @@ -2565,7 +2591,7 @@ private: return !LI.isVolatile() && !IsPtrAdjusted; } - bool rewriteVectorizedStoreInst(IRBuilderTy &IRB, Value *V, + bool rewriteVectorizedStoreInst(Value *V, StoreInst &SI, Value *OldOp) { unsigned BeginIndex = getIndex(BeginOffset); unsigned EndIndex = getIndex(EndOffset); @@ -2580,8 +2606,8 @@ private: // Mix in the existing elements. Value *Old = IRB.CreateAlignedLoad(&NewAI, NewAI.getAlignment(), - getName(".load")); - V = insertVector(IRB, Old, V, BeginIndex, getName(".vec")); + "load"); + V = insertVector(IRB, Old, V, BeginIndex, "vec"); StoreInst *Store = IRB.CreateAlignedStore(V, &NewAI, NewAI.getAlignment()); Pass.DeadInsts.insert(&SI); @@ -2591,17 +2617,17 @@ private: return true; } - bool rewriteIntegerStore(IRBuilderTy &IRB, Value *V, StoreInst &SI) { + bool rewriteIntegerStore(Value *V, StoreInst &SI) { assert(IntTy && "We cannot extract an integer from the alloca"); assert(!SI.isVolatile()); if (TD.getTypeSizeInBits(V->getType()) != IntTy->getBitWidth()) { Value *Old = IRB.CreateAlignedLoad(&NewAI, NewAI.getAlignment(), - getName(".oldload")); + "oldload"); Old = convertValue(TD, IRB, Old, IntTy); assert(BeginOffset >= NewAllocaBeginOffset && "Out of bounds offset"); uint64_t Offset = BeginOffset - NewAllocaBeginOffset; V = insertInteger(TD, IRB, Old, SI.getValueOperand(), Offset, - getName(".insert")); + "insert"); } V = convertValue(TD, IRB, V, NewAllocaTy); StoreInst *Store = IRB.CreateAlignedStore(V, &NewAI, NewAI.getAlignment()); @@ -2615,7 +2641,6 @@ private: DEBUG(dbgs() << " original: " << SI << "\n"); Value *OldOp = SI.getOperand(1); assert(OldOp == OldPtr); - IRBuilderTy IRB(&SI); Value *V = SI.getValueOperand(); @@ -2636,13 +2661,13 @@ private: "Non-byte-multiple bit width"); IntegerType *NarrowTy = Type::getIntNTy(SI.getContext(), Size * 8); V = extractInteger(TD, IRB, V, NarrowTy, BeginOffset, - getName(".extract")); + "extract"); } if (VecTy) - return rewriteVectorizedStoreInst(IRB, V, SI, OldOp); + return rewriteVectorizedStoreInst(V, SI, OldOp); if (IntTy && V->getType()->isIntegerTy()) - return rewriteIntegerStore(IRB, V, SI); + return rewriteIntegerStore(V, SI); StoreInst *NewSI; if (BeginOffset == NewAllocaBeginOffset && @@ -2673,7 +2698,7 @@ private: /// /// \param V The i8 value to splat. /// \param Size The number of bytes in the output (assuming i8 is one byte) - Value *getIntegerSplat(IRBuilderTy &IRB, Value *V, unsigned Size) { + Value *getIntegerSplat(Value *V, unsigned Size) { assert(Size > 0 && "Expected a positive number of bytes."); IntegerType *VTy = cast(V->getType()); assert(VTy->getBitWidth() == 8 && "Expected an i8 value for the byte"); @@ -2681,26 +2706,25 @@ private: return V; Type *SplatIntTy = Type::getIntNTy(VTy->getContext(), Size*8); - V = IRB.CreateMul(IRB.CreateZExt(V, SplatIntTy, getName(".zext")), + V = IRB.CreateMul(IRB.CreateZExt(V, SplatIntTy, "zext"), ConstantExpr::getUDiv( Constant::getAllOnesValue(SplatIntTy), ConstantExpr::getZExt( Constant::getAllOnesValue(V->getType()), SplatIntTy)), - getName(".isplat")); + "isplat"); return V; } /// \brief Compute a vector splat for a given element value. - Value *getVectorSplat(IRBuilderTy &IRB, Value *V, unsigned NumElements) { - V = IRB.CreateVectorSplat(NumElements, V, NamePrefix); + Value *getVectorSplat(Value *V, unsigned NumElements) { + V = IRB.CreateVectorSplat(NumElements, V, "vsplat"); DEBUG(dbgs() << " splat: " << *V << "\n"); return V; } bool visitMemSetInst(MemSetInst &II) { DEBUG(dbgs() << " original: " << II << "\n"); - IRBuilderTy IRB(&II); assert(II.getRawDest() == OldPtr); // If the memset has a variable size, it cannot be split, just adjust the @@ -2757,31 +2781,31 @@ private: unsigned NumElements = EndIndex - BeginIndex; assert(NumElements <= VecTy->getNumElements() && "Too many elements!"); - Value *Splat = getIntegerSplat(IRB, II.getValue(), - TD.getTypeSizeInBits(ElementTy)/8); + Value *Splat = + getIntegerSplat(II.getValue(), TD.getTypeSizeInBits(ElementTy) / 8); Splat = convertValue(TD, IRB, Splat, ElementTy); if (NumElements > 1) - Splat = getVectorSplat(IRB, Splat, NumElements); + Splat = getVectorSplat(Splat, NumElements); Value *Old = IRB.CreateAlignedLoad(&NewAI, NewAI.getAlignment(), - getName(".oldload")); - V = insertVector(IRB, Old, Splat, BeginIndex, getName(".vec")); + "oldload"); + V = insertVector(IRB, Old, Splat, BeginIndex, "vec"); } else if (IntTy) { // If this is a memset on an alloca where we can widen stores, insert the // set integer. assert(!II.isVolatile()); uint64_t Size = EndOffset - BeginOffset; - V = getIntegerSplat(IRB, II.getValue(), Size); + V = getIntegerSplat(II.getValue(), Size); if (IntTy && (BeginOffset != NewAllocaBeginOffset || EndOffset != NewAllocaBeginOffset)) { Value *Old = IRB.CreateAlignedLoad(&NewAI, NewAI.getAlignment(), - getName(".oldload")); + "oldload"); Old = convertValue(TD, IRB, Old, IntTy); assert(BeginOffset >= NewAllocaBeginOffset && "Out of bounds offset"); uint64_t Offset = BeginOffset - NewAllocaBeginOffset; - V = insertInteger(TD, IRB, Old, V, Offset, getName(".insert")); + V = insertInteger(TD, IRB, Old, V, Offset, "insert"); } else { assert(V->getType() == IntTy && "Wrong type for an alloca wide integer!"); @@ -2792,10 +2816,9 @@ private: assert(BeginOffset == NewAllocaBeginOffset); assert(EndOffset == NewAllocaEndOffset); - V = getIntegerSplat(IRB, II.getValue(), - TD.getTypeSizeInBits(ScalarTy)/8); + V = getIntegerSplat(II.getValue(), TD.getTypeSizeInBits(ScalarTy) / 8); if (VectorType *AllocaVecTy = dyn_cast(AllocaTy)) - V = getVectorSplat(IRB, V, AllocaVecTy->getNumElements()); + V = getVectorSplat(V, AllocaVecTy->getNumElements()); V = convertValue(TD, IRB, V, AllocaTy); } @@ -2812,7 +2835,6 @@ private: // them into two categories: split intrinsics and unsplit intrinsics. DEBUG(dbgs() << " original: " << II << "\n"); - IRBuilderTy IRB(&II); assert(II.getRawSource() == OldPtr || II.getRawDest() == OldPtr); bool IsDest = II.getRawDest() == OldPtr; @@ -2896,8 +2918,7 @@ private: // Compute the other pointer, folding as much as possible to produce // a single, simple GEP in most cases. - OtherPtr = getAdjustedPtr(IRB, TD, OtherPtr, RelOffset, OtherPtrTy, - getName("." + OtherPtr->getName())); + OtherPtr = getAdjustedPtr(IRB, TD, OtherPtr, RelOffset, OtherPtrTy); Value *OurPtr = getAdjustedAllocaPtr(IRB, IsDest ? II.getRawDest()->getType() @@ -2940,8 +2961,7 @@ private: OtherPtrTy = SubIntTy->getPointerTo(); } - Value *SrcPtr = getAdjustedPtr(IRB, TD, OtherPtr, RelOffset, OtherPtrTy, - getName("." + OtherPtr->getName())); + Value *SrcPtr = getAdjustedPtr(IRB, TD, OtherPtr, RelOffset, OtherPtrTy); Value *DstPtr = &NewAI; if (!IsDest) std::swap(SrcPtr, DstPtr); @@ -2949,31 +2969,31 @@ private: Value *Src; if (VecTy && !IsWholeAlloca && !IsDest) { Src = IRB.CreateAlignedLoad(&NewAI, NewAI.getAlignment(), - getName(".load")); - Src = extractVector(IRB, Src, BeginIndex, EndIndex, getName(".vec")); + "load"); + Src = extractVector(IRB, Src, BeginIndex, EndIndex, "vec"); } else if (IntTy && !IsWholeAlloca && !IsDest) { Src = IRB.CreateAlignedLoad(&NewAI, NewAI.getAlignment(), - getName(".load")); + "load"); Src = convertValue(TD, IRB, Src, IntTy); assert(BeginOffset >= NewAllocaBeginOffset && "Out of bounds offset"); uint64_t Offset = BeginOffset - NewAllocaBeginOffset; - Src = extractInteger(TD, IRB, Src, SubIntTy, Offset, getName(".extract")); + Src = extractInteger(TD, IRB, Src, SubIntTy, Offset, "extract"); } else { Src = IRB.CreateAlignedLoad(SrcPtr, Align, II.isVolatile(), - getName(".copyload")); + "copyload"); } if (VecTy && !IsWholeAlloca && IsDest) { Value *Old = IRB.CreateAlignedLoad(&NewAI, NewAI.getAlignment(), - getName(".oldload")); - Src = insertVector(IRB, Old, Src, BeginIndex, getName(".vec")); + "oldload"); + Src = insertVector(IRB, Old, Src, BeginIndex, "vec"); } else if (IntTy && !IsWholeAlloca && IsDest) { Value *Old = IRB.CreateAlignedLoad(&NewAI, NewAI.getAlignment(), - getName(".oldload")); + "oldload"); Old = convertValue(TD, IRB, Old, IntTy); assert(BeginOffset >= NewAllocaBeginOffset && "Out of bounds offset"); uint64_t Offset = BeginOffset - NewAllocaBeginOffset; - Src = insertInteger(TD, IRB, Old, Src, Offset, getName(".insert")); + Src = insertInteger(TD, IRB, Old, Src, Offset, "insert"); Src = convertValue(TD, IRB, Src, NewAllocaTy); } @@ -2988,7 +3008,6 @@ private: assert(II.getIntrinsicID() == Intrinsic::lifetime_start || II.getIntrinsicID() == Intrinsic::lifetime_end); DEBUG(dbgs() << " original: " << II << "\n"); - IRBuilderTy IRB(&II); assert(II.getArgOperand(1) == OldPtr); // Record this instruction for deletion. @@ -3017,6 +3036,8 @@ private: // the old pointer, which necessarily must be in the right position to // dominate the PHI. IRBuilderTy PtrBuilder(cast(OldPtr)); + PtrBuilder.SetNamePrefix(Twine(NewAI.getName()) + "." + Twine(BeginOffset) + + "."); Value *NewPtr = getAdjustedAllocaPtr(PtrBuilder, OldPtr->getType()); // Replace the operands which were using the old pointer. @@ -3029,7 +3050,6 @@ private: bool visitSelectInst(SelectInst &SI) { DEBUG(dbgs() << " original: " << SI << "\n"); - IRBuilderTy IRB(&SI); // Find the operand we need to rewrite here. bool IsTrueVal = SI.getTrueValue() == OldPtr; -- cgit v1.2.3-18-g5258