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synced 2024-11-23 11:13:28 +01:00
Temporarily Revert "Reapply [LVI] Normalize pointer behavior" as it's broken python 3.6.
Reverting to figure out if it's a problem in python or the compiler for now. This reverts commit 885a05f48a5d320946c89590b73a764e5884fe4f.
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@ -151,11 +151,6 @@ namespace {
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/// This is the cache kept by LazyValueInfo which
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/// maintains information about queries across the clients' queries.
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class LazyValueInfoCache {
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public:
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typedef DenseMap<PoisoningVH<BasicBlock>, SmallPtrSet<Value *, 4>>
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PerBlockValueCacheTy;
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private:
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/// This is all of the cached block information for exactly one Value*.
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/// The entries are sorted by the BasicBlock* of the
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/// entries, allowing us to do a lookup with a binary search.
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@ -167,6 +162,10 @@ namespace {
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SmallDenseMap<PoisoningVH<BasicBlock>, ValueLatticeElement, 4> BlockVals;
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};
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/// This tracks, on a per-block basis, the set of values that are
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/// over-defined at the end of that block.
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typedef DenseMap<PoisoningVH<BasicBlock>, SmallPtrSet<Value *, 4>>
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OverDefinedCacheTy;
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/// Keep track of all blocks that we have ever seen, so we
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/// don't spend time removing unused blocks from our caches.
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DenseSet<PoisoningVH<BasicBlock> > SeenBlocks;
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@ -174,12 +173,7 @@ namespace {
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/// This is all of the cached information for all values,
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/// mapped from Value* to key information.
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DenseMap<Value *, std::unique_ptr<ValueCacheEntryTy>> ValueCache;
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/// This tracks, on a per-block basis, the set of values that are
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/// over-defined at the end of that block.
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PerBlockValueCacheTy OverDefinedCache;
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/// This tracks, on a per-block basis, the set of pointers that are
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/// dereferenced in the block (and thus non-null at the end of the block).
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PerBlockValueCacheTy DereferencedPointerCache;
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OverDefinedCacheTy OverDefinedCache;
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public:
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@ -235,17 +229,11 @@ namespace {
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return BBI->second;
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}
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std::pair<PerBlockValueCacheTy::iterator, bool>
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getOrInitDereferencedPointers(BasicBlock *BB) {
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return DereferencedPointerCache.try_emplace(BB);
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}
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/// clear - Empty the cache.
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void clear() {
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SeenBlocks.clear();
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ValueCache.clear();
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OverDefinedCache.clear();
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DereferencedPointerCache.clear();
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}
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/// Inform the cache that a given value has been deleted.
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@ -264,22 +252,17 @@ namespace {
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};
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}
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static void eraseValueFromPerBlockValueCache(
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Value *V, LazyValueInfoCache::PerBlockValueCacheTy &Cache) {
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for (auto I = Cache.begin(), E = Cache.end(); I != E;) {
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void LazyValueInfoCache::eraseValue(Value *V) {
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for (auto I = OverDefinedCache.begin(), E = OverDefinedCache.end(); I != E;) {
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// Copy and increment the iterator immediately so we can erase behind
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// ourselves.
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auto Iter = I++;
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SmallPtrSetImpl<Value *> &ValueSet = Iter->second;
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ValueSet.erase(V);
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if (ValueSet.empty())
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Cache.erase(Iter);
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OverDefinedCache.erase(Iter);
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}
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}
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void LazyValueInfoCache::eraseValue(Value *V) {
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eraseValueFromPerBlockValueCache(V, OverDefinedCache);
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eraseValueFromPerBlockValueCache(V, DereferencedPointerCache);
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ValueCache.erase(V);
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}
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@ -290,17 +273,15 @@ void LVIValueHandle::deleted() {
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}
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void LazyValueInfoCache::eraseBlock(BasicBlock *BB) {
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// The SeenBlocks shortcut applies only to the value caches,
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// always clear the dereferenced pointer cache.
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DereferencedPointerCache.erase(BB);
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// Shortcut if we have never seen this block.
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DenseSet<PoisoningVH<BasicBlock> >::iterator I = SeenBlocks.find(BB);
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if (I == SeenBlocks.end())
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return;
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SeenBlocks.erase(I);
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OverDefinedCache.erase(BB);
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auto ODI = OverDefinedCache.find(BB);
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if (ODI != OverDefinedCache.end())
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OverDefinedCache.erase(ODI);
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for (auto &I : ValueCache)
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I.second->BlockVals.erase(BB);
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@ -457,7 +438,6 @@ namespace {
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BasicBlock *BB);
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bool solveBlockValueExtractValue(ValueLatticeElement &BBLV,
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ExtractValueInst *EVI, BasicBlock *BB);
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bool isNonNullDueToDereferenceInBlock(Value *Val, BasicBlock *BB);
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void intersectAssumeOrGuardBlockValueConstantRange(Value *Val,
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ValueLatticeElement &BBLV,
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Instruction *BBI);
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@ -639,20 +619,6 @@ bool LazyValueInfoImpl::solveBlockValue(Value *Val, BasicBlock *BB) {
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bool LazyValueInfoImpl::solveBlockValueImpl(ValueLatticeElement &Res,
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Value *Val, BasicBlock *BB) {
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// If this value is a nonnull pointer, record it's range and bailout. Note
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// that for all other pointer typed values, we terminate the search at the
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// definition. We could easily extend this to look through geps, bitcasts,
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// and the like to prove non-nullness, but it's not clear that's worth it
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// compile time wise. The context-insensitive value walk done inside
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// isKnownNonZero gets most of the profitable cases at much less expense.
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// This does mean that we have a sensitivity to where the defining
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// instruction is placed, even if it could legally be hoisted much higher.
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// That is unfortunate.
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PointerType *PT = dyn_cast<PointerType>(Val->getType());
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if (PT && isKnownNonZero(Val, DL)) {
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Res = ValueLatticeElement::getNot(ConstantPointerNull::get(PT));
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return true;
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}
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Instruction *BBI = dyn_cast<Instruction>(Val);
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if (!BBI || BBI->getParent() != BB)
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@ -664,6 +630,20 @@ bool LazyValueInfoImpl::solveBlockValueImpl(ValueLatticeElement &Res,
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if (auto *SI = dyn_cast<SelectInst>(BBI))
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return solveBlockValueSelect(Res, SI, BB);
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// If this value is a nonnull pointer, record it's range and bailout. Note
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// that for all other pointer typed values, we terminate the search at the
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// definition. We could easily extend this to look through geps, bitcasts,
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// and the like to prove non-nullness, but it's not clear that's worth it
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// compile time wise. The context-insensitive value walk done inside
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// isKnownNonZero gets most of the profitable cases at much less expense.
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// This does mean that we have a sensitivity to where the defining
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// instruction is placed, even if it could legally be hoisted much higher.
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// That is unfortunate.
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PointerType *PT = dyn_cast<PointerType>(BBI->getType());
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if (PT && isKnownNonZero(BBI, DL)) {
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Res = ValueLatticeElement::getNot(ConstantPointerNull::get(PT));
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return true;
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}
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if (BBI->getType()->isIntegerTy()) {
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if (auto *CI = dyn_cast<CastInst>(BBI))
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return solveBlockValueCast(Res, CI, BB);
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@ -684,63 +664,75 @@ bool LazyValueInfoImpl::solveBlockValueImpl(ValueLatticeElement &Res,
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return true;
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}
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static void AddDereferencedPointer(
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Value *Ptr, SmallPtrSet<Value *, 4> &PtrSet, const DataLayout &DL) {
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// TODO: Use NullPointerIsDefined instead.
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if (Ptr->getType()->getPointerAddressSpace() == 0) {
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Ptr = GetUnderlyingObject(Ptr, DL);
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PtrSet.insert(Ptr);
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}
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}
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static void AddPointersDereferencedByInstruction(
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Instruction *I, SmallPtrSet<Value *, 4> &PtrSet, const DataLayout &DL) {
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static bool InstructionDereferencesPointer(Instruction *I, Value *Ptr) {
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if (LoadInst *L = dyn_cast<LoadInst>(I)) {
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AddDereferencedPointer(L->getPointerOperand(), PtrSet, DL);
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} else if (StoreInst *S = dyn_cast<StoreInst>(I)) {
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AddDereferencedPointer(S->getPointerOperand(), PtrSet, DL);
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} else if (MemIntrinsic *MI = dyn_cast<MemIntrinsic>(I)) {
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if (MI->isVolatile()) return;
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return L->getPointerAddressSpace() == 0 &&
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GetUnderlyingObject(L->getPointerOperand(),
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L->getModule()->getDataLayout()) == Ptr;
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}
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if (StoreInst *S = dyn_cast<StoreInst>(I)) {
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return S->getPointerAddressSpace() == 0 &&
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GetUnderlyingObject(S->getPointerOperand(),
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S->getModule()->getDataLayout()) == Ptr;
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}
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if (MemIntrinsic *MI = dyn_cast<MemIntrinsic>(I)) {
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if (MI->isVolatile()) return false;
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// FIXME: check whether it has a valuerange that excludes zero?
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ConstantInt *Len = dyn_cast<ConstantInt>(MI->getLength());
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if (!Len || Len->isZero()) return;
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if (!Len || Len->isZero()) return false;
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AddDereferencedPointer(MI->getRawDest(), PtrSet, DL);
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if (MI->getDestAddressSpace() == 0)
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if (GetUnderlyingObject(MI->getRawDest(),
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MI->getModule()->getDataLayout()) == Ptr)
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return true;
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if (MemTransferInst *MTI = dyn_cast<MemTransferInst>(MI))
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AddDereferencedPointer(MTI->getRawSource(), PtrSet, DL);
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if (MTI->getSourceAddressSpace() == 0)
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if (GetUnderlyingObject(MTI->getRawSource(),
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MTI->getModule()->getDataLayout()) == Ptr)
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return true;
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}
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return false;
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}
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bool LazyValueInfoImpl::isNonNullDueToDereferenceInBlock(
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Value *Val, BasicBlock *BB) {
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if (NullPointerIsDefined(BB->getParent(),
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Val->getType()->getPointerAddressSpace()))
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return false;
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/// Return true if the allocation associated with Val is ever dereferenced
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/// within the given basic block. This establishes the fact Val is not null,
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/// but does not imply that the memory at Val is dereferenceable. (Val may
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/// point off the end of the dereferenceable part of the object.)
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static bool isObjectDereferencedInBlock(Value *Val, BasicBlock *BB) {
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assert(Val->getType()->isPointerTy());
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const DataLayout &DL = BB->getModule()->getDataLayout();
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Val = GetUnderlyingObject(Val, DL);
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LazyValueInfoCache::PerBlockValueCacheTy::iterator It;
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bool NeedsInit;
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std::tie(It, NeedsInit) = TheCache.getOrInitDereferencedPointers(BB);
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if (NeedsInit)
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Value *UnderlyingVal = GetUnderlyingObject(Val, DL);
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// If 'GetUnderlyingObject' didn't converge, skip it. It won't converge
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// inside InstructionDereferencesPointer either.
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if (UnderlyingVal == GetUnderlyingObject(UnderlyingVal, DL, 1))
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for (Instruction &I : *BB)
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AddPointersDereferencedByInstruction(&I, It->second, DL);
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return It->second.count(Val);
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if (InstructionDereferencesPointer(&I, UnderlyingVal))
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return true;
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return false;
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}
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bool LazyValueInfoImpl::solveBlockValueNonLocal(ValueLatticeElement &BBLV,
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Value *Val, BasicBlock *BB) {
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Value *Val, BasicBlock *BB) {
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ValueLatticeElement Result; // Start Undefined.
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// If this is the entry block, we must be asking about an argument. The
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// value is overdefined.
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if (BB == &BB->getParent()->getEntryBlock()) {
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assert(isa<Argument>(Val) && "Unknown live-in to the entry block");
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BBLV = ValueLatticeElement::getOverdefined();
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// Before giving up, see if we can prove the pointer non-null local to
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// this particular block.
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PointerType *PTy = dyn_cast<PointerType>(Val->getType());
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if (PTy &&
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(isKnownNonZero(Val, DL) ||
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(isObjectDereferencedInBlock(Val, BB) &&
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!NullPointerIsDefined(BB->getParent(), PTy->getAddressSpace())))) {
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Result = ValueLatticeElement::getNot(ConstantPointerNull::get(PTy));
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} else {
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Result = ValueLatticeElement::getOverdefined();
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}
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BBLV = Result;
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return true;
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}
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@ -766,6 +758,14 @@ bool LazyValueInfoImpl::solveBlockValueNonLocal(ValueLatticeElement &BBLV,
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if (Result.isOverdefined()) {
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LLVM_DEBUG(dbgs() << " compute BB '" << BB->getName()
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<< "' - overdefined because of pred (non local).\n");
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// Before giving up, see if we can prove the pointer non-null local to
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// this particular block.
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PointerType *PTy = dyn_cast<PointerType>(Val->getType());
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if (PTy && isObjectDereferencedInBlock(Val, BB) &&
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!NullPointerIsDefined(BB->getParent(), PTy->getAddressSpace())) {
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Result = ValueLatticeElement::getNot(ConstantPointerNull::get(PTy));
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}
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BBLV = Result;
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return true;
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}
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@ -838,24 +838,16 @@ void LazyValueInfoImpl::intersectAssumeOrGuardBlockValueConstantRange(
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// If guards are not used in the module, don't spend time looking for them
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auto *GuardDecl = BBI->getModule()->getFunction(
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Intrinsic::getName(Intrinsic::experimental_guard));
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if (GuardDecl && !GuardDecl->use_empty()) {
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if (BBI->getIterator() == BBI->getParent()->begin())
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return;
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for (Instruction &I : make_range(std::next(BBI->getIterator().getReverse()),
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BBI->getParent()->rend())) {
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Value *Cond = nullptr;
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if (match(&I, m_Intrinsic<Intrinsic::experimental_guard>(m_Value(Cond))))
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BBLV = intersect(BBLV, getValueFromCondition(Val, Cond));
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}
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}
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if (!GuardDecl || GuardDecl->use_empty())
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return;
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if (BBLV.isOverdefined()) {
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// Check whether we're checking at the terminator, and the pointer has
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// been dereferenced in this block.
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PointerType *PTy = dyn_cast<PointerType>(Val->getType());
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if (PTy && BBI->getParent()->getTerminator() == BBI &&
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isNonNullDueToDereferenceInBlock(Val, BBI->getParent()))
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BBLV = ValueLatticeElement::getNot(ConstantPointerNull::get(PTy));
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if (BBI->getIterator() == BBI->getParent()->begin())
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return;
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for (Instruction &I : make_range(std::next(BBI->getIterator().getReverse()),
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BBI->getParent()->rend())) {
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Value *Cond = nullptr;
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if (match(&I, m_Intrinsic<Intrinsic::experimental_guard>(m_Value(Cond))))
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BBLV = intersect(BBLV, getValueFromCondition(Val, Cond));
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}
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}
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d3:
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%y = load i32*, i32** %ptr
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store i32 1, i32* %y
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%c2 = icmp eq i32* %y, @p
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%c2 = icmp eq i32* %y, null
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br i1 %c2, label %ret1, label %ret2
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ret1:
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@ -118,6 +118,5 @@ ret2:
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ret void
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}
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@p = external global i32
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!0 = !{}
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