diff options
Diffstat (limited to 'llvm/lib/CodeGen/SelectionDAG/DAGCombiner.cpp')
| -rw-r--r-- | llvm/lib/CodeGen/SelectionDAG/DAGCombiner.cpp | 391 |
1 files changed, 120 insertions, 271 deletions
diff --git a/llvm/lib/CodeGen/SelectionDAG/DAGCombiner.cpp b/llvm/lib/CodeGen/SelectionDAG/DAGCombiner.cpp index d6f61851c29..08af326991e 100644 --- a/llvm/lib/CodeGen/SelectionDAG/DAGCombiner.cpp +++ b/llvm/lib/CodeGen/SelectionDAG/DAGCombiner.cpp @@ -52,10 +52,6 @@ STATISTIC(SlicedLoads, "Number of load sliced"); namespace { static cl::opt<bool> - CombinerAA("combiner-alias-analysis", cl::Hidden, - cl::desc("Enable DAG combiner alias-analysis heuristics")); - - static cl::opt<bool> CombinerGlobalAA("combiner-global-alias-analysis", cl::Hidden, cl::desc("Enable DAG combiner's use of IR alias analysis")); @@ -408,15 +404,12 @@ namespace { /// Holds a pointer to an LSBaseSDNode as well as information on where it /// is located in a sequence of memory operations connected by a chain. struct MemOpLink { - MemOpLink (LSBaseSDNode *N, int64_t Offset, unsigned Seq): - MemNode(N), OffsetFromBase(Offset), SequenceNum(Seq) { } + MemOpLink(LSBaseSDNode *N, int64_t Offset) + : MemNode(N), OffsetFromBase(Offset) {} // Ptr to the mem node. LSBaseSDNode *MemNode; // Offset from the base ptr. int64_t OffsetFromBase; - // What is the sequence number of this mem node. - // Lowest mem operand in the DAG starts at zero. - unsigned SequenceNum; }; /// This is a helper function for visitMUL to check the profitability @@ -431,7 +424,6 @@ namespace { /// constant build_vector of the stored constant values in Stores. SDValue getMergedConstantVectorStore(SelectionDAG &DAG, const SDLoc &SL, ArrayRef<MemOpLink> Stores, - SmallVectorImpl<SDValue> &Chains, EVT Ty) const; /// This is a helper function for visitAND and visitZERO_EXTEND. Returns @@ -453,10 +445,8 @@ namespace { /// This is a helper function for MergeConsecutiveStores. /// Stores that may be merged are placed in StoreNodes. - /// Loads that may alias with those stores are placed in AliasLoadNodes. - void getStoreMergeAndAliasCandidates( - StoreSDNode* St, SmallVectorImpl<MemOpLink> &StoreNodes, - SmallVectorImpl<LSBaseSDNode*> &AliasLoadNodes); + void getStoreMergeCandidates(StoreSDNode *St, + SmallVectorImpl<MemOpLink> &StoreNodes); /// Helper function for MergeConsecutiveStores. Checks if /// Candidate stores have indirect dependency through their @@ -1606,11 +1596,9 @@ SDValue DAGCombiner::visitTokenFactor(SDNode *N) { Result = DAG.getNode(ISD::TokenFactor, SDLoc(N), MVT::Other, Ops); } - // Add users to worklist if AA is enabled, since it may introduce - // a lot of new chained token factors while removing memory deps. - bool UseAA = CombinerAA.getNumOccurrences() > 0 ? CombinerAA - : DAG.getSubtarget().useAA(); - return CombineTo(N, Result, UseAA /*add to worklist*/); + // Add users to worklist, since we may introduce a lot of new + // chained token factors while removing memory deps. + return CombineTo(N, Result, true /*add to worklist*/); } return Result; @@ -10169,11 +10157,22 @@ SDValue DAGCombiner::visitLOAD(SDNode *N) { // TODO: Handle store large -> read small portion. // TODO: Handle TRUNCSTORE/LOADEXT if (ISD::isNormalLoad(N) && !LD->isVolatile()) { - if (ISD::isNON_TRUNCStore(Chain.getNode())) { + // Either a direct store, or a store off of a TokenFactor can be + // forwarded. + if (Chain->getOpcode() == ISD::TokenFactor) { + for (const SDValue &ChainOp : Chain->op_values()) { + if (ISD::isNON_TRUNCStore(ChainOp.getNode())) { + StoreSDNode *PrevST = cast<StoreSDNode>(ChainOp); + if (PrevST->getBasePtr() == Ptr && + PrevST->getValue().getValueType() == N->getValueType(0)) + return CombineTo(N, PrevST->getOperand(1), Chain); + } + } + } else if (ISD::isNON_TRUNCStore(Chain.getNode())) { StoreSDNode *PrevST = cast<StoreSDNode>(Chain); if (PrevST->getBasePtr() == Ptr && PrevST->getValue().getValueType() == N->getValueType(0)) - return CombineTo(N, Chain.getOperand(1), Chain); + return CombineTo(N, PrevST->getOperand(1), Chain); } } @@ -10191,14 +10190,7 @@ SDValue DAGCombiner::visitLOAD(SDNode *N) { } } - bool UseAA = CombinerAA.getNumOccurrences() > 0 ? CombinerAA - : DAG.getSubtarget().useAA(); -#ifndef NDEBUG - if (CombinerAAOnlyFunc.getNumOccurrences() && - CombinerAAOnlyFunc != DAG.getMachineFunction().getName()) - UseAA = false; -#endif - if (UseAA && LD->isUnindexed()) { + if (LD->isUnindexed()) { // Walk up chain skipping non-aliasing memory nodes. SDValue BetterChain = FindBetterChain(N, Chain); @@ -11277,14 +11269,14 @@ bool DAGCombiner::isMulAddWithConstProfitable(SDNode *MulNode, return false; } -SDValue DAGCombiner::getMergedConstantVectorStore( - SelectionDAG &DAG, const SDLoc &SL, ArrayRef<MemOpLink> Stores, - SmallVectorImpl<SDValue> &Chains, EVT Ty) const { +SDValue DAGCombiner::getMergedConstantVectorStore(SelectionDAG &DAG, + const SDLoc &SL, + ArrayRef<MemOpLink> Stores, + EVT Ty) const { SmallVector<SDValue, 8> BuildVector; for (unsigned I = 0, E = Ty.getVectorNumElements(); I != E; ++I) { StoreSDNode *St = cast<StoreSDNode>(Stores[I].MemNode); - Chains.push_back(St->getChain()); BuildVector.push_back(St->getValue()); } @@ -11300,21 +11292,8 @@ bool DAGCombiner::MergeStoresOfConstantsOrVecElts( int64_t ElementSizeBytes = MemVT.getSizeInBits() / 8; LSBaseSDNode *FirstInChain = StoreNodes[0].MemNode; - unsigned LatestNodeUsed = 0; - - for (unsigned i=0; i < NumStores; ++i) { - // Find a chain for the new wide-store operand. Notice that some - // of the store nodes that we found may not be selected for inclusion - // in the wide store. The chain we use needs to be the chain of the - // latest store node which is *used* and replaced by the wide store. - if (StoreNodes[i].SequenceNum < StoreNodes[LatestNodeUsed].SequenceNum) - LatestNodeUsed = i; - } - - SmallVector<SDValue, 8> Chains; // The latest Node in the DAG. - LSBaseSDNode *LatestOp = StoreNodes[LatestNodeUsed].MemNode; SDLoc DL(StoreNodes[0].MemNode); SDValue StoredVal; @@ -11330,7 +11309,7 @@ bool DAGCombiner::MergeStoresOfConstantsOrVecElts( assert(TLI.isTypeLegal(Ty) && "Illegal vector store"); if (IsConstantSrc) { - StoredVal = getMergedConstantVectorStore(DAG, DL, StoreNodes, Chains, Ty); + StoredVal = getMergedConstantVectorStore(DAG, DL, StoreNodes, Ty); } else { SmallVector<SDValue, 8> Ops; for (unsigned i = 0; i < NumStores; ++i) { @@ -11340,7 +11319,6 @@ bool DAGCombiner::MergeStoresOfConstantsOrVecElts( if (Val.getValueType() != MemVT) return false; Ops.push_back(Val); - Chains.push_back(St->getChain()); } // Build the extracted vector elements back into a vector. @@ -11360,7 +11338,6 @@ bool DAGCombiner::MergeStoresOfConstantsOrVecElts( for (unsigned i = 0; i < NumStores; ++i) { unsigned Idx = IsLE ? (NumStores - 1 - i) : i; StoreSDNode *St = cast<StoreSDNode>(StoreNodes[Idx].MemNode); - Chains.push_back(St->getChain()); SDValue Val = St->getValue(); StoreInt <<= ElementSizeBytes * 8; @@ -11378,7 +11355,11 @@ bool DAGCombiner::MergeStoresOfConstantsOrVecElts( StoredVal = DAG.getConstant(StoreInt, DL, StoreTy); } - assert(!Chains.empty()); + SmallVector<SDValue, 8> Chains; + + // Gather all Chains we're inheriting + for (unsigned i = 0; i < NumStores; ++i) + Chains.push_back(StoreNodes[i].MemNode->getChain()); SDValue NewChain = DAG.getNode(ISD::TokenFactor, DL, MVT::Other, Chains); SDValue NewStore = DAG.getStore(NewChain, DL, StoredVal, @@ -11386,45 +11367,19 @@ bool DAGCombiner::MergeStoresOfConstantsOrVecElts( FirstInChain->getPointerInfo(), FirstInChain->getAlignment()); - bool UseAA = CombinerAA.getNumOccurrences() > 0 ? CombinerAA - : DAG.getSubtarget().useAA(); - if (UseAA) { - // Replace all merged stores with the new store. - for (unsigned i = 0; i < NumStores; ++i) - CombineTo(StoreNodes[i].MemNode, NewStore); - } else { - // Replace the last store with the new store. - CombineTo(LatestOp, NewStore); - // Erase all other stores. - for (unsigned i = 0; i < NumStores; ++i) { - if (StoreNodes[i].MemNode == LatestOp) - continue; - StoreSDNode *St = cast<StoreSDNode>(StoreNodes[i].MemNode); - // ReplaceAllUsesWith will replace all uses that existed when it was - // called, but graph optimizations may cause new ones to appear. For - // example, the case in pr14333 looks like - // - // St's chain -> St -> another store -> X - // - // And the only difference from St to the other store is the chain. - // When we change it's chain to be St's chain they become identical, - // get CSEed and the net result is that X is now a use of St. - // Since we know that St is redundant, just iterate. - while (!St->use_empty()) - DAG.ReplaceAllUsesWith(SDValue(St, 0), St->getChain()); - deleteAndRecombine(St); - } - } + // Replace all merged stores with the new store + for (unsigned i = 0; i < NumStores; ++i) + CombineTo(StoreNodes[i].MemNode, NewStore); return true; } -void DAGCombiner::getStoreMergeAndAliasCandidates( - StoreSDNode* St, SmallVectorImpl<MemOpLink> &StoreNodes, - SmallVectorImpl<LSBaseSDNode*> &AliasLoadNodes) { +void DAGCombiner::getStoreMergeCandidates( + StoreSDNode *St, SmallVectorImpl<MemOpLink> &StoreNodes) { // This holds the base pointer, index, and the offset in bytes from the base // pointer. BaseIndexOffset BasePtr = BaseIndexOffset::match(St->getBasePtr(), DAG); + EVT MemVT = St->getMemoryVT(); // We must have a base and an offset. if (!BasePtr.Base.getNode()) @@ -11434,104 +11389,49 @@ void DAGCombiner::getStoreMergeAndAliasCandidates( if (BasePtr.Base.isUndef()) return; - // Walk up the chain and look for nodes with offsets from the same - // base pointer. Stop when reaching an instruction with a different kind - // or instruction which has a different base pointer. - EVT MemVT = St->getMemoryVT(); - unsigned Seq = 0; - StoreSDNode *Index = St; - - - bool UseAA = CombinerAA.getNumOccurrences() > 0 ? CombinerAA - : DAG.getSubtarget().useAA(); - - if (UseAA) { - // Look at other users of the same chain. Stores on the same chain do not - // alias. If combiner-aa is enabled, non-aliasing stores are canonicalized - // to be on the same chain, so don't bother looking at adjacent chains. - - SDValue Chain = St->getChain(); - for (auto I = Chain->use_begin(), E = Chain->use_end(); I != E; ++I) { - if (StoreSDNode *OtherST = dyn_cast<StoreSDNode>(*I)) { - if (I.getOperandNo() != 0) - continue; - - if (OtherST->isVolatile() || OtherST->isIndexed()) - continue; - - if (OtherST->getMemoryVT() != MemVT) - continue; - - BaseIndexOffset Ptr = BaseIndexOffset::match(OtherST->getBasePtr(), DAG); - - if (Ptr.equalBaseIndex(BasePtr)) - StoreNodes.push_back(MemOpLink(OtherST, Ptr.Offset, Seq++)); - } - } - - return; - } - - while (Index) { - // If the chain has more than one use, then we can't reorder the mem ops. - if (Index != St && !SDValue(Index, 0)->hasOneUse()) - break; - - // Find the base pointer and offset for this memory node. - BaseIndexOffset Ptr = BaseIndexOffset::match(Index->getBasePtr(), DAG); - - // Check that the base pointer is the same as the original one. - if (!Ptr.equalBaseIndex(BasePtr)) - break; - - // The memory operands must not be volatile. - if (Index->isVolatile() || Index->isIndexed()) - break; - - // No truncation. - if (Index->isTruncatingStore()) - break; + // We looking for a root node which is an ancestor to all mergable + // stores. We search up through a load, to our root and then down + // through all children. For instance we will find Store{1,2,3} if + // St is Store1, Store2. or Store3 where the root is not a load + // which always true for nonvolatile ops. TODO: Expand + // the search to find all valid candidates through multiple layers of loads. + // + // Root + // |-------|-------| + // Load Load Store3 + // | | + // Store1 Store2 + // + // FIXME: We should be able to climb and + // descend TokenFactors to find candidates as well. - // The stored memory type must be the same. - if (Index->getMemoryVT() != MemVT) - break; + SDNode *RootNode = (St->getChain()).getNode(); - // We do not allow under-aligned stores in order to prevent - // overriding stores. NOTE: this is a bad hack. Alignment SHOULD - // be irrelevant here; what MATTERS is that we not move memory - // operations that potentially overlap past each-other. - if (Index->getAlignment() < MemVT.getStoreSize()) - break; + // Set of Parents of Candidates + std::set<SDNode *> CandidateParents; - // We found a potential memory operand to merge. - StoreNodes.push_back(MemOpLink(Index, Ptr.Offset, Seq++)); - - // Find the next memory operand in the chain. If the next operand in the - // chain is a store then move up and continue the scan with the next - // memory operand. If the next operand is a load save it and use alias - // information to check if it interferes with anything. - SDNode *NextInChain = Index->getChain().getNode(); - while (1) { - if (StoreSDNode *STn = dyn_cast<StoreSDNode>(NextInChain)) { - // We found a store node. Use it for the next iteration. - Index = STn; - break; - } else if (LoadSDNode *Ldn = dyn_cast<LoadSDNode>(NextInChain)) { - if (Ldn->isVolatile()) { - Index = nullptr; - break; + if (LoadSDNode *Ldn = dyn_cast<LoadSDNode>(RootNode)) { + RootNode = Ldn->getChain().getNode(); + for (auto I = RootNode->use_begin(), E = RootNode->use_end(); I != E; ++I) + if (I.getOperandNo() == 0 && isa<LoadSDNode>(*I)) // walk down chain + CandidateParents.insert(*I); + } else + CandidateParents.insert(RootNode); + + // check all parents of mergable children + for (auto P = CandidateParents.begin(); P != CandidateParents.end(); ++P) + for (auto I = (*P)->use_begin(), E = (*P)->use_end(); I != E; ++I) + if (I.getOperandNo() == 0) + if (StoreSDNode *OtherST = dyn_cast<StoreSDNode>(*I)) { + if (OtherST->isVolatile() || OtherST->isIndexed()) + continue; + if (OtherST->getMemoryVT() != MemVT) + continue; + BaseIndexOffset Ptr = + BaseIndexOffset::match(OtherST->getBasePtr(), DAG); + if (Ptr.equalBaseIndex(BasePtr)) + StoreNodes.push_back(MemOpLink(OtherST, Ptr.Offset)); } - - // Save the load node for later. Continue the scan. - AliasLoadNodes.push_back(Ldn); - NextInChain = Ldn->getChain().getNode(); - continue; - } else { - Index = nullptr; - break; - } - } - } } // We need to check that merging these stores does not cause a loop @@ -11592,67 +11492,36 @@ bool DAGCombiner::MergeConsecutiveStores(StoreSDNode* St) { if (MemVT.isVector() && IsLoadSrc) return false; - // Only look at ends of store sequences. - SDValue Chain = SDValue(St, 0); - if (Chain->hasOneUse() && Chain->use_begin()->getOpcode() == ISD::STORE) - return false; - - // Save the LoadSDNodes that we find in the chain. - // We need to make sure that these nodes do not interfere with - // any of the store nodes. - SmallVector<LSBaseSDNode*, 8> AliasLoadNodes; - - // Save the StoreSDNodes that we find in the chain. + // Find potential store merge candidates by searching through chain sub-DAG SmallVector<MemOpLink, 8> StoreNodes; - - getStoreMergeAndAliasCandidates(St, StoreNodes, AliasLoadNodes); + getStoreMergeCandidates(St, StoreNodes); // Check if there is anything to merge. if (StoreNodes.size() < 2) return false; - // only do dependence check in AA case - bool UseAA = CombinerAA.getNumOccurrences() > 0 ? CombinerAA - : DAG.getSubtarget().useAA(); - if (UseAA && !checkMergeStoreCandidatesForDependencies(StoreNodes)) + // Check that we can merge these candidates without causing a cycle + if (!checkMergeStoreCandidatesForDependencies(StoreNodes)) return false; // Sort the memory operands according to their distance from the - // base pointer. As a secondary criteria: make sure stores coming - // later in the code come first in the list. This is important for - // the non-UseAA case, because we're merging stores into the FINAL - // store along a chain which potentially contains aliasing stores. - // Thus, if there are multiple stores to the same address, the last - // one can be considered for merging but not the others. + // base pointer. std::sort(StoreNodes.begin(), StoreNodes.end(), [](MemOpLink LHS, MemOpLink RHS) { - return LHS.OffsetFromBase < RHS.OffsetFromBase || - (LHS.OffsetFromBase == RHS.OffsetFromBase && - LHS.SequenceNum < RHS.SequenceNum); - }); + return LHS.OffsetFromBase < RHS.OffsetFromBase; + }); // Scan the memory operations on the chain and find the first non-consecutive // store memory address. unsigned LastConsecutiveStore = 0; int64_t StartAddress = StoreNodes[0].OffsetFromBase; - for (unsigned i = 0, e = StoreNodes.size(); i < e; ++i) { - - // Check that the addresses are consecutive starting from the second - // element in the list of stores. - if (i > 0) { - int64_t CurrAddress = StoreNodes[i].OffsetFromBase; - if (CurrAddress - StartAddress != (ElementSizeBytes * i)) - break; - } - // Check if this store interferes with any of the loads that we found. - // If we find a load that alias with this store. Stop the sequence. - if (any_of(AliasLoadNodes, [&](LSBaseSDNode *Ldn) { - return isAlias(Ldn, StoreNodes[i].MemNode); - })) + // Check that the addresses are consecutive starting from the second + // element in the list of stores. + for (unsigned i = 1, e = StoreNodes.size(); i < e; ++i) { + int64_t CurrAddress = StoreNodes[i].OffsetFromBase; + if (CurrAddress - StartAddress != (ElementSizeBytes * i)) break; - - // Mark this node as useful. LastConsecutiveStore = i; } @@ -11806,7 +11675,7 @@ bool DAGCombiner::MergeConsecutiveStores(StoreSDNode* St) { } // We found a potential memory operand to merge. - LoadNodes.push_back(MemOpLink(Ld, LdPtr.Offset, 0)); + LoadNodes.push_back(MemOpLink(Ld, LdPtr.Offset)); } if (LoadNodes.size() < 2) @@ -11895,22 +11764,8 @@ bool DAGCombiner::MergeConsecutiveStores(StoreSDNode* St) { // Collect the chains from all merged stores. SmallVector<SDValue, 8> MergeStoreChains; - MergeStoreChains.push_back(StoreNodes[0].MemNode->getChain()); - - // The latest Node in the DAG. - unsigned LatestNodeUsed = 0; - for (unsigned i=1; i<NumElem; ++i) { - // Find a chain for the new wide-store operand. Notice that some - // of the store nodes that we found may not be selected for inclusion - // in the wide store. The chain we use needs to be the chain of the - // latest store node which is *used* and replaced by the wide store. - if (StoreNodes[i].SequenceNum < StoreNodes[LatestNodeUsed].SequenceNum) - LatestNodeUsed = i; - + for (unsigned i = 0; i < NumElem; ++i) MergeStoreChains.push_back(StoreNodes[i].MemNode->getChain()); - } - - LSBaseSDNode *LatestOp = StoreNodes[LatestNodeUsed].MemNode; // Find if it is better to use vectors or integers to load and store // to memory. @@ -11945,23 +11800,9 @@ bool DAGCombiner::MergeConsecutiveStores(StoreSDNode* St) { SDValue(NewLoad.getNode(), 1)); } - if (UseAA) { - // Replace the all stores with the new store. - for (unsigned i = 0; i < NumElem; ++i) - CombineTo(StoreNodes[i].MemNode, NewStore); - } else { - // Replace the last store with the new store. - CombineTo(LatestOp, NewStore); - // Erase all other stores. - for (unsigned i = 0; i < NumElem; ++i) { - // Remove all Store nodes. - if (StoreNodes[i].MemNode == LatestOp) - continue; - StoreSDNode *St = cast<StoreSDNode>(StoreNodes[i].MemNode); - DAG.ReplaceAllUsesOfValueWith(SDValue(St, 0), St->getChain()); - deleteAndRecombine(St); - } - } + // Replace the all stores with the new store. + for (unsigned i = 0; i < NumElem; ++i) + CombineTo(StoreNodes[i].MemNode, NewStore); return true; } @@ -12119,19 +11960,7 @@ SDValue DAGCombiner::visitSTORE(SDNode *N) { if (SDValue NewST = TransformFPLoadStorePair(N)) return NewST; - bool UseAA = CombinerAA.getNumOccurrences() > 0 ? CombinerAA - : DAG.getSubtarget().useAA(); -#ifndef NDEBUG - if (CombinerAAOnlyFunc.getNumOccurrences() && - CombinerAAOnlyFunc != DAG.getMachineFunction().getName()) - UseAA = false; -#endif - if (UseAA && ST->isUnindexed()) { - // FIXME: We should do this even without AA enabled. AA will just allow - // FindBetterChain to work in more situations. The problem with this is that - // any combine that expects memory operations to be on consecutive chains - // first needs to be updated to look for users of the same chain. - + if (ST->isUnindexed()) { // Walk up chain skipping non-aliasing memory nodes, on this store and any // adjacent stores. if (findBetterNeighborChains(ST)) { @@ -12165,8 +11994,13 @@ SDValue DAGCombiner::visitSTORE(SDNode *N) { if (SimplifyDemandedBits( Value, APInt::getLowBitsSet(Value.getScalarValueSizeInBits(), - ST->getMemoryVT().getScalarSizeInBits()))) + ST->getMemoryVT().getScalarSizeInBits()))) { + // Re-visit the store if anything changed; SimplifyDemandedBits + // will add Value's node back to the worklist if necessary, but + // we also need to re-visit the Store node itself. + AddToWorklist(N); return SDValue(N, 0); + } } // If this is a load followed by a store to the same location, then the store @@ -15159,6 +14993,18 @@ SDValue DAGCombiner::FindBetterChain(SDNode *N, SDValue OldChain) { return DAG.getNode(ISD::TokenFactor, SDLoc(N), MVT::Other, Aliases); } +// This function tries to collect a bunch of potentially interesting +// nodes to improve the chains of, all at once. This might seem +// redundant, as this function gets called when visiting every store +// node, so why not let the work be done on each store as it's visited? +// +// I believe this is mainly important because MergeConsecutiveStores +// is unable to deal with merging stores of different sizes, so unless +// we improve the chains of all the potential candidates up-front +// before running MergeConsecutiveStores, it might only see some of +// the nodes that will eventually be candidates, and then not be able +// to go from a partially-merged state to the desired final +// fully-merged state. bool DAGCombiner::findBetterNeighborChains(StoreSDNode *St) { // This holds the base pointer, index, and the offset in bytes from the base // pointer. @@ -15194,10 +15040,8 @@ bool DAGCombiner::findBetterNeighborChains(StoreSDNode *St) { if (!Ptr.equalBaseIndex(BasePtr)) break; - // Find the next memory operand in the chain. If the next operand in the - // chain is a store then move up and continue the scan with the next - // memory operand. If the next operand is a load save it and use alias - // information to check if it interferes with anything. + // Walk up the chain to find the next store node, ignoring any + // intermediate loads. Any other kind of node will halt the loop. SDNode *NextInChain = Index->getChain().getNode(); while (true) { if (StoreSDNode *STn = dyn_cast<StoreSDNode>(NextInChain)) { @@ -15216,9 +15060,14 @@ bool DAGCombiner::findBetterNeighborChains(StoreSDNode *St) { Index = nullptr; break; } - } + } // end while } + // At this point, ChainedStores lists all of the Store nodes + // reachable by iterating up through chain nodes matching the above + // conditions. For each such store identified, try to find an + // earlier chain to attach the store to which won't violate the + // required ordering. bool MadeChangeToSt = false; SmallVector<std::pair<StoreSDNode *, SDValue>, 8> BetterChains; |
