[DAGCombine] Match a pattern where a wide type scalar value is stored by several narrow stores

This opportunity is found from spec 2017 557.xz_r. And it is used by the sha encrypt/decrypt. See sha-2/sha512.c static void store64(u64 x, unsigned char* y) { for(int i = 0; i != 8; ++i) y[i] = (x >> ((7-i) * 8)) & 255; } static u64 load64(const unsigned char* y) { u64 res = 0; for(int i = 0; i != 8; ++i) res |= (u64)(y[i]) << ((7-i) * 8); return res; } The load64 has been implemented by https://reviews.llvm.org/D26149 This patch is trying to implement the store pattern. Match a pattern where a wide type scalar value is stored by several narrow stores. Fold it into a single store or a BSWAP and a store if the targets supports it. Assuming little endian target: i8 *p = ... i32 val = ... p[0] = (val >> 0) & 0xFF; p[1] = (val >> 8) & 0xFF; p[2] = (val >> 16) & 0xFF; p[3] = (val >> 24) & 0xFF; > *((i32)p) = val; i8 *p = ... i32 val = ... p[0] = (val >> 24) & 0xFF; p[1] = (val >> 16) & 0xFF; p[2] = (val >> 8) & 0xFF; p[3] = (val >> 0) & 0xFF; > *((i32)p) = BSWAP(val); Differential Revision: https://reviews.llvm.org/D62897 llvm-svn: 362921
2019-06-10 05:40:21 +00:00 · 2019-06-10 05:40:21 +00:00 · ab846da7e8
parent 9000a72a4b
commit ab846da7e8
2 changed files with 249 additions and 266 deletions
--- a/llvm/lib/CodeGen/SelectionDAG/DAGCombiner.cpp
+++ b/llvm/lib/CodeGen/SelectionDAG/DAGCombiner.cpp
@ -524,6 +524,7 @@ namespace {
                              const SDLoc &DL);
    SDNode *MatchRotate(SDValue LHS, SDValue RHS, const SDLoc &DL);
    SDValue MatchLoadCombine(SDNode *N);
    SDValue MatchStoreCombine(StoreSDNode *N);
    SDValue ReduceLoadWidth(SDNode *N);
    SDValue ReduceLoadOpStoreWidth(SDNode *N);
    SDValue splitMergedValStore(StoreSDNode *ST);
@ -6257,6 +6258,181 @@ static Optional<bool> isBigEndian(const SmallVector<int64_t, 4> &ByteOffsets,
  return BigEndian;
 }
 static SDValue stripTruncAndExt(SDValue Value) {
  switch (Value.getOpcode()) {
  case ISD::TRUNCATE:
  case ISD::ZERO_EXTEND:
  case ISD::SIGN_EXTEND:
  case ISD::ANY_EXTEND:
    return stripTruncAndExt(Value.getOperand(0));
  }
  return Value;
 }
 /// Match a pattern where a wide type scalar value is stored by several narrow
 /// stores. Fold it into a single store or a BSWAP and a store if the targets
 /// supports it.
 ///
 /// Assuming little endian target:
 ///  i8 *p = ...
 ///  i32 val = ...
 ///  p[0] = (val >> 0) & 0xFF;
 ///  p[1] = (val >> 8) & 0xFF;
 ///  p[2] = (val >> 16) & 0xFF;
 ///  p[3] = (val >> 24) & 0xFF;
 /// =>
 ///  *((i32)p) = val;
 ///
 ///  i8 *p = ...
 ///  i32 val = ...
 ///  p[0] = (val >> 24) & 0xFF;
 ///  p[1] = (val >> 16) & 0xFF;
 ///  p[2] = (val >> 8) & 0xFF;
 ///  p[3] = (val >> 0) & 0xFF;
 /// =>
 ///  *((i32)p) = BSWAP(val);
 SDValue DAGCombiner::MatchStoreCombine(StoreSDNode *N) {
  // Collect all the stores in the chain.
  SDValue Chain;
  SmallVector<StoreSDNode *, 8> Stores;
  for (StoreSDNode *Store = N; Store; Store = dyn_cast<StoreSDNode>(Chain)) {
    if (Store->getMemoryVT() != MVT::i8 ||
        Store->isVolatile() || Store->isIndexed())
      return SDValue();
    Stores.push_back(Store);
    Chain = Store->getChain();
  }
  // Handle the simple type only.
  unsigned Width = Stores.size();
  EVT VT = EVT::getIntegerVT(
    *DAG.getContext(), Width * N->getMemoryVT().getSizeInBits());
  if (VT != MVT::i16 && VT != MVT::i32 && VT != MVT::i64)
    return SDValue();
  const TargetLowering &TLI = DAG.getTargetLoweringInfo();
  if (LegalOperations && !TLI.isOperationLegal(ISD::STORE, VT))
    return SDValue();
  // Check if all the bytes of the combined value we are looking at are stored 
  // to the same base address. Collect bytes offsets from Base address into 
  // ByteOffsets. 
  SDValue CombinedValue;
  SmallVector<int64_t, 4> ByteOffsets(Width, INT64_MAX);
  int64_t FirstOffset = INT64_MAX;
  StoreSDNode *FirstStore = nullptr;
  Optional<BaseIndexOffset> Base;
  for (auto Store : Stores) {
    // All the stores store different byte of the CombinedValue. A truncate is
    // required to get that byte value.
    SDValue Trunc = Store->getValue();
    if (Trunc.getOpcode() != ISD::TRUNCATE)
      return SDValue();
    // A shift operation is required to get the right byte offset, except the
    // first byte.
    int64_t Offset = 0;
    SDValue Value = Trunc.getOperand(0);
    if (Value.getOpcode() == ISD::SRL ||
        Value.getOpcode() == ISD::SRA) {
      ConstantSDNode *ShiftOffset =
        dyn_cast<ConstantSDNode>(Value.getOperand(1));
      // Trying to match the following pattern. The shift offset must be 
      // a constant and a multiple of 8. It is the byte offset in "y".
      // 
      // x = srl y, offset
      // i8 z = trunc x 
      // store z, ...
      if (!ShiftOffset || (ShiftOffset->getSExtValue() % 8))
        return SDValue();
     Offset = ShiftOffset->getSExtValue()/8;
     Value = Value.getOperand(0);
    }
    // Stores must share the same combined value with different offsets.
    if (!CombinedValue)
      CombinedValue = Value;
    else if (stripTruncAndExt(CombinedValue) != stripTruncAndExt(Value))
      return SDValue();
    // The trunc and all the extend operation should be stripped to get the
    // real value we are stored.
    else if (CombinedValue.getValueType() != VT) {
      if (Value.getValueType() == VT ||
          Value.getValueSizeInBits() > CombinedValue.getValueSizeInBits())
        CombinedValue = Value;
      // Give up if the combined value type is smaller than the store size.
      if (CombinedValue.getValueSizeInBits() < VT.getSizeInBits())
        return SDValue();
    }
    // Stores must share the same base address
    BaseIndexOffset Ptr = BaseIndexOffset::match(Store, DAG);
    int64_t ByteOffsetFromBase = 0;
    if (!Base)
      Base = Ptr;
    else if (!Base->equalBaseIndex(Ptr, DAG, ByteOffsetFromBase))
      return SDValue();
    // Remember the first byte store
    if (ByteOffsetFromBase < FirstOffset) {
      FirstStore = Store;
      FirstOffset = ByteOffsetFromBase;
    }
    // Map the offset in the store and the offset in the combined value, and
    // early return if it has been set before.
    if (Offset < 0 || Offset >= Width || ByteOffsets[Offset] != INT64_MAX)
      return SDValue();
    ByteOffsets[Offset] = ByteOffsetFromBase;
  }
  assert(FirstOffset != INT64_MAX && "First byte offset must be set");
  assert(FirstStore && "First store must be set");
  // Check if the bytes of the combined value we are looking at match with 
  // either big or little endian value store.
  Optional<bool> IsBigEndian = isBigEndian(ByteOffsets, FirstOffset);
  if (!IsBigEndian.hasValue())
    return SDValue();
  // The node we are looking at matches with the pattern, check if we can
  // replace it with a single bswap if needed and store.
  // If the store needs byte swap check if the target supports it
  bool NeedsBswap = DAG.getDataLayout().isBigEndian() != *IsBigEndian;
  // Before legalize we can introduce illegal bswaps which will be later
  // converted to an explicit bswap sequence. This way we end up with a single
  // store and byte shuffling instead of several stores and byte shuffling.
  if (NeedsBswap && LegalOperations && !TLI.isOperationLegal(ISD::BSWAP, VT))
    return SDValue();
  // Check that a store of the wide type is both allowed and fast on the target
  bool Fast = false;
  bool Allowed = TLI.allowsMemoryAccess(*DAG.getContext(), DAG.getDataLayout(),
                                        VT, FirstStore->getAddressSpace(),
                                        FirstStore->getAlignment(), &Fast);
  if (!Allowed || !Fast)
    return SDValue();
  if (VT != CombinedValue.getValueType()) {
    assert(CombinedValue.getValueType().getSizeInBits() > VT.getSizeInBits() &&
           "Get unexpected store value to combine");
    CombinedValue = DAG.getNode(ISD::TRUNCATE, SDLoc(N), VT,
                             CombinedValue);
  }
  if (NeedsBswap)
    CombinedValue = DAG.getNode(ISD::BSWAP, SDLoc(N), VT, CombinedValue);
  SDValue NewStore =
    DAG.getStore(Chain, SDLoc(N),  CombinedValue, FirstStore->getBasePtr(),
                 FirstStore->getPointerInfo(), FirstStore->getAlignment());
  // Rely on other DAG combine rules to remove the other individual stores.
  DAG.ReplaceAllUsesWith(N, NewStore.getNode());
  return NewStore;
 }
 /// Match a pattern where a wide type scalar value is loaded by several narrow
 /// loads and combined by shifts and ors. Fold it into a single load or a load
 /// and a BSWAP if the targets supports it.
@ -15791,6 +15967,10 @@ SDValue DAGCombiner::visitSTORE(SDNode *N) {
  if (SDValue NewST = TransformFPLoadStorePair(N))
    return NewST;
  // Try transforming several stores into STORE (BSWAP).
  if (SDValue Store = MatchStoreCombine(ST))
    return Store;
  if (ST->isUnindexed()) {
    // Walk up chain skipping non-aliasing memory nodes, on this store and any
    // adjacent stores.
--- a/llvm/test/CodeGen/PowerPC/store-combine.ll
+++ b/llvm/test/CodeGen/PowerPC/store-combine.ll
@ -10,24 +10,12 @@
 define void @store_i32_by_i8(i32 signext %m, i8* %p) {
 ; CHECK-PPC64LE-LABEL: store_i32_by_i8:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    srwi 5, 3, 8
+; CHECK-PPC64LE-NEXT:    stw 3, 0(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64LE-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64LE-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64LE-NEXT:    srwi 3, 3, 24
 ; CHECK-PPC64LE-NEXT:    stb 5, 2(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, 3(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_i32_by_i8:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    srwi 5, 3, 8
+; CHECK-PPC64-NEXT:    stwbrx 3, 0, 4 
 ; CHECK-PPC64-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64-NEXT:    srwi 3, 3, 24
 ; CHECK-PPC64-NEXT:    stb 5, 2(4)
 ; CHECK-PPC64-NEXT:    stb 3, 3(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %conv = trunc i32 %m to i8
@ -55,24 +43,12 @@ entry:
 define void @store_i32_by_i8_bswap(i32 signext %m, i8* %p)  {
 ; CHECK-PPC64LE-LABEL: store_i32_by_i8_bswap:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    srwi 5, 3, 24
+; CHECK-PPC64LE-NEXT:    stwbrx 3, 0, 4
 ; CHECK-PPC64LE-NEXT:    stb 5, 0(4)
 ; CHECK-PPC64LE-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64LE-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64LE-NEXT:    srwi 5, 3, 8
 ; CHECK-PPC64LE-NEXT:    stb 5, 2(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, 3(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_i32_by_i8_bswap:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    srwi 5, 3, 24
+; CHECK-PPC64-NEXT:    stw 3, 0(4)
 ; CHECK-PPC64-NEXT:    srwi 6, 3, 16
 ; CHECK-PPC64-NEXT:    stb 5, 0(4)
 ; CHECK-PPC64-NEXT:    srwi 5, 3, 8
 ; CHECK-PPC64-NEXT:    stb 6, 1(4)
 ; CHECK-PPC64-NEXT:    stb 5, 2(4)
 ; CHECK-PPC64-NEXT:    stb 3, 3(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %0 = lshr i32 %m, 24
@ -104,40 +80,12 @@ entry:
 define void @store_i64_by_i8(i64 %m, i8* %p)  {
 ; CHECK-PPC64LE-LABEL: store_i64_by_i8:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 56, 8
+; CHECK-PPC64LE-NEXT:    stdx 3, 0, 4
 ; CHECK-PPC64LE-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64LE-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 48, 16
 ; CHECK-PPC64LE-NEXT:    stb 5, 2(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 40, 24
 ; CHECK-PPC64LE-NEXT:    stb 5, 3(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 32, 32
 ; CHECK-PPC64LE-NEXT:    stb 5, 4(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 24, 40
 ; CHECK-PPC64LE-NEXT:    stb 5, 5(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 16, 48
 ; CHECK-PPC64LE-NEXT:    rldicl 3, 3, 8, 56
 ; CHECK-PPC64LE-NEXT:    stb 5, 6(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, 7(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_i64_by_i8:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    rldicl 5, 3, 56, 8
+; CHECK-PPC64-NEXT:    stdbrx 3, 0, 4
 ; CHECK-PPC64-NEXT:    rldicl 6, 3, 48, 16
 ; CHECK-PPC64-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64-NEXT:    rldicl 5, 3, 40, 24
 ; CHECK-PPC64-NEXT:    stb 6, 2(4)
 ; CHECK-PPC64-NEXT:    rldicl 6, 3, 32, 32
 ; CHECK-PPC64-NEXT:    stb 5, 3(4)
 ; CHECK-PPC64-NEXT:    rldicl 5, 3, 24, 40
 ; CHECK-PPC64-NEXT:    stb 6, 4(4)
 ; CHECK-PPC64-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64-NEXT:    stb 5, 5(4)
 ; CHECK-PPC64-NEXT:    rldicl 5, 3, 16, 48
 ; CHECK-PPC64-NEXT:    rldicl 3, 3, 8, 56
 ; CHECK-PPC64-NEXT:    stb 5, 6(4)
 ; CHECK-PPC64-NEXT:    stb 3, 7(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %conv = trunc i64 %m to i8
@ -185,40 +133,12 @@ entry:
 define void @store_i64_by_i8_bswap(i64 %m, i8* %p)  {
 ; CHECK-PPC64LE-LABEL: store_i64_by_i8_bswap:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 56, 8
+; CHECK-PPC64LE-NEXT:    stdbrx 3, 0, 4
 ; CHECK-PPC64LE-NEXT:    stb 3, 7(4)
 ; CHECK-PPC64LE-NEXT:    stb 5, 6(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 48, 16
 ; CHECK-PPC64LE-NEXT:    stb 5, 5(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 40, 24
 ; CHECK-PPC64LE-NEXT:    stb 5, 4(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 32, 32
 ; CHECK-PPC64LE-NEXT:    stb 5, 3(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 24, 40
 ; CHECK-PPC64LE-NEXT:    stb 5, 2(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 16, 48
 ; CHECK-PPC64LE-NEXT:    rldicl 3, 3, 8, 56
 ; CHECK-PPC64LE-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_i64_by_i8_bswap:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    rldicl 5, 3, 56, 8
+; CHECK-PPC64-NEXT:    stdx 3, 0, 4
 ; CHECK-PPC64-NEXT:    rldicl 6, 3, 48, 16
 ; CHECK-PPC64-NEXT:    stb 5, 6(4)
 ; CHECK-PPC64-NEXT:    rldicl 5, 3, 40, 24
 ; CHECK-PPC64-NEXT:    stb 6, 5(4)
 ; CHECK-PPC64-NEXT:    rldicl 6, 3, 32, 32
 ; CHECK-PPC64-NEXT:    stb 5, 4(4)
 ; CHECK-PPC64-NEXT:    rldicl 5, 3, 24, 40
 ; CHECK-PPC64-NEXT:    stb 6, 3(4)
 ; CHECK-PPC64-NEXT:    stb 3, 7(4)
 ; CHECK-PPC64-NEXT:    stb 5, 2(4)
 ; CHECK-PPC64-NEXT:    rldicl 5, 3, 16, 48
 ; CHECK-PPC64-NEXT:    rldicl 3, 3, 8, 56
 ; CHECK-PPC64-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %conv = trunc i64 %m to i8
@ -267,46 +187,18 @@ entry:
 define void @store_i64_by_i8_bswap_uses(i32 signext %t, i8* %p) {
 ; CHECK-PPC64LE-LABEL: store_i64_by_i8_bswap_uses:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    slwi 5, 3, 3
+; CHECK-PPC64LE-NEXT:    slwi [[REG:[0-9]+]], 3, 3
-; CHECK-PPC64LE-NEXT:    subf 3, 3, 5
+; CHECK-PPC64LE-NEXT:    subf [[REG1:[0-9]+]], 3, [[REG]] 
-; CHECK-PPC64LE-NEXT:    extsw 3, 3
+; CHECK-PPC64LE-NEXT:    extsw [[REG2:[0-9]+]], [[REG1]]
-; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 56, 8
+; CHECK-PPC64LE-NEXT:    stdbrx [[REG2]], 0, 4
 ; CHECK-PPC64LE-NEXT:    stb 3, 7(4)
 ; CHECK-PPC64LE-NEXT:    stb 5, 6(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 48, 16
 ; CHECK-PPC64LE-NEXT:    stb 5, 5(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 40, 24
 ; CHECK-PPC64LE-NEXT:    stb 5, 4(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 32, 32
 ; CHECK-PPC64LE-NEXT:    stb 5, 3(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 24, 40
 ; CHECK-PPC64LE-NEXT:    stb 5, 2(4)
 ; CHECK-PPC64LE-NEXT:    rldicl 5, 3, 16, 48
 ; CHECK-PPC64LE-NEXT:    rldicl 3, 3, 8, 56
 ; CHECK-PPC64LE-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_i64_by_i8_bswap_uses:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    slwi 5, 3, 3
+; CHECK-PPC64-NEXT:    slwi [[REG:[0-9]+]], 3, 3
-; CHECK-PPC64-NEXT:    subf 3, 3, 5
+; CHECK-PPC64-NEXT:    subf [[REG1:[0-9]+]], 3, [[REG]]
-; CHECK-PPC64-NEXT:    extsw 3, 3
+; CHECK-PPC64-NEXT:    extsw [[REG2:[0-9]+]], [[REG1]]
-; CHECK-PPC64-NEXT:    rldicl 5, 3, 56, 8
+; CHECK-PPC64-NEXT:    stdx [[REG2]], 0, 4
 ; CHECK-PPC64-NEXT:    rldicl 6, 3, 48, 16
 ; CHECK-PPC64-NEXT:    stb 5, 6(4)
 ; CHECK-PPC64-NEXT:    rldicl 5, 3, 40, 24
 ; CHECK-PPC64-NEXT:    stb 6, 5(4)
 ; CHECK-PPC64-NEXT:    rldicl 6, 3, 32, 32
 ; CHECK-PPC64-NEXT:    stb 5, 4(4)
 ; CHECK-PPC64-NEXT:    rldicl 5, 3, 24, 40
 ; CHECK-PPC64-NEXT:    stb 6, 3(4)
 ; CHECK-PPC64-NEXT:    stb 3, 7(4)
 ; CHECK-PPC64-NEXT:    stb 5, 2(4)
 ; CHECK-PPC64-NEXT:    rldicl 5, 3, 16, 48
 ; CHECK-PPC64-NEXT:    rldicl 3, 3, 8, 56
 ; CHECK-PPC64-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %mul = mul nsw i32 %t, 7
@ -356,25 +248,11 @@ entry:
 define void @store_i32_by_i8_bswap_volatile(i32 signext %m, i8* %p) {
 ; CHECK-PPC64LE-LABEL: store_i32_by_i8_bswap_volatile:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    srwi 5, 3, 8
+; CHECK-PPC64LE-NOT:   stwbrx 
 ; CHECK-PPC64LE-NEXT:    stb 3, 3(4)
 ; CHECK-PPC64LE-NEXT:    stb 5, 2(4)
 ; CHECK-PPC64LE-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64LE-NEXT:    srwi 3, 3, 24
 ; CHECK-PPC64LE-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_i32_by_i8_bswap_volatile:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    srwi 5, 3, 8
+; CHECK-PPC64-NOT:   stw 
 ; CHECK-PPC64-NEXT:    stb 3, 3(4)
 ; CHECK-PPC64-NEXT:    stb 5, 2(4)
 ; CHECK-PPC64-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64-NEXT:    srwi 3, 3, 24
 ; CHECK-PPC64-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %conv = trunc i32 %m to i8
  %arrayidx = getelementptr inbounds i8, i8* %p, i64 3
@ -403,29 +281,11 @@ entry:
 define void @store_i32_by_i8_bswap_store_in_between(i32 signext %m, i8* %p, i8* %q) {
 ; CHECK-PPC64LE-LABEL: store_i32_by_i8_bswap_store_in_between:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    srwi 6, 3, 8
+; CHECK-PPC64LE-NOT:   stwbrx 
 ; CHECK-PPC64LE-NEXT:    stb 3, 3(4)
 ; CHECK-PPC64LE-NEXT:    stb 6, 2(4)
 ; CHECK-PPC64LE-NEXT:    li 6, 3
 ; CHECK-PPC64LE-NEXT:    stb 6, 0(5)
 ; CHECK-PPC64LE-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64LE-NEXT:    srwi 3, 3, 24
 ; CHECK-PPC64LE-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_i32_by_i8_bswap_store_in_between:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    li 6, 3
+; CHECK-PPC64-NOT:   stw 
 ; CHECK-PPC64-NEXT:    srwi 7, 3, 8
 ; CHECK-PPC64-NEXT:    stb 7, 2(4)
 ; CHECK-PPC64-NEXT:    stb 3, 3(4)
 ; CHECK-PPC64-NEXT:    stb 6, 0(5)
 ; CHECK-PPC64-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64-NEXT:    srwi 3, 3, 24
 ; CHECK-PPC64-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %conv = trunc i32 %m to i8
  %arrayidx = getelementptr inbounds i8, i8* %p, i64 3
@ -448,25 +308,11 @@ entry:
 define void @store_i32_by_i8_bswap_unrelated_store(i32 signext %m, i8* %p, i8* %q) {
 ; CHECK-PPC64LE-LABEL: store_i32_by_i8_bswap_unrelated_store:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    srwi 6, 3, 8
+; CHECK-PPC64LE-NOT:   stwbrx 
 ; CHECK-PPC64LE-NEXT:    stb 3, 3(4)
 ; CHECK-PPC64LE-NEXT:    stb 6, 2(5)
 ; CHECK-PPC64LE-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64LE-NEXT:    srwi 3, 3, 24
 ; CHECK-PPC64LE-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_i32_by_i8_bswap_unrelated_store:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    srwi 6, 3, 8
+; CHECK-PPC64-NOT:   stw 
 ; CHECK-PPC64-NEXT:    stb 3, 3(4)
 ; CHECK-PPC64-NEXT:    stb 6, 2(5)
 ; CHECK-PPC64-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64-NEXT:    srwi 3, 3, 24
 ; CHECK-PPC64-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %conv = trunc i32 %m to i8
  %arrayidx = getelementptr inbounds i8, i8* %p, i64 3
@ -493,24 +339,13 @@ entry:
 define void @store_i32_by_i8_bswap_nonzero_offset(i32 signext %m, i8* %p) {
 ; CHECK-PPC64LE-LABEL: store_i32_by_i8_bswap_nonzero_offset:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    srwi 5, 3, 8
+; CHECK-PPC64LE-NEXT:    addi [[REG1:[0-9]+]], 4, 1
-; CHECK-PPC64LE-NEXT:    stb 5, 3(4)
+; CHECK-PPC64LE-NEXT:    stwbrx 3, 0, [[REG1]] 
 ; CHECK-PPC64LE-NEXT:    stb 3, 4(4)
 ; CHECK-PPC64LE-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64LE-NEXT:    srwi 3, 3, 24
 ; CHECK-PPC64LE-NEXT:    stb 5, 2(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, 1(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_i32_by_i8_bswap_nonzero_offset:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    srwi 5, 3, 8
+; CHECK-PPC64-NEXT:    stw 3, 1(4)
 ; CHECK-PPC64-NEXT:    stb 3, 4(4)
 ; CHECK-PPC64-NEXT:    stb 5, 3(4)
 ; CHECK-PPC64-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64-NEXT:    srwi 3, 3, 24
 ; CHECK-PPC64-NEXT:    stb 5, 2(4)
 ; CHECK-PPC64-NEXT:    stb 3, 1(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %0 = lshr i32 %m, 8
@ -539,24 +374,13 @@ entry:
 define void @store_i32_by_i8_neg_offset(i32 signext %m, i8* %p) {
 ; CHECK-PPC64LE-LABEL: store_i32_by_i8_neg_offset:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    srwi 5, 3, 8
+; CHECK-PPC64LE-NEXT:    stw 3, -4(4)
 ; CHECK-PPC64LE-NEXT:    stb 5, -3(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, -4(4)
 ; CHECK-PPC64LE-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64LE-NEXT:    srwi 3, 3, 24
 ; CHECK-PPC64LE-NEXT:    stb 5, -2(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, -1(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_i32_by_i8_neg_offset:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    srwi 5, 3, 8
+; CHECK-PPC64-NEXT:    addi [[REG1:[0-9]+]], 4, -4
-; CHECK-PPC64-NEXT:    stb 3, -4(4)
+; CHECK-PPC64-NEXT:    stwbrx 3, 0, [[REG1]] 
 ; CHECK-PPC64-NEXT:    stb 5, -3(4)
 ; CHECK-PPC64-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64-NEXT:    srwi 3, 3, 24
 ; CHECK-PPC64-NEXT:    stb 5, -2(4)
 ; CHECK-PPC64-NEXT:    stb 3, -1(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %0 = lshr i32 %m, 8
@ -585,24 +409,13 @@ entry:
 define void @store_i32_by_i8_bswap_neg_offset(i32 signext %m, i8* %p) {
 ; CHECK-PPC64LE-LABEL: store_i32_by_i8_bswap_neg_offset:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    srwi 5, 3, 16
+; CHECK-PPC64LE-NEXT:    addi [[REG1:[0-9]+]], 4, -4
-; CHECK-PPC64LE-NEXT:    stb 5, -3(4)
+; CHECK-PPC64LE-NEXT:    stwbrx 3, 0, [[REG1]] 
 ; CHECK-PPC64LE-NEXT:    srwi 5, 3, 24
 ; CHECK-PPC64LE-NEXT:    stb 5, -4(4)
 ; CHECK-PPC64LE-NEXT:    srwi 5, 3, 8
 ; CHECK-PPC64LE-NEXT:    stb 5, -2(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, -1(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_i32_by_i8_bswap_neg_offset:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    srwi 5, 3, 16
+; CHECK-PPC64-NEXT:    stw 3, -4(4)
 ; CHECK-PPC64-NEXT:    srwi 6, 3, 24
 ; CHECK-PPC64-NEXT:    stb 5, -3(4)
 ; CHECK-PPC64-NEXT:    srwi 5, 3, 8
 ; CHECK-PPC64-NEXT:    stb 6, -4(4)
 ; CHECK-PPC64-NEXT:    stb 5, -2(4)
 ; CHECK-PPC64-NEXT:    stb 3, -1(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %0 = lshr i32 %m, 16
@ -631,28 +444,17 @@ entry:
 define void @store_i32_by_i8_bswap_base_index_offset(i32 %m, i32 %i, i8* %p) {
 ; CHECK-PPC64LE-LABEL: store_i32_by_i8_bswap_base_index_offset:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    extsw 4, 4
+; CHECK-PPC64LE-NEXT:    extsw [[REG1:[0-9]+]], 4
-; CHECK-PPC64LE-NEXT:    srwi 6, 3, 16
+; CHECK-PPC64LE-NEXT:    add [[REG2:[0-9]+]], 5, [[REG1]] 
-; CHECK-PPC64LE-NEXT:    add 4, 5, 4
+; CHECK-PPC64LE-NEXT:    addi [[REG3:[0-9]+]], [[REG2]], -4
-; CHECK-PPC64LE-NEXT:    srwi 5, 3, 24
+; CHECK-PPC64LE-NEXT:    stwbrx 3, 0, [[REG3]] 
 ; CHECK-PPC64LE-NEXT:    stb 6, -3(4)
 ; CHECK-PPC64LE-NEXT:    stb 5, -4(4)
 ; CHECK-PPC64LE-NEXT:    srwi 5, 3, 8
 ; CHECK-PPC64LE-NEXT:    stb 5, -2(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, -1(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_i32_by_i8_bswap_base_index_offset:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    extsw 4, 4
+; CHECK-PPC64-NEXT:    extsw [[REG1:[0-9]+]], 4
-; CHECK-PPC64-NEXT:    srwi 6, 3, 16
+; CHECK-PPC64-NEXT:    add [[REG2:[0-9]+]], 5, [[REG1]] 
-; CHECK-PPC64-NEXT:    add 4, 5, 4
+; CHECK-PPC64-NEXT:    stw 3, -4([[REG2]])
 ; CHECK-PPC64-NEXT:    srwi 5, 3, 24
 ; CHECK-PPC64-NEXT:    stb 6, -3(4)
 ; CHECK-PPC64-NEXT:    srwi 6, 3, 8
 ; CHECK-PPC64-NEXT:    stb 5, -4(4)
 ; CHECK-PPC64-NEXT:    stb 6, -2(4)
 ; CHECK-PPC64-NEXT:    stb 3, -1(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %0 = lshr i32 %m, 16
@ -694,28 +496,17 @@ entry:
 define void @store_i32_by_i8_bswap_complicated(i32 %m, i32 %i, i8* %p) {
 ; CHECK-PPC64LE-LABEL: store_i32_by_i8_bswap_complicated:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    extsw 4, 4
+; CHECK-PPC64LE-NEXT:    extsw [[REG1:[0-9]+]], 4
-; CHECK-PPC64LE-NEXT:    add 4, 5, 4
+; CHECK-PPC64LE-NEXT:    add [[REG2:[0-9]+]], 5, [[REG1]] 
-; CHECK-PPC64LE-NEXT:    srwi 5, 3, 24
+; CHECK-PPC64LE-NEXT:    addi [[REG3:[0-9]+]], [[REG2]], 3 
-; CHECK-PPC64LE-NEXT:    stb 5, 3(4)
+; CHECK-PPC64LE-NEXT:    stwbrx 3, 0, [[REG3]] 
 ; CHECK-PPC64LE-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64LE-NEXT:    stb 5, 4(4)
 ; CHECK-PPC64LE-NEXT:    srwi 5, 3, 8
 ; CHECK-PPC64LE-NEXT:    stb 5, 5(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, 6(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_i32_by_i8_bswap_complicated:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    extsw 4, 4
+; CHECK-PPC64-NEXT:    extsw [[REG1:[0-9]+]], 4
-; CHECK-PPC64-NEXT:    srwi 6, 3, 24
+; CHECK-PPC64-NEXT:    add [[REG2:[0-9]+]], 5, [[REG1]] 
-; CHECK-PPC64-NEXT:    add 4, 5, 4
+; CHECK-PPC64-NEXT:    stw 3, 3([[REG2]])
 ; CHECK-PPC64-NEXT:    srwi 5, 3, 16
 ; CHECK-PPC64-NEXT:    stb 6, 3(4)
 ; CHECK-PPC64-NEXT:    stb 5, 4(4)
 ; CHECK-PPC64-NEXT:    srwi 5, 3, 8
 ; CHECK-PPC64-NEXT:    stb 5, 5(4)
 ; CHECK-PPC64-NEXT:    stb 3, 6(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %idx.ext = sext i32 %i to i64
@ -745,16 +536,12 @@ entry:
 define void @store_i16_by_i8_bswap(i16 %m, i8* %p) {
 ; CHECK-PPC64LE-LABEL: store_i16_by_i8_bswap:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    srwi 5, 3, 8
+; CHECK-PPC64LE-NEXT:    sthbrx 3, 0, 4
 ; CHECK-PPC64LE-NEXT:    stb 5, 0(4)
 ; CHECK-PPC64LE-NEXT:    stb 3, 1(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_i16_by_i8_bswap:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    srwi 5, 3, 8
+; CHECK-PPC64-NEXT:    sth 3, 0(4)
 ; CHECK-PPC64-NEXT:    stb 5, 0(4)
 ; CHECK-PPC64-NEXT:    stb 3, 1(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %0 = lshr i16 %m, 8
@ -771,16 +558,12 @@ entry:
 define void @store_16_by_i8(i16 %m, i8* %p) {
 ; CHECK-PPC64LE-LABEL: store_16_by_i8:
 ; CHECK-PPC64LE:       # %bb.0: # %entry
-; CHECK-PPC64LE-NEXT:    stb 3, 0(4)
+; CHECK-PPC64LE-NEXT:    sth 3, 0(4)
 ; CHECK-PPC64LE-NEXT:    srwi 3, 3, 8
 ; CHECK-PPC64LE-NEXT:    stb 3, 1(4)
 ; CHECK-PPC64LE-NEXT:    blr
 ;
 ; CHECK-PPC64-LABEL: store_16_by_i8:
 ; CHECK-PPC64:       # %bb.0: # %entry
-; CHECK-PPC64-NEXT:    srwi 5, 3, 8
+; CHECK-PPC64-NEXT:    sthbrx 3, 0, 4
 ; CHECK-PPC64-NEXT:    stb 3, 0(4)
 ; CHECK-PPC64-NEXT:    stb 5, 1(4)
 ; CHECK-PPC64-NEXT:    blr
 entry:
  %conv1 = trunc i16 %m to i8
@ -791,3 +574,23 @@ entry:
  store i8 %conv5, i8* %arrayidx6, align 1
  ret void
 }
 ; This was found when testing the hexxagon in testsuite
 ; i8* p; i8 v;
 ; p[0] = v;
 ; p[1] = v;
 define void @store_same_value_to_consecutive_mem(i8* %p, i8 zeroext %v) {
 ; CHECK-PPC64LE-LABEL: store_same_value_to_consecutive_mem 
 ; CHECK-PPC64LE:       # %bb.0: # %entry 
 ; CHECK-PPC64LE-NEXT:    stb 4, 0(3) 
 ; CHECK-PPC64LE-NEXT:    stb 4, 1(3) 
 ;
 ; CHECK-PPC64-LABEL: store_same_value_to_consecutive_mem 
 ; CHECK-PPC64:       # %bb.0: # %entry
 ; CHECK-PPC64-NEXT:    stb 4, 0(3)
 ; CHECK-PPC64-NEXT:    stb 4, 1(3)
 entry:
  store i8 %v, i8* %p, align 1
  %arrayidx1 = getelementptr inbounds i8, i8* %p, i64 1
  store i8 %v, i8* %arrayidx1, align 1
  ret void
 }