[llvm] 07d4965 - [SLP] Replace MainOp and AltOp in TreeEntry with InstructionsState. (#122443)
via llvm-commits
llvm-commits at lists.llvm.org
Fri Jan 17 18:23:24 PST 2025
Author: Han-Kuan Chen
Date: 2025-01-18T10:23:20+08:00
New Revision: 07d496538f5543a8eed5e207148e28e358b7cca4
URL: https://github.com/llvm/llvm-project/commit/07d496538f5543a8eed5e207148e28e358b7cca4
DIFF: https://github.com/llvm/llvm-project/commit/07d496538f5543a8eed5e207148e28e358b7cca4.diff
LOG: [SLP] Replace MainOp and AltOp in TreeEntry with InstructionsState. (#122443)
Add TreeEntry::hasState.
Add assert for getTreeEntry.
Remove the OpValue parameter from the canReuseExtract function.
Remove the Opcode parameter from the ComputeMaxBitWidth lambda function.
Added:
llvm/test/Transforms/SLPVectorizer/AArch64/InstructionsState-is-invalid-0.ll
llvm/test/Transforms/SLPVectorizer/InstructionsState-is-invalid-2.ll
llvm/test/Transforms/SLPVectorizer/X86/InstructionsState-is-invalid-1.ll
Modified:
llvm/lib/Transforms/Vectorize/SLPVectorizer.cpp
Removed:
################################################################################
diff --git a/llvm/lib/Transforms/Vectorize/SLPVectorizer.cpp b/llvm/lib/Transforms/Vectorize/SLPVectorizer.cpp
index 40dd0d4cc4ef68..34d9abb4dc7a35 100644
--- a/llvm/lib/Transforms/Vectorize/SLPVectorizer.cpp
+++ b/llvm/lib/Transforms/Vectorize/SLPVectorizer.cpp
@@ -2414,15 +2414,17 @@ class BoUpSLP {
}
/// Go through the instructions in VL and append their operands.
- void appendOperandsOfVL(ArrayRef<Value *> VL, Instruction *VL0) {
+ void appendOperandsOfVL(ArrayRef<Value *> VL, const InstructionsState &S) {
assert(!VL.empty() && "Bad VL");
assert((empty() || VL.size() == getNumLanes()) &&
"Expected same number of lanes");
+ assert(S.valid() && "InstructionsState is invalid.");
// IntrinsicInst::isCommutative returns true if swapping the first "two"
// arguments to the intrinsic produces the same result.
constexpr unsigned IntrinsicNumOperands = 2;
- unsigned NumOperands = VL0->getNumOperands();
- ArgSize = isa<IntrinsicInst>(VL0) ? IntrinsicNumOperands : NumOperands;
+ Instruction *MainOp = S.getMainOp();
+ unsigned NumOperands = MainOp->getNumOperands();
+ ArgSize = isa<IntrinsicInst>(MainOp) ? IntrinsicNumOperands : NumOperands;
OpsVec.resize(NumOperands);
unsigned NumLanes = VL.size();
for (unsigned OpIdx = 0; OpIdx != NumOperands; ++OpIdx) {
@@ -2441,19 +2443,19 @@ class BoUpSLP {
// operations or alternating sequences (e.g., +, -), we can safely
// tell the inverse operations by checking commutativity.
if (isa<PoisonValue>(VL[Lane])) {
- if (auto *EI = dyn_cast<ExtractElementInst>(VL0)) {
+ if (auto *EI = dyn_cast<ExtractElementInst>(MainOp)) {
if (OpIdx == 0) {
OpsVec[OpIdx][Lane] = {EI->getVectorOperand(), true, false};
continue;
}
- } else if (auto *EV = dyn_cast<ExtractValueInst>(VL0)) {
+ } else if (auto *EV = dyn_cast<ExtractValueInst>(MainOp)) {
if (OpIdx == 0) {
OpsVec[OpIdx][Lane] = {EV->getAggregateOperand(), true, false};
continue;
}
}
OpsVec[OpIdx][Lane] = {
- PoisonValue::get(VL0->getOperand(OpIdx)->getType()), true,
+ PoisonValue::get(MainOp->getOperand(OpIdx)->getType()), true,
false};
continue;
}
@@ -2566,11 +2568,12 @@ class BoUpSLP {
public:
/// Initialize with all the operands of the instruction vector \p RootVL.
- VLOperands(ArrayRef<Value *> RootVL, Instruction *VL0, const BoUpSLP &R)
+ VLOperands(ArrayRef<Value *> RootVL, const InstructionsState &S,
+ const BoUpSLP &R)
: TLI(*R.TLI), DL(*R.DL), SE(*R.SE), R(R),
- L(R.LI->getLoopFor((VL0->getParent()))) {
+ L(R.LI->getLoopFor(S.getMainOp()->getParent())) {
// Append all the operands of RootVL.
- appendOperandsOfVL(RootVL, VL0);
+ appendOperandsOfVL(RootVL, S);
}
/// \Returns a value vector with the operands across all lanes for the
@@ -3043,7 +3046,7 @@ class BoUpSLP {
/// non-identity permutation that allows to reuse extract instructions.
/// \param ResizeAllowed indicates whether it is allowed to handle subvector
/// extract order.
- bool canReuseExtract(ArrayRef<Value *> VL, Value *OpValue,
+ bool canReuseExtract(ArrayRef<Value *> VL,
SmallVectorImpl<unsigned> &CurrentOrder,
bool ResizeAllowed = false) const;
@@ -3270,7 +3273,7 @@ class BoUpSLP {
};
/// Checks if the current node is a gather node.
- bool isGather() const {return State == NeedToGather; }
+ bool isGather() const { return State == NeedToGather; }
/// A vector of scalars.
ValueList Scalars;
@@ -3334,9 +3337,9 @@ class BoUpSLP {
/// reordering of operands during buildTree_rec() and vectorizeTree().
SmallVector<ValueList, 2> Operands;
- /// The main/alternate instruction.
- Instruction *MainOp = nullptr;
- Instruction *AltOp = nullptr;
+ /// MainOp and AltOp are recorded inside. S should be obtained from
+ /// newTreeEntry.
+ InstructionsState S = InstructionsState::invalid();
/// Interleaving factor for interleaved loads Vectorize nodes.
unsigned InterleaveFactor = 0;
@@ -3360,10 +3363,10 @@ class BoUpSLP {
/// Set this bundle's operand from Scalars.
void setOperand(const BoUpSLP &R, bool RequireReorder = false) {
- VLOperands Ops(Scalars, MainOp, R);
+ VLOperands Ops(Scalars, S, R);
if (RequireReorder)
Ops.reorder();
- for (unsigned I : seq<unsigned>(MainOp->getNumOperands()))
+ for (unsigned I : seq<unsigned>(S.getMainOp()->getNumOperands()))
setOperand(I, Ops.getVL(I));
}
@@ -3396,13 +3399,9 @@ class BoUpSLP {
}
/// Some of the instructions in the list have alternate opcodes.
- bool isAltShuffle() const { return MainOp != AltOp; }
+ bool isAltShuffle() const { return S.isAltShuffle(); }
- bool isOpcodeOrAlt(Instruction *I) const {
- unsigned CheckedOpcode = I->getOpcode();
- return (getOpcode() == CheckedOpcode ||
- getAltOpcode() == CheckedOpcode);
- }
+ bool isOpcodeOrAlt(Instruction *I) const { return S.isOpcodeOrAlt(I); }
/// Chooses the correct key for scheduling data. If \p Op has the same (or
/// alternate) opcode as \p OpValue, the key is \p Op. Otherwise the key is
@@ -3411,31 +3410,24 @@ class BoUpSLP {
auto *I = dyn_cast<Instruction>(Op);
if (I && isOpcodeOrAlt(I))
return Op;
- return MainOp;
+ return S.getMainOp();
}
void setOperations(const InstructionsState &S) {
assert(S && "InstructionsState is invalid.");
- MainOp = S.getMainOp();
- AltOp = S.getAltOp();
+ this->S = S;
}
- Instruction *getMainOp() const {
- return MainOp;
- }
+ Instruction *getMainOp() const { return S.getMainOp(); }
- Instruction *getAltOp() const {
- return AltOp;
- }
+ Instruction *getAltOp() const { return S.getAltOp(); }
/// The main/alternate opcodes for the list of instructions.
- unsigned getOpcode() const {
- return MainOp ? MainOp->getOpcode() : 0;
- }
+ unsigned getOpcode() const { return S.getOpcode(); }
- unsigned getAltOpcode() const {
- return AltOp ? AltOp->getOpcode() : 0;
- }
+ unsigned getAltOpcode() const { return S.getAltOpcode(); }
+
+ bool hasState() const { return S.valid(); }
/// When ReuseReorderShuffleIndices is empty it just returns position of \p
/// V within vector of Scalars. Otherwise, try to remap on its reuse index.
@@ -3531,16 +3523,13 @@ class BoUpSLP {
dbgs() << "CombinedVectorize\n";
break;
}
- dbgs() << "MainOp: ";
- if (MainOp)
- dbgs() << *MainOp << "\n";
- else
- dbgs() << "NULL\n";
- dbgs() << "AltOp: ";
- if (AltOp)
- dbgs() << *AltOp << "\n";
- else
- dbgs() << "NULL\n";
+ if (S) {
+ dbgs() << "MainOp: " << *S.getMainOp() << "\n";
+ dbgs() << "AltOp: " << *S.getAltOp() << "\n";
+ } else {
+ dbgs() << "MainOp: NULL\n";
+ dbgs() << "AltOp: NULL\n";
+ }
dbgs() << "VectorizedValue: ";
if (VectorizedValue)
dbgs() << *VectorizedValue << "\n";
@@ -3715,9 +3704,13 @@ class BoUpSLP {
}
#endif
- TreeEntry *getTreeEntry(Value *V) { return ScalarToTreeEntry.lookup(V); }
+ TreeEntry *getTreeEntry(Value *V) {
+ assert(V && "V cannot be nullptr.");
+ return ScalarToTreeEntry.lookup(V);
+ }
const TreeEntry *getTreeEntry(Value *V) const {
+ assert(V && "V cannot be nullptr.");
return ScalarToTreeEntry.lookup(V);
}
@@ -5615,7 +5608,7 @@ BoUpSLP::getReorderingData(const TreeEntry &TE, bool TopToBottom) {
// Try build correct order for extractelement instructions.
SmallVector<int> ReusedMask(TE.ReuseShuffleIndices.begin(),
TE.ReuseShuffleIndices.end());
- if (TE.getOpcode() == Instruction::ExtractElement &&
+ if (TE.hasState() && TE.getOpcode() == Instruction::ExtractElement &&
all_of(TE.Scalars, [Sz](Value *V) {
if (isa<PoisonValue>(V))
return true;
@@ -5777,10 +5770,11 @@ BoUpSLP::getReorderingData(const TreeEntry &TE, bool TopToBottom) {
return std::nullopt; // No need to reorder.
return std::move(Phis);
}
- if (TE.isGather() && !TE.isAltShuffle() && allSameType(TE.Scalars)) {
+ if (TE.isGather() && (!TE.hasState() || !TE.isAltShuffle()) &&
+ allSameType(TE.Scalars)) {
// TODO: add analysis of other gather nodes with extractelement
// instructions and other values/instructions, not only undefs.
- if ((TE.getOpcode() == Instruction::ExtractElement ||
+ if (((TE.hasState() && TE.getOpcode() == Instruction::ExtractElement) ||
(all_of(TE.Scalars, IsaPred<UndefValue, ExtractElementInst>) &&
any_of(TE.Scalars, IsaPred<ExtractElementInst>))) &&
all_of(TE.Scalars, [](Value *V) {
@@ -5790,8 +5784,8 @@ BoUpSLP::getReorderingData(const TreeEntry &TE, bool TopToBottom) {
// Check that gather of extractelements can be represented as
// just a shuffle of a single vector.
OrdersType CurrentOrder;
- bool Reuse = canReuseExtract(TE.Scalars, TE.getMainOp(), CurrentOrder,
- /*ResizeAllowed=*/true);
+ bool Reuse =
+ canReuseExtract(TE.Scalars, CurrentOrder, /*ResizeAllowed=*/true);
if (Reuse || !CurrentOrder.empty())
return std::move(CurrentOrder);
}
@@ -5840,7 +5834,7 @@ BoUpSLP::getReorderingData(const TreeEntry &TE, bool TopToBottom) {
return Order;
// Check if can include the order of vectorized loads. For masked gathers do
// extra analysis later, so include such nodes into a special list.
- if (TE.isGather() && TE.getOpcode() == Instruction::Load) {
+ if (TE.hasState() && TE.getOpcode() == Instruction::Load) {
SmallVector<Value *> PointerOps;
OrdersType CurrentOrder;
LoadsState Res = canVectorizeLoads(TE.Scalars, TE.Scalars.front(),
@@ -5955,7 +5949,7 @@ void BoUpSLP::reorderTopToBottom() {
// Patterns like [fadd,fsub] can be combined into a single instruction in
// x86. Reordering them into [fsub,fadd] blocks this pattern. So we need
// to take into account their order when looking for the most used order.
- if (TE->isAltShuffle()) {
+ if (TE->hasState() && TE->isAltShuffle()) {
VectorType *VecTy =
getWidenedType(TE->Scalars[0]->getType(), TE->Scalars.size());
unsigned Opcode0 = TE->getOpcode();
@@ -6034,7 +6028,7 @@ void BoUpSLP::reorderTopToBottom() {
if (It != GathersToOrders.end())
return It->second;
}
- if (OpTE->isAltShuffle()) {
+ if (OpTE->hasState() && OpTE->isAltShuffle()) {
auto It = AltShufflesToOrders.find(OpTE);
if (It != AltShufflesToOrders.end())
return It->second;
@@ -7637,7 +7631,7 @@ BoUpSLP::TreeEntry::EntryState BoUpSLP::getScalarsVectorizationState(
}
case Instruction::ExtractValue:
case Instruction::ExtractElement: {
- bool Reuse = canReuseExtract(VL, VL0, CurrentOrder);
+ bool Reuse = canReuseExtract(VL, CurrentOrder);
// FIXME: Vectorizing is not supported yet for non-power-of-2 ops.
if (!has_single_bit(VL.size()))
return TreeEntry::NeedToGather;
@@ -8657,7 +8651,7 @@ void BoUpSLP::buildTree_rec(ArrayRef<Value *> VL, unsigned Depth,
TE->dump());
ValueList Left, Right;
- VLOperands Ops(VL, VL0, *this);
+ VLOperands Ops(VL, S, *this);
if (cast<CmpInst>(VL0)->isCommutative()) {
// Commutative predicate - collect + sort operands of the instructions
// so that each side is more likely to have the same opcode.
@@ -8925,7 +8919,7 @@ unsigned BoUpSLP::canMapToVector(Type *T) const {
return N;
}
-bool BoUpSLP::canReuseExtract(ArrayRef<Value *> VL, Value *OpValue,
+bool BoUpSLP::canReuseExtract(ArrayRef<Value *> VL,
SmallVectorImpl<unsigned> &CurrentOrder,
bool ResizeAllowed) const {
const auto *It = find_if(VL, IsaPred<ExtractElementInst, ExtractValueInst>);
@@ -9579,7 +9573,7 @@ void BoUpSLP::reorderGatherNode(TreeEntry &TE) {
// Do not reorder nodes if it small (just 2 elements), all-constant or all
// instructions have same opcode already.
- if (TE.Scalars.size() == 2 || (TE.getOpcode() && !TE.isAltShuffle()) ||
+ if (TE.Scalars.size() == 2 || (TE.hasState() && !TE.isAltShuffle()) ||
all_of(TE.Scalars, isConstant))
return;
@@ -9798,7 +9792,7 @@ void BoUpSLP::transformNodes() {
// Do not try partial vectorization for small nodes (<= 2), nodes with the
// same opcode and same parent block or all constants.
if (VL.size() <= 2 || LoadEntriesToVectorize.contains(Idx) ||
- !(!E.getOpcode() || E.getOpcode() == Instruction::Load ||
+ !(!E.hasState() || E.getOpcode() == Instruction::Load ||
E.isAltShuffle() || !allSameBlock(VL)) ||
allConstant(VL) || isSplat(VL))
continue;
@@ -9921,6 +9915,7 @@ void BoUpSLP::transformNodes() {
buildTree_rec(Slice, 0, EdgeInfo(&E, UINT_MAX));
if (PrevSize + 1 == VectorizableTree.size() &&
VectorizableTree[PrevSize]->isGather() &&
+ VectorizableTree[PrevSize]->hasState() &&
VectorizableTree[PrevSize]->getOpcode() !=
Instruction::ExtractElement &&
!isSplat(Slice)) {
@@ -9941,6 +9936,8 @@ void BoUpSLP::transformNodes() {
E.ReorderIndices.clear();
}
}
+ if (!E.hasState())
+ continue;
switch (E.getOpcode()) {
case Instruction::Load: {
// No need to reorder masked gather loads, just reorder the scalar
@@ -10044,7 +10041,7 @@ void BoUpSLP::transformNodes() {
if (LoadEntriesToVectorize.empty()) {
// Single load node - exit.
- if (VectorizableTree.size() <= 1 &&
+ if (VectorizableTree.size() <= 1 && VectorizableTree.front()->hasState() &&
VectorizableTree.front()->getOpcode() == Instruction::Load)
return;
// Small graph with small VF - exit.
@@ -10060,7 +10057,7 @@ void BoUpSLP::transformNodes() {
getCanonicalGraphSize() <= SmallTree &&
count_if(ArrayRef(VectorizableTree).drop_front(getCanonicalGraphSize()),
[](const std::unique_ptr<TreeEntry> &TE) {
- return TE->isGather() &&
+ return TE->isGather() && TE->hasState() &&
TE->getOpcode() == Instruction::Load &&
!allSameBlock(TE->Scalars);
}) == 1)
@@ -10076,13 +10073,13 @@ void BoUpSLP::transformNodes() {
for (std::unique_ptr<TreeEntry> &TE : VectorizableTree) {
TreeEntry &E = *TE;
if (E.isGather() &&
- (E.getOpcode() == Instruction::Load ||
- (!E.getOpcode() && any_of(E.Scalars,
- [&](Value *V) {
- return isa<LoadInst>(V) &&
- !isVectorized(V) &&
- !isDeleted(cast<Instruction>(V));
- }))) &&
+ ((E.hasState() && E.getOpcode() == Instruction::Load) ||
+ (!E.hasState() && any_of(E.Scalars,
+ [&](Value *V) {
+ return isa<LoadInst>(V) &&
+ !isVectorized(V) &&
+ !isDeleted(cast<Instruction>(V));
+ }))) &&
!isSplat(E.Scalars)) {
for (Value *V : E.Scalars) {
auto *LI = dyn_cast<LoadInst>(V);
@@ -10676,7 +10673,7 @@ class BoUpSLP::ShuffleCostEstimator : public BaseShuffleAnalysis {
bool PrevNodeFound = any_of(
ArrayRef(R.VectorizableTree).take_front(E->Idx),
[&](const std::unique_ptr<TreeEntry> &TE) {
- return ((!TE->isAltShuffle() &&
+ return ((TE->hasState() && !TE->isAltShuffle() &&
TE->getOpcode() == Instruction::ExtractElement) ||
TE->isGather()) &&
all_of(enumerate(TE->Scalars), [&](auto &&Data) {
@@ -11801,7 +11798,7 @@ BoUpSLP::getEntryCost(const TreeEntry *E, ArrayRef<Value *> VectorizedVals,
for (const std::unique_ptr<TreeEntry> &TE : VectorizableTree) {
if (TE.get() == E)
break;
- if (TE->isAltShuffle() &&
+ if (TE->hasState() && TE->isAltShuffle() &&
((TE->getOpcode() == E->getOpcode() &&
TE->getAltOpcode() == E->getAltOpcode()) ||
(TE->getOpcode() == E->getAltOpcode() &&
@@ -11963,10 +11960,12 @@ bool BoUpSLP::isFullyVectorizableTinyTree(bool ForReduction) const {
[this](Value *V) { return EphValues.contains(V); }) &&
(allConstant(TE->Scalars) || isSplat(TE->Scalars) ||
TE->Scalars.size() < Limit ||
- ((TE->getOpcode() == Instruction::ExtractElement ||
+ (((TE->hasState() &&
+ TE->getOpcode() == Instruction::ExtractElement) ||
all_of(TE->Scalars, IsaPred<ExtractElementInst, UndefValue>)) &&
isFixedVectorShuffle(TE->Scalars, Mask, AC)) ||
- (TE->getOpcode() == Instruction::Load && !TE->isAltShuffle()) ||
+ (TE->hasState() && TE->getOpcode() == Instruction::Load &&
+ !TE->isAltShuffle()) ||
any_of(TE->Scalars, IsaPred<LoadInst>));
};
@@ -12095,9 +12094,10 @@ bool BoUpSLP::isTreeTinyAndNotFullyVectorizable(bool ForReduction) const {
!VectorizableTree.empty() &&
all_of(VectorizableTree, [&](const std::unique_ptr<TreeEntry> &TE) {
return (TE->isGather() &&
- TE->getOpcode() != Instruction::ExtractElement &&
+ (!TE->hasState() ||
+ TE->getOpcode() != Instruction::ExtractElement) &&
count_if(TE->Scalars, IsaPred<ExtractElementInst>) <= Limit) ||
- TE->getOpcode() == Instruction::PHI;
+ (TE->hasState() && TE->getOpcode() == Instruction::PHI);
}))
return true;
@@ -12115,7 +12115,7 @@ bool BoUpSLP::isTreeTinyAndNotFullyVectorizable(bool ForReduction) const {
// somewhere.
bool IsAllowedSingleBVNode =
VectorizableTree.size() > 1 ||
- (VectorizableTree.size() == 1 && VectorizableTree.front()->getOpcode() &&
+ (VectorizableTree.size() == 1 && VectorizableTree.front()->hasState() &&
!VectorizableTree.front()->isAltShuffle() &&
VectorizableTree.front()->getOpcode() != Instruction::PHI &&
VectorizableTree.front()->getOpcode() != Instruction::GetElementPtr &&
@@ -12131,6 +12131,7 @@ bool BoUpSLP::isTreeTinyAndNotFullyVectorizable(bool ForReduction) const {
return false;
if (VectorizableTree.back()->isGather() &&
+ VectorizableTree.back()->hasState() &&
VectorizableTree.back()->isAltShuffle() &&
VectorizableTree.back()->getVectorFactor() > 2 &&
allSameBlock(VectorizableTree.back()->Scalars) &&
@@ -12155,7 +12156,7 @@ bool BoUpSLP::isTreeNotExtendable() const {
getCanonicalGraphSize() <= SmallTree &&
count_if(ArrayRef(VectorizableTree).drop_front(getCanonicalGraphSize()),
[](const std::unique_ptr<TreeEntry> &TE) {
- return TE->isGather() &&
+ return TE->isGather() && TE->hasState() &&
TE->getOpcode() == Instruction::Load &&
!allSameBlock(TE->Scalars);
}) == 1)
@@ -12167,7 +12168,7 @@ bool BoUpSLP::isTreeNotExtendable() const {
TreeEntry &E = *VectorizableTree[Idx];
if (!E.isGather())
continue;
- if (E.getOpcode() && E.getOpcode() != Instruction::Load)
+ if (E.hasState() && E.getOpcode() != Instruction::Load)
return false;
if (isSplat(E.Scalars) || allConstant(E.Scalars))
continue;
@@ -12477,7 +12478,7 @@ InstructionCost BoUpSLP::getTreeCost(ArrayRef<Value *> VectorizedVals) {
TE.dump(); dbgs() << "SLP: Current total cost = " << Cost << "\n");
continue;
}
- if (TE.isGather()) {
+ if (TE.isGather() && TE.hasState()) {
if (const TreeEntry *E = getTreeEntry(TE.getMainOp());
E && E->getVectorFactor() == TE.getVectorFactor() &&
E->isSame(TE.Scalars)) {
@@ -13626,9 +13627,11 @@ BoUpSLP::isGatherShuffledEntry(
if (!TE->UserTreeIndices.empty() &&
TE->UserTreeIndices.front().UserTE->isGather() &&
TE->UserTreeIndices.front().EdgeIdx == UINT_MAX) {
- assert((TE->Idx == 0 || TE->getOpcode() == Instruction::ExtractElement ||
- isSplat(TE->Scalars)) &&
- "Expected splat or extractelements only node.");
+ assert(
+ (TE->Idx == 0 ||
+ (TE->hasState() && TE->getOpcode() == Instruction::ExtractElement) ||
+ isSplat(TE->Scalars)) &&
+ "Expected splat or extractelements only node.");
return {};
}
unsigned SliceSize = getPartNumElems(VL.size(), NumParts);
@@ -14921,14 +14924,15 @@ ResTy BoUpSLP::processBuildVector(const TreeEntry *E, Type *ScalarTy,
}
}
// Gather extracts after we check for full matched gathers only.
- if (!ExtractShuffles.empty() || E->getOpcode() != Instruction::Load ||
- ((E->getOpcode() == Instruction::Load ||
+ if (!ExtractShuffles.empty() || !E->hasState() ||
+ E->getOpcode() != Instruction::Load ||
+ (((E->hasState() && E->getOpcode() == Instruction::Load) ||
any_of(E->Scalars, IsaPred<LoadInst>)) &&
any_of(E->Scalars,
[this](Value *V) {
return isa<LoadInst>(V) && getTreeEntry(V);
})) ||
- E->isAltShuffle() ||
+ (E->hasState() && E->isAltShuffle()) ||
all_of(E->Scalars, [this](Value *V) { return getTreeEntry(V); }) ||
isSplat(E->Scalars) ||
(E->Scalars != GatheredScalars && GatheredScalars.size() <= 2)) {
@@ -15308,7 +15312,7 @@ Value *BoUpSLP::vectorizeTree(TreeEntry *E, bool PostponedPHIs) {
auto *VecTy = getWidenedType(ScalarTy, E->Scalars.size());
if (E->isGather()) {
// Set insert point for non-reduction initial nodes.
- if (E->getMainOp() && E->Idx == 0 && !UserIgnoreList)
+ if (E->hasState() && E->Idx == 0 && !UserIgnoreList)
setInsertPointAfterBundle(E);
Value *Vec = createBuildVector(E, ScalarTy, PostponedPHIs);
E->VectorizedValue = Vec;
@@ -18153,8 +18157,9 @@ static RecurKind getRdxKind(Value *V);
void BoUpSLP::computeMinimumValueSizes() {
// We only attempt to truncate integer expressions.
bool IsStoreOrInsertElt =
- VectorizableTree.front()->getOpcode() == Instruction::Store ||
- VectorizableTree.front()->getOpcode() == Instruction::InsertElement;
+ VectorizableTree.front()->hasState() &&
+ (VectorizableTree.front()->getOpcode() == Instruction::Store ||
+ VectorizableTree.front()->getOpcode() == Instruction::InsertElement);
if ((IsStoreOrInsertElt || UserIgnoreList) &&
ExtraBitWidthNodes.size() <= 1 &&
(!CastMaxMinBWSizes || CastMaxMinBWSizes->second == 0 ||
@@ -18195,10 +18200,9 @@ void BoUpSLP::computeMinimumValueSizes() {
return;
SmallVector<unsigned> ToDemote;
- auto ComputeMaxBitWidth = [&](const TreeEntry &E, bool IsTopRoot,
- bool IsProfitableToDemoteRoot, unsigned Opcode,
- unsigned Limit, bool IsTruncRoot,
- bool IsSignedCmp) -> unsigned {
+ auto ComputeMaxBitWidth =
+ [&](const TreeEntry &E, bool IsTopRoot, bool IsProfitableToDemoteRoot,
+ unsigned Limit, bool IsTruncRoot, bool IsSignedCmp) -> unsigned {
ToDemote.clear();
// Check if the root is trunc and the next node is gather/buildvector, then
// keep trunc in scalars, which is free in most cases.
@@ -18239,11 +18243,14 @@ void BoUpSLP::computeMinimumValueSizes() {
return MaxBitWidth;
}
+ if (!E.hasState())
+ return 0u;
+
unsigned VF = E.getVectorFactor();
Type *ScalarTy = E.Scalars.front()->getType();
unsigned ScalarTyNumElements = getNumElements(ScalarTy);
auto *TreeRootIT = dyn_cast<IntegerType>(ScalarTy->getScalarType());
- if (!TreeRootIT || !Opcode)
+ if (!TreeRootIT)
return 0u;
if (any_of(E.Scalars,
@@ -18315,6 +18322,7 @@ void BoUpSLP::computeMinimumValueSizes() {
IntegerType::get(F->getContext(), bit_ceil(MaxBitWidth)), VF)))
return 0u;
+ unsigned Opcode = E.getOpcode();
bool IsProfitableToDemote = Opcode == Instruction::Trunc ||
Opcode == Instruction::SExt ||
Opcode == Instruction::ZExt || NumParts > 1;
@@ -18395,15 +18403,14 @@ void BoUpSLP::computeMinimumValueSizes() {
while (NodeIdx < VectorizableTree.size()) {
ArrayRef<Value *> TreeRoot = VectorizableTree[NodeIdx]->Scalars;
unsigned Limit = 2;
- unsigned Opcode = VectorizableTree[NodeIdx]->getOpcode();
if (IsTopRoot &&
ReductionBitWidth ==
DL->getTypeSizeInBits(
VectorizableTree.front()->Scalars.front()->getType()))
Limit = 3;
unsigned MaxBitWidth = ComputeMaxBitWidth(
- *VectorizableTree[NodeIdx], IsTopRoot, IsProfitableToDemoteRoot, Opcode,
- Limit, IsTruncRoot, IsSignedCmp);
+ *VectorizableTree[NodeIdx], IsTopRoot, IsProfitableToDemoteRoot, Limit,
+ IsTruncRoot, IsSignedCmp);
if (ReductionBitWidth != 0 && (IsTopRoot || !RootDemotes.empty())) {
if (MaxBitWidth != 0 && ReductionBitWidth < MaxBitWidth)
ReductionBitWidth = bit_ceil(MaxBitWidth);
@@ -18446,19 +18453,21 @@ void BoUpSLP::computeMinimumValueSizes() {
});
IsSignedCmp =
NodeIdx < VectorizableTree.size() &&
- any_of(VectorizableTree[NodeIdx]->UserTreeIndices,
- [&](const EdgeInfo &EI) {
- return EI.UserTE->getOpcode() == Instruction::ICmp &&
- any_of(EI.UserTE->Scalars, [&](Value *V) {
- auto *IC = dyn_cast<ICmpInst>(V);
- return IC &&
- (IC->isSigned() ||
- !isKnownNonNegative(IC->getOperand(0),
- SimplifyQuery(*DL)) ||
- !isKnownNonNegative(IC->getOperand(1),
- SimplifyQuery(*DL)));
- });
- });
+ any_of(
+ VectorizableTree[NodeIdx]->UserTreeIndices,
+ [&](const EdgeInfo &EI) {
+ return (EI.UserTE->hasState() &&
+ EI.UserTE->getOpcode() == Instruction::ICmp) &&
+ any_of(EI.UserTE->Scalars, [&](Value *V) {
+ auto *IC = dyn_cast<ICmpInst>(V);
+ return IC &&
+ (IC->isSigned() ||
+ !isKnownNonNegative(IC->getOperand(0),
+ SimplifyQuery(*DL)) ||
+ !isKnownNonNegative(IC->getOperand(1),
+ SimplifyQuery(*DL)));
+ });
+ });
}
// If the maximum bit width we compute is less than the width of the roots'
diff --git a/llvm/test/Transforms/SLPVectorizer/AArch64/InstructionsState-is-invalid-0.ll b/llvm/test/Transforms/SLPVectorizer/AArch64/InstructionsState-is-invalid-0.ll
new file mode 100644
index 00000000000000..ffb8f44363249f
--- /dev/null
+++ b/llvm/test/Transforms/SLPVectorizer/AArch64/InstructionsState-is-invalid-0.ll
@@ -0,0 +1,64 @@
+; NOTE: Assertions have been autogenerated by utils/update_test_checks.py
+; RUN: opt -passes=slp-vectorizer -S %s | FileCheck %s
+
+target datalayout = "e-m:e-p270:32:32-p271:32:32-p272:64:64-i8:8:32-i16:16:32-i64:64-i128:128-n32:64-S128-Fn32"
+target triple = "aarch64-unknown-linux-gnu"
+
+define void @foo(ptr %0) {
+; CHECK-LABEL: @foo(
+; CHECK-NEXT: vector.scevcheck:
+; CHECK-NEXT: [[SCEVGEP:%.*]] = getelementptr i8, ptr [[TMP0:%.*]], i64 4
+; CHECK-NEXT: [[SCEVGEP3:%.*]] = getelementptr i8, ptr null, i64 4
+; CHECK-NEXT: [[TMP1:%.*]] = insertelement <4 x ptr> poison, ptr [[TMP0]], i32 1
+; CHECK-NEXT: [[TMP2:%.*]] = insertelement <4 x ptr> [[TMP1]], ptr [[SCEVGEP]], i32 0
+; CHECK-NEXT: [[TMP3:%.*]] = shufflevector <4 x ptr> [[TMP2]], <4 x ptr> poison, <4 x i32> <i32 0, i32 0, i32 0, i32 1>
+; CHECK-NEXT: [[TMP4:%.*]] = icmp ult <4 x ptr> [[TMP3]], zeroinitializer
+; CHECK-NEXT: [[TMP5:%.*]] = and <4 x i1> [[TMP4]], zeroinitializer
+; CHECK-NEXT: [[TMP6:%.*]] = insertelement <4 x ptr> poison, ptr [[TMP0]], i32 0
+; CHECK-NEXT: [[TMP7:%.*]] = insertelement <4 x ptr> [[TMP6]], ptr [[SCEVGEP3]], i32 1
+; CHECK-NEXT: [[TMP8:%.*]] = shufflevector <4 x ptr> [[TMP7]], <4 x ptr> poison, <4 x i32> <i32 0, i32 0, i32 0, i32 1>
+; CHECK-NEXT: [[TMP9:%.*]] = icmp ult <4 x ptr> [[TMP8]], zeroinitializer
+; CHECK-NEXT: [[TMP10:%.*]] = and <4 x i1> [[TMP9]], zeroinitializer
+; CHECK-NEXT: [[TMP11:%.*]] = call i1 @llvm.vector.reduce.or.v4i1(<4 x i1> [[TMP5]])
+; CHECK-NEXT: [[TMP12:%.*]] = call i1 @llvm.vector.reduce.or.v4i1(<4 x i1> [[TMP10]])
+; CHECK-NEXT: [[OP_RDX:%.*]] = or i1 [[TMP11]], [[TMP12]]
+; CHECK-NEXT: br i1 [[OP_RDX]], label [[DOTLR_PH:%.*]], label [[VECTOR_PH:%.*]]
+; CHECK: vector.ph:
+; CHECK-NEXT: ret void
+; CHECK: .lr.ph:
+; CHECK-NEXT: ret void
+;
+vector.scevcheck:
+ %scevgep = getelementptr i8, ptr %0, i64 4
+ %scevgep3 = getelementptr i8, ptr null, i64 4
+ %bound011 = icmp ult ptr %scevgep, null
+ %found.conflict13 = and i1 %bound011, false
+ %bound014 = icmp ult ptr %scevgep, null
+ %found.conflict16 = and i1 %bound014, false
+ %conflict.rdx17 = or i1 %found.conflict13, %found.conflict16
+ %bound018 = icmp ult ptr %scevgep, null
+ %found.conflict20 = and i1 %bound018, false
+ %conflict.rdx21 = or i1 %conflict.rdx17, %found.conflict20
+ %bound022 = icmp ult ptr %0, null
+ %found.conflict24 = and i1 %bound022, false
+ %conflict.rdx25 = or i1 %conflict.rdx21, %found.conflict24
+ %bound026 = icmp ult ptr %0, null
+ %found.conflict28 = and i1 %bound026, false
+ %conflict.rdx29 = or i1 %conflict.rdx25, %found.conflict28
+ %bound030 = icmp ult ptr %0, null
+ %found.conflict32 = and i1 %bound030, false
+ %conflict.rdx33 = or i1 %conflict.rdx29, %found.conflict32
+ %bound034 = icmp ult ptr %0, null
+ %found.conflict36 = and i1 %bound034, false
+ %conflict.rdx37 = or i1 %conflict.rdx33, %found.conflict36
+ %bound038 = icmp ult ptr %scevgep3, null
+ %found.conflict40 = and i1 %bound038, false
+ %conflict.rdx41 = or i1 %conflict.rdx37, %found.conflict40
+ br i1 %conflict.rdx41, label %.lr.ph, label %vector.ph
+
+vector.ph: ; preds = %vector.scevcheck
+ ret void
+
+.lr.ph: ; preds = %vector.scevcheck
+ ret void
+}
diff --git a/llvm/test/Transforms/SLPVectorizer/InstructionsState-is-invalid-2.ll b/llvm/test/Transforms/SLPVectorizer/InstructionsState-is-invalid-2.ll
new file mode 100644
index 00000000000000..445fd81bb234d7
--- /dev/null
+++ b/llvm/test/Transforms/SLPVectorizer/InstructionsState-is-invalid-2.ll
@@ -0,0 +1,17 @@
+; NOTE: Assertions have been autogenerated by utils/update_test_checks.py
+; RUN: opt -passes=slp-vectorizer -S %s | FileCheck %s
+
+define i32 @test(i32 %minlib) {
+; CHECK-LABEL: @test(
+; CHECK-NEXT: entry:
+; CHECK-NEXT: [[MUL2_I306:%.*]] = mul i32 [[MINLIB:%.*]], [[MINLIB]]
+; CHECK-NEXT: [[MUL3_I307:%.*]] = mul i32 [[MUL2_I306]], [[MINLIB]]
+; CHECK-NEXT: [[CMP183:%.*]] = icmp sgt i32 [[MUL3_I307]], 0
+; CHECK-NEXT: ret i32 0
+;
+entry:
+ %mul2.i306 = mul i32 %minlib, %minlib
+ %mul3.i307 = mul i32 %mul2.i306, %minlib
+ %cmp183 = icmp sgt i32 %mul3.i307, 0
+ ret i32 0
+}
diff --git a/llvm/test/Transforms/SLPVectorizer/X86/InstructionsState-is-invalid-1.ll b/llvm/test/Transforms/SLPVectorizer/X86/InstructionsState-is-invalid-1.ll
new file mode 100644
index 00000000000000..cade023300063e
--- /dev/null
+++ b/llvm/test/Transforms/SLPVectorizer/X86/InstructionsState-is-invalid-1.ll
@@ -0,0 +1,25 @@
+; NOTE: Assertions have been autogenerated by utils/update_test_checks.py
+; RUN: opt -passes=slp-vectorizer -S %s | FileCheck %s
+
+target datalayout = "e-m:e-p270:32:32-p271:32:32-p272:64:64-i64:64-i128:128-f80:128-n8:16:32:64-S128"
+target triple = "x86_64-unknown-linux-gnu"
+
+define void @_Z4blurN6Halide5Tools5ImageItEE(i1 %0, i1 %1, i1 %ident.check, i1 %ident.check56) {
+; CHECK-LABEL: @_Z4blurN6Halide5Tools5ImageItEE(
+; CHECK-NEXT: entry:
+; CHECK-NEXT: [[TMP2:%.*]] = or i1 [[TMP0:%.*]], [[TMP1:%.*]]
+; CHECK-NEXT: [[TMP3:%.*]] = or i1 [[IDENT_CHECK:%.*]], [[IDENT_CHECK56:%.*]]
+; CHECK-NEXT: [[TMP4:%.*]] = or i1 [[TMP3]], [[TMP2]]
+; CHECK-NEXT: br i1 [[TMP4]], label [[FOR_BODY6_US_I_I:%.*]], label [[FOR_BODY6_US_I_I]]
+; CHECK: for.body6.us.i.i:
+; CHECK-NEXT: ret void
+;
+entry:
+ %2 = or i1 %0, %1
+ %3 = or i1 %ident.check, %ident.check56
+ %4 = or i1 %3, %2
+ br i1 %4, label %for.body6.us.i.i, label %for.body6.us.i.i
+
+for.body6.us.i.i: ; preds = %entry, %entry
+ ret void
+}
More information about the llvm-commits
mailing list