[VPlan] Expand VPWidenPointerInductionRecipe into separate recipes

llvm/lib/Transforms/Vectorize/LoopVectorizationPlanner.h

@@ -254,6 +254,13 @@ class VPBuilder {
         new VPInstruction(VPInstruction::PtrAdd, {Ptr, Offset},
                           GEPNoWrapFlags::inBounds(), DL, Name));
   }
+  VPInstruction *createWidePtrAdd(VPValue *Ptr, VPValue *Offset,
+                                  DebugLoc DL = DebugLoc::getUnknown(),
+                                  const Twine &Name = "") {
+    return tryInsertInstruction(
+        new VPInstruction(VPInstruction::WidePtrAdd, {Ptr, Offset},
+                          GEPNoWrapFlags::none(), DL, Name));
+  }
 
   VPPhi *createScalarPhi(ArrayRef<VPValue *> IncomingValues, DebugLoc DL,
                          const Twine &Name = "") {

llvm/lib/Transforms/Vectorize/VPlan.cpp

@@ -1043,21 +1043,6 @@ void VPlan::execute(VPTransformState *State) {
     if (isa<VPWidenPHIRecipe>(&R))
       continue;
 
-    if (auto *WidenPhi = dyn_cast<VPWidenPointerInductionRecipe>(&R)) {
-      assert(!WidenPhi->onlyScalarsGenerated(State->VF.isScalable()) &&
-             "recipe generating only scalars should have been replaced");
-      auto *GEP = cast<GetElementPtrInst>(State->get(WidenPhi));
-      PHINode *Phi = cast<PHINode>(GEP->getPointerOperand());
-
-      Phi->setIncomingBlock(1, VectorLatchBB);
-
-      // Move the last step to the end of the latch block. This ensures
-      // consistent placement of all induction updates.
-      Instruction *Inc = cast<Instruction>(Phi->getIncomingValue(1));
-      Inc->moveBefore(std::prev(VectorLatchBB->getTerminator()->getIterator()));
-      continue;
-    }
-
     auto *PhiR = cast<VPSingleDefRecipe>(&R);
     // VPInstructions currently model scalar Phis only.
     bool NeedsScalar = isa<VPInstruction>(PhiR) ||

llvm/lib/Transforms/Vectorize/VPlan.h

@@ -961,6 +961,9 @@ class LLVM_ABI_FOR_TEST VPInstruction : public VPRecipeWithIRFlags,
     // operand). Only generates scalar values (either for the first lane only or
     // for all lanes, depending on its uses).
     PtrAdd,
+    // Add a vector offset in bytes (second operand) to a scalar base pointer
+    // (first operand).
+    WidePtrAdd,
     // Returns a scalar boolean value, which is true if any lane of its
     // (boolean) vector operands is true. It produces the reduced value across
     // all unrolled iterations. Unrolling will add all copies of its original
@@ -2064,8 +2067,7 @@ class VPWidenIntOrFpInductionRecipe : public VPWidenInductionRecipe {
   }
 };
 
-class VPWidenPointerInductionRecipe : public VPWidenInductionRecipe,
-                                      public VPUnrollPartAccessor<4> {
+class VPWidenPointerInductionRecipe : public VPWidenInductionRecipe {
   bool IsScalarAfterVectorization;
 
 public:
@@ -2093,19 +2095,14 @@ class VPWidenPointerInductionRecipe : public VPWidenInductionRecipe,
 
   VP_CLASSOF_IMPL(VPDef::VPWidenPointerInductionSC)
 
-  /// Generate vector values for the pointer induction.
-  void execute(VPTransformState &State) override;
+  void execute(VPTransformState &State) override {
+    llvm_unreachable("cannot execute this recipe, should be expanded via "
+                     "expandVPWidenIntOrFpInductionRecipe");
+  };
 
   /// Returns true if only scalar values will be generated.
   bool onlyScalarsGenerated(bool IsScalable);
 
-  /// Returns the VPValue representing the value of this induction at
-  /// the first unrolled part, if it exists. Returns itself if unrolling did not
-  /// take place.
-  VPValue *getFirstUnrolledPartOperand() {
-    return getUnrollPart(*this) == 0 ? this : getOperand(3);
-  }
-
 #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
   /// Print the recipe.
   void print(raw_ostream &O, const Twine &Indent,

llvm/lib/Transforms/Vectorize/VPlanAnalysis.cpp

@@ -126,6 +126,7 @@ Type *VPTypeAnalysis::inferScalarTypeForRecipe(const VPInstruction *R) {
     return IntegerType::get(Ctx, 1);
   case VPInstruction::Broadcast:
   case VPInstruction::PtrAdd:
+  case VPInstruction::WidePtrAdd:
     // Return the type based on first operand.
     return inferScalarType(R->getOperand(0));
   case VPInstruction::BranchOnCond:

llvm/lib/Transforms/Vectorize/VPlanRecipes.cpp

@@ -475,6 +475,7 @@ unsigned VPInstruction::getNumOperandsForOpcode(unsigned Opcode) {
   case VPInstruction::FirstOrderRecurrenceSplice:
   case VPInstruction::LogicalAnd:
   case VPInstruction::PtrAdd:
+  case VPInstruction::WidePtrAdd:
   case VPInstruction::WideIVStep:
     return 2;
   case Instruction::Select:
@@ -854,6 +855,11 @@ Value *VPInstruction::generate(VPTransformState &State) {
     Value *Addend = State.get(getOperand(1), VPLane(0));
     return Builder.CreatePtrAdd(Ptr, Addend, Name, getGEPNoWrapFlags());
   }
+  case VPInstruction::WidePtrAdd: {
+    Value *Ptr = State.get(getOperand(0), true);
+    Value *Addend = State.get(getOperand(1));
+    return Builder.CreatePtrAdd(Ptr, Addend, Name, getGEPNoWrapFlags());
+  }
   case VPInstruction::AnyOf: {
     Value *Res = State.get(getOperand(0));
     for (VPValue *Op : drop_begin(operands()))
@@ -1045,6 +1051,7 @@ bool VPInstruction::opcodeMayReadOrWriteFromMemory() const {
   case VPInstruction::LogicalAnd:
   case VPInstruction::Not:
   case VPInstruction::PtrAdd:
+  case VPInstruction::WidePtrAdd:
   case VPInstruction::WideIVStep:
   case VPInstruction::StepVector:
   case VPInstruction::ReductionStartVector:
@@ -1083,6 +1090,8 @@ bool VPInstruction::onlyFirstLaneUsed(const VPValue *Op) const {
     return true;
   case VPInstruction::PtrAdd:
     return Op == getOperand(0) || vputils::onlyFirstLaneUsed(this);
+  case VPInstruction::WidePtrAdd:
+    return Op == getOperand(0);
   case VPInstruction::ComputeAnyOfResult:
   case VPInstruction::ComputeFindIVResult:
     return Op == getOperand(1);
@@ -1185,6 +1194,9 @@ void VPInstruction::print(raw_ostream &O, const Twine &Indent,
   case VPInstruction::PtrAdd:
     O << "ptradd";
     break;
+  case VPInstruction::WidePtrAdd:
+    O << "wide-ptradd";
+    break;
   case VPInstruction::AnyOf:
     O << "any-of";
     break;
@@ -1769,7 +1781,8 @@ bool VPIRFlags::flagsValidForOpcode(unsigned Opcode) const {
     return Opcode == Instruction::AShr;
   case OperationType::GEPOp:
     return Opcode == Instruction::GetElementPtr ||
-           Opcode == VPInstruction::PtrAdd;
+           Opcode == VPInstruction::PtrAdd ||
+           Opcode == VPInstruction::WidePtrAdd;
   case OperationType::FPMathOp:
     return Opcode == Instruction::FAdd || Opcode == Instruction::FMul ||
            Opcode == Instruction::FSub || Opcode == Instruction::FNeg ||
@@ -3690,87 +3703,6 @@ bool VPWidenPointerInductionRecipe::onlyScalarsGenerated(bool IsScalable) {
          (!IsScalable || vputils::onlyFirstLaneUsed(this));
 }
 
-void VPWidenPointerInductionRecipe::execute(VPTransformState &State) {
-  assert(getInductionDescriptor().getKind() ==
-             InductionDescriptor::IK_PtrInduction &&
-         "Not a pointer induction according to InductionDescriptor!");
-  assert(State.TypeAnalysis.inferScalarType(this)->isPointerTy() &&
-         "Unexpected type.");
-  assert(!onlyScalarsGenerated(State.VF.isScalable()) &&
-         "Recipe should have been replaced");
-
-  unsigned CurrentPart = getUnrollPart(*this);
-
-  // Build a pointer phi
-  Value *ScalarStartValue = getStartValue()->getLiveInIRValue();
-  Type *ScStValueType = ScalarStartValue->getType();
-
-  BasicBlock *VectorPH =
-      State.CFG.VPBB2IRBB.at(getParent()->getCFGPredecessor(0));
-  PHINode *NewPointerPhi = nullptr;
-  if (CurrentPart == 0) {
-    IRBuilder<>::InsertPointGuard Guard(State.Builder);
-    if (State.Builder.GetInsertPoint() !=
-        State.Builder.GetInsertBlock()->getFirstNonPHIIt())
-      State.Builder.SetInsertPoint(
-          State.Builder.GetInsertBlock()->getFirstNonPHIIt());
-    NewPointerPhi = State.Builder.CreatePHI(ScStValueType, 2, "pointer.phi");
-    NewPointerPhi->addIncoming(ScalarStartValue, VectorPH);
-    NewPointerPhi->setDebugLoc(getDebugLoc());
-  } else {
-    // The recipe has been unrolled. In that case, fetch the single pointer phi
-    // shared among all unrolled parts of the recipe.
-    auto *GEP =
-        cast<GetElementPtrInst>(State.get(getFirstUnrolledPartOperand()));
-    NewPointerPhi = cast<PHINode>(GEP->getPointerOperand());
-  }
-
-  // A pointer induction, performed by using a gep
-  BasicBlock::iterator InductionLoc = State.Builder.GetInsertPoint();
-  Value *ScalarStepValue = State.get(getStepValue(), VPLane(0));
-  Type *PhiType = State.TypeAnalysis.inferScalarType(getStepValue());
-  Value *RuntimeVF = getRuntimeVF(State.Builder, PhiType, State.VF);
-  // Add induction update using an incorrect block temporarily. The phi node
-  // will be fixed after VPlan execution. Note that at this point the latch
-  // block cannot be used, as it does not exist yet.
-  // TODO: Model increment value in VPlan, by turning the recipe into a
-  // multi-def and a subclass of VPHeaderPHIRecipe.
-  if (CurrentPart == 0) {
-    // The recipe represents the first part of the pointer induction. Create the
-    // GEP to increment the phi across all unrolled parts.
-    Value *NumUnrolledElems = State.get(getOperand(2), true);
-
-    Value *InductionGEP = GetElementPtrInst::Create(
-        State.Builder.getInt8Ty(), NewPointerPhi,
-        State.Builder.CreateMul(
-            ScalarStepValue,
-            State.Builder.CreateTrunc(NumUnrolledElems, PhiType)),
-        "ptr.ind", InductionLoc);
-
-    NewPointerPhi->addIncoming(InductionGEP, VectorPH);
-  }
-
-  // Create actual address geps that use the pointer phi as base and a
-  // vectorized version of the step value (<step*0, ..., step*N>) as offset.
-  Type *VecPhiType = VectorType::get(PhiType, State.VF);
-  Value *StartOffsetScalar = State.Builder.CreateMul(
-      RuntimeVF, ConstantInt::get(PhiType, CurrentPart));
-  Value *StartOffset =
-      State.Builder.CreateVectorSplat(State.VF, StartOffsetScalar);
-  // Create a vector of consecutive numbers from zero to VF.
-  StartOffset = State.Builder.CreateAdd(
-      StartOffset, State.Builder.CreateStepVector(VecPhiType));
-
-  assert(ScalarStepValue == State.get(getOperand(1), VPLane(0)) &&
-         "scalar step must be the same across all parts");
-  Value *GEP = State.Builder.CreateGEP(
-      State.Builder.getInt8Ty(), NewPointerPhi,
-      State.Builder.CreateMul(StartOffset, State.Builder.CreateVectorSplat(
-                                               State.VF, ScalarStepValue)),
-      "vector.gep");
-  State.set(this, GEP);
-}
-
 #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
 void VPWidenPointerInductionRecipe::print(raw_ostream &O, const Twine &Indent,
                                           VPSlotTracker &SlotTracker) const {
@@ -3929,11 +3861,6 @@ void VPWidenPHIRecipe::execute(VPTransformState &State) {
   Value *Op0 = State.get(getOperand(0));
   Type *VecTy = Op0->getType();
   Instruction *VecPhi = State.Builder.CreatePHI(VecTy, 2, Name);
-  // Manually move it with the other PHIs in case PHI recipes above this one
-  // also inserted non-phi instructions.
-  // TODO: Remove once VPWidenPointerInductionRecipe is also expanded in
-  // convertToConcreteRecipes.
-  VecPhi->moveBefore(State.Builder.GetInsertBlock()->getFirstNonPHIIt());
   State.set(this, VecPhi);
 }
 

llvm/lib/Transforms/Vectorize/VPlanTransforms.cpp

@@ -973,6 +973,7 @@ static Value *tryToFoldLiveIns(const VPRecipeBase &R, unsigned Opcode,
                           RFlags.getGEPNoWrapFlags());
   }
   case VPInstruction::PtrAdd:
+  case VPInstruction::WidePtrAdd:
     return Folder.FoldGEP(IntegerType::getInt8Ty(TypeInfo.getContext()), Ops[0],
                           Ops[1],
                           cast<VPRecipeWithIRFlags>(R).getGEPNoWrapFlags());
@@ -2675,6 +2676,106 @@ expandVPWidenIntOrFpInduction(VPWidenIntOrFpInductionRecipe *WidenIVR,
   WidenIVR->replaceAllUsesWith(WidePHI);
 }
 
+/// Expand a VPWidenPointerInductionRecipe into executable recipes, for the
+/// initial value, phi and backedge value. In the following example:
+///
+///  <x1> vector loop: {
+///    vector.body:
+///      EMIT ir<%ptr.iv> = WIDEN-POINTER-INDUCTION %start, %step, %vf
+///      ...
+///      EMIT branch-on-count ...
+///  }
+///
+/// WIDEN-POINTER-INDUCTION will get expanded to:
+///
+///  <x1> vector loop: {
+///    vector.body:
+///      EMIT-SCALAR %pointer.phi = phi %start, %ptr.ind
+///      EMIT %mul = mul %stepvector, %step
+///      EMIT %vector.gep = ptradd %pointer.phi, %add
+///      ...
+///      EMIT %ptr.ind = ptradd %pointer.phi, %vf
+///      EMIT branch-on-count ...
+///  }
+static void expandVPWidenPointerInduction(VPWidenPointerInductionRecipe *R,
+                                          VPTypeAnalysis &TypeInfo) {
+  VPlan *Plan = R->getParent()->getPlan();
+
+  assert(R->getInductionDescriptor().getKind() ==
+             InductionDescriptor::IK_PtrInduction &&
+         "Not a pointer induction according to InductionDescriptor!");
+  assert(TypeInfo.inferScalarType(R)->isPointerTy() && "Unexpected type.");
+  assert(!R->onlyScalarsGenerated(Plan->hasScalableVF()) &&
+         "Recipe should have been replaced");
+
+  unsigned CurrentPart = 0;
+  if (R->getNumOperands() > 3)
+    CurrentPart =
+        cast<ConstantInt>(R->getOperand(4)->getLiveInIRValue())->getZExtValue();
+
+  VPBuilder Builder(R);
+  DebugLoc DL = R->getDebugLoc();
+
+  // Build a pointer phi
+  VPPhi *Phi;
+  if (CurrentPart == 0) {
+    Phi = Builder.createScalarPhi({R->getStartValue()}, R->getDebugLoc(),
+                                  "pointer.phi");
+  } else {
+    // The recipe has been unrolled. In that case, fetch the single pointer phi
+    // shared among all unrolled parts of the recipe.
+    auto *PtrAdd = cast<VPInstruction>(R->getOperand(3));
+    Phi = cast<VPPhi>(PtrAdd->getOperand(0)->getDefiningRecipe());
+  }
+
+  Builder.setInsertPoint(R->getParent(), R->getParent()->getFirstNonPhi());
+
+  // A pointer induction, performed by using a gep
+  Type *PhiType = TypeInfo.inferScalarType(R->getStepValue());
+  VPValue *RuntimeVF = Builder.createScalarZExtOrTrunc(
+      &Plan->getVF(), PhiType, TypeInfo.inferScalarType(&Plan->getVF()), DL);
+  if (CurrentPart == 0) {
+    // The recipe represents the first part of the pointer induction. Create the
+    // GEP to increment the phi across all unrolled parts.
+    VPValue *NumUnrolledElems = Builder.createScalarZExtOrTrunc(
+        R->getOperand(2), PhiType, TypeInfo.inferScalarType(R->getOperand(2)),
+        DL);
+    VPValue *Offset = Builder.createNaryOp(
+        Instruction::Mul, {R->getStepValue(), NumUnrolledElems});
+
+    VPBuilder::InsertPointGuard Guard(Builder);
+    VPBasicBlock *ExitingBB =
+        Plan->getVectorLoopRegion()->getExitingBasicBlock();
+    Builder.setInsertPoint(ExitingBB,
+                           ExitingBB->getTerminator()->getIterator());
+
+    VPValue *InductionGEP = Builder.createPtrAdd(Phi, Offset, DL, "ptr.ind");
+    Phi->addOperand(InductionGEP);
+  }
+
+  VPValue *CurrentPartV =
+      Plan->getOrAddLiveIn(ConstantInt::get(PhiType, CurrentPart));
+
+  // Create actual address geps that use the pointer phi as base and a
+  // vectorized version of the step value (<step*0, ..., step*N>) as offset.
+  VPValue *StartOffsetScalar =
+      Builder.createNaryOp(Instruction::Mul, {RuntimeVF, CurrentPartV});
+  VPValue *StartOffset =
+      Builder.createNaryOp(VPInstruction::Broadcast, StartOffsetScalar);
+  // Create a vector of consecutive numbers from zero to VF.
+  StartOffset = Builder.createNaryOp(
+      Instruction::Add,
+      {StartOffset,
+       Builder.createNaryOp(VPInstruction::StepVector, {}, PhiType)});
+
+  VPValue *PtrAdd = Builder.createWidePtrAdd(
+      Phi,
+      Builder.createNaryOp(Instruction::Mul, {StartOffset, R->getStepValue()}),
+      DL, "vector.gep");
+
+  R->replaceAllUsesWith(PtrAdd);
+}
+
 void VPlanTransforms::dissolveLoopRegions(VPlan &Plan) {
   // Replace loop regions with explicity CFG.
   SmallVector<VPRegionBlock *> LoopRegions;
@@ -2711,6 +2812,12 @@ void VPlanTransforms::convertToConcreteRecipes(VPlan &Plan,
         continue;
       }
 
+      if (auto *WidenIVR = dyn_cast<VPWidenPointerInductionRecipe>(&R)) {
+        expandVPWidenPointerInduction(WidenIVR, TypeInfo);
+        ToRemove.push_back(WidenIVR);
+        continue;
+      }
+
       if (auto *Expr = dyn_cast<VPExpressionRecipe>(&R)) {
         Expr->decompose();
         ToRemove.push_back(Expr);

llvm/test/Transforms/LoopVectorize/AArch64/sve-widen-gep.ll

@@ -67,10 +67,8 @@ define void @pointer_induction_used_as_vector(ptr noalias %start.1, ptr noalias
 ; CHECK:       vector.body:
 ; CHECK-NEXT:    [[INDEX:%.*]] = phi i64 [ 0, [[VECTOR_PH]] ], [ [[INDEX_NEXT:%.*]], [[VECTOR_BODY]] ]
 ; CHECK-NEXT:    [[POINTER_PHI:%.*]] = phi ptr [ [[START_2]], [[VECTOR_PH]] ], [ [[PTR_IND:%.*]], [[VECTOR_BODY]] ]
-; CHECK-NEXT:    [[TMP9:%.*]] = call i64 @llvm.vscale.i64()
-; CHECK-NEXT:    [[TMP10:%.*]] = mul nuw i64 [[TMP9]], 2
 ; CHECK-NEXT:    [[TMP11:%.*]] = mul i64 1, [[TMP6]]
-; CHECK-NEXT:    [[TMP12:%.*]] = mul i64 [[TMP10]], 0
+; CHECK-NEXT:    [[TMP12:%.*]] = mul i64 [[TMP6]], 0
 ; CHECK-NEXT:    [[DOTSPLATINSERT:%.*]] = insertelement <vscale x 2 x i64> poison, i64 [[TMP12]], i64 0
 ; CHECK-NEXT:    [[DOTSPLAT:%.*]] = shufflevector <vscale x 2 x i64> [[DOTSPLATINSERT]], <vscale x 2 x i64> poison, <vscale x 2 x i32> zeroinitializer
 ; CHECK-NEXT:    [[TMP13:%.*]] = call <vscale x 2 x i64> @llvm.stepvector.nxv2i64()
@@ -159,10 +157,8 @@ define void @pointer_induction(ptr noalias %start, i64 %N) {
 ; CHECK:       vector.body:
 ; CHECK-NEXT:    [[INDEX2:%.*]] = phi i64 [ 0, [[VECTOR_PH]] ], [ [[INDEX_NEXT:%.*]], [[VECTOR_BODY]] ]
 ; CHECK-NEXT:    [[POINTER_PHI:%.*]] = phi ptr [ [[START]], [[VECTOR_PH]] ], [ [[PTR_IND:%.*]], [[VECTOR_BODY]] ]
-; CHECK-NEXT:    [[TMP7:%.*]] = call i64 @llvm.vscale.i64()
-; CHECK-NEXT:    [[TMP8:%.*]] = mul nuw i64 [[TMP7]], 2
 ; CHECK-NEXT:    [[TMP10:%.*]] = mul i64 1, [[TMP6]]
-; CHECK-NEXT:    [[TMP11:%.*]] = mul i64 [[TMP8]], 0
+; CHECK-NEXT:    [[TMP11:%.*]] = mul i64 [[TMP6]], 0
 ; CHECK-NEXT:    [[DOTSPLATINSERT:%.*]] = insertelement <vscale x 2 x i64> poison, i64 [[TMP11]], i64 0
 ; CHECK-NEXT:    [[DOTSPLAT:%.*]] = shufflevector <vscale x 2 x i64> [[DOTSPLATINSERT]], <vscale x 2 x i64> poison, <vscale x 2 x i32> zeroinitializer
 ; CHECK-NEXT:    [[TMP12:%.*]] = call <vscale x 2 x i64> @llvm.stepvector.nxv2i64()