//===- VPRecipeBuilder.h - Helper class to build recipes --------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//

#ifndef LLVM_TRANSFORMS_VECTORIZE_VPRECIPEBUILDER_H
#define LLVM_TRANSFORMS_VECTORIZE_VPRECIPEBUILDER_H

#include "LoopVectorizationPlanner.h"
#include "VPlan.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/PointerUnion.h"
#include "llvm/IR/IRBuilder.h"

namespace llvm {

class LoopVectorizationLegality;
class LoopVectorizationCostModel;
class TargetLibraryInfo;

using VPRecipeOrVPValueTy = PointerUnion<VPRecipeBase *, VPValue *>;

/// Helper class to create VPRecipies from IR instructions.
class VPRecipeBuilder {
  /// The loop that we evaluate.
  Loop *OrigLoop;

  /// Target Library Info.
  const TargetLibraryInfo *TLI;

  /// The legality analysis.
  LoopVectorizationLegality *Legal;

  /// The profitablity analysis.
  LoopVectorizationCostModel &CM;

  PredicatedScalarEvolution &PSE;

  VPBuilder &Builder;

  /// When we if-convert we need to create edge masks. We have to cache values
  /// so that we don't end up with exponential recursion/IR. Note that
  /// if-conversion currently takes place during VPlan-construction, so these
  /// caches are only used at that stage.
  using EdgeMaskCacheTy =
      DenseMap<std::pair<BasicBlock *, BasicBlock *>, VPValue *>;
  using BlockMaskCacheTy = DenseMap<BasicBlock *, VPValue *>;
  EdgeMaskCacheTy EdgeMaskCache;
  BlockMaskCacheTy BlockMaskCache;

  // VPlan-VPlan transformations support: Hold a mapping from ingredients to
  // their recipe. To save on memory, only do so for selected ingredients,
  // marked by having a nullptr entry in this map.
  DenseMap<Instruction *, VPRecipeBase *> Ingredient2Recipe;

  /// Cross-iteration reduction phis for which we need to add the incoming value
  /// from the backedge after all recipes have been created.
  SmallVector<VPWidenPHIRecipe *, 4> PhisToFix;

  /// Check if \p I can be widened at the start of \p Range and possibly
  /// decrease the range such that the returned value holds for the entire \p
  /// Range. The function should not be called for memory instructions or calls.
  bool shouldWiden(Instruction *I, VFRange &Range) const;

  /// Check if the load or store instruction \p I should widened for \p
  /// Range.Start and potentially masked. Such instructions are handled by a
  /// recipe that takes an additional VPInstruction for the mask.
  VPRecipeBase *tryToWidenMemory(Instruction *I, ArrayRef<VPValue *> Operands,
                                 VFRange &Range, VPlanPtr &Plan);

  /// Check if an induction recipe should be constructed for \I. If so build and
  /// return it. If not, return null.
  VPWidenIntOrFpInductionRecipe *
  tryToOptimizeInductionPHI(PHINode *Phi, ArrayRef<VPValue *> Operands) const;

  /// Optimize the special case where the operand of \p I is a constant integer
  /// induction variable.
  VPWidenIntOrFpInductionRecipe *
  tryToOptimizeInductionTruncate(TruncInst *I, ArrayRef<VPValue *> Operands,
                                 VFRange &Range, VPlan &Plan) const;

  /// Handle non-loop phi nodes. Return a VPValue, if all incoming values match
  /// or a new VPBlendRecipe otherwise. Currently all such phi nodes are turned
  /// into a sequence of select instructions as the vectorizer currently
  /// performs full if-conversion.
  VPRecipeOrVPValueTy tryToBlend(PHINode *Phi, ArrayRef<VPValue *> Operands,
                                 VPlanPtr &Plan);

  /// Handle call instructions. If \p CI can be widened for \p Range.Start,
  /// return a new VPWidenCallRecipe. Range.End may be decreased to ensure same
  /// decision from \p Range.Start to \p Range.End.
  VPWidenCallRecipe *tryToWidenCall(CallInst *CI, ArrayRef<VPValue *> Operands,
                                    VFRange &Range) const;

  /// Check if \p I has an opcode that can be widened and return a VPWidenRecipe
  /// if it can. The function should only be called if the cost-model indicates
  /// that widening should be performed.
  VPWidenRecipe *tryToWiden(Instruction *I, ArrayRef<VPValue *> Operands) const;

  /// Return a VPRecipeOrValueTy with VPRecipeBase * being set. This can be used to force the use as VPRecipeBase* for recipe sub-types that also inherit from VPValue.
  VPRecipeOrVPValueTy toVPRecipeResult(VPRecipeBase *R) const { return R; }

public:
  VPRecipeBuilder(Loop *OrigLoop, const TargetLibraryInfo *TLI,
                  LoopVectorizationLegality *Legal,
                  LoopVectorizationCostModel &CM,
                  PredicatedScalarEvolution &PSE, VPBuilder &Builder)
      : OrigLoop(OrigLoop), TLI(TLI), Legal(Legal), CM(CM), PSE(PSE),
        Builder(Builder) {}

  /// Check if an existing VPValue can be used for \p Instr or a recipe can be
  /// create for \p I withing the given VF \p Range. If an existing VPValue can
  /// be used or if a recipe can be created, return it. Otherwise return a
  /// VPRecipeOrVPValueTy with nullptr.
  VPRecipeOrVPValueTy tryToCreateWidenRecipe(Instruction *Instr,
                                             ArrayRef<VPValue *> Operands,
                                             VFRange &Range, VPlanPtr &Plan);

  /// Set the recipe created for given ingredient. This operation is a no-op for
  /// ingredients that were not marked using a nullptr entry in the map.
  void setRecipe(Instruction *I, VPRecipeBase *R) {
    if (!Ingredient2Recipe.count(I))
      return;
    assert(Ingredient2Recipe[I] == nullptr &&
           "Recipe already set for ingredient");
    Ingredient2Recipe[I] = R;
  }

  /// A helper function that computes the predicate of the block BB, assuming
  /// that the header block of the loop is set to True. It returns the *entry*
  /// mask for the block BB.
  VPValue *createBlockInMask(BasicBlock *BB, VPlanPtr &Plan);

  /// A helper function that computes the predicate of the edge between SRC
  /// and DST.
  VPValue *createEdgeMask(BasicBlock *Src, BasicBlock *Dst, VPlanPtr &Plan);

  /// Mark given ingredient for recording its recipe once one is created for
  /// it.
  void recordRecipeOf(Instruction *I) {
    assert((!Ingredient2Recipe.count(I) || Ingredient2Recipe[I] == nullptr) &&
           "Recipe already set for ingredient");
    Ingredient2Recipe[I] = nullptr;
  }

  /// Return the recipe created for given ingredient.
  VPRecipeBase *getRecipe(Instruction *I) {
    assert(Ingredient2Recipe.count(I) &&
           "Recording this ingredients recipe was not requested");
    assert(Ingredient2Recipe[I] != nullptr &&
           "Ingredient doesn't have a recipe");
    return Ingredient2Recipe[I];
  }

  /// Create a replicating region for instruction \p I that requires
  /// predication. \p PredRecipe is a VPReplicateRecipe holding \p I.
  VPRegionBlock *createReplicateRegion(Instruction *I, VPRecipeBase *PredRecipe,
                                       VPlanPtr &Plan);

  /// Build a VPReplicationRecipe for \p I and enclose it within a Region if it
  /// is predicated. \return \p VPBB augmented with this new recipe if \p I is
  /// not predicated, otherwise \return a new VPBasicBlock that succeeds the new
  /// Region. Update the packing decision of predicated instructions if they
  /// feed \p I. Range.End may be decreased to ensure same recipe behavior from
  /// \p Range.Start to \p Range.End.
  VPBasicBlock *handleReplication(
      Instruction *I, VFRange &Range, VPBasicBlock *VPBB,
      VPlanPtr &Plan);

  /// Add the incoming values from the backedge to reduction cross-iteration
  /// phis.
  void fixHeaderPhis();
};
} // end namespace llvm

#endif // LLVM_TRANSFORMS_VECTORIZE_VPRECIPEBUILDER_H