forked from OSchip/llvm-project
283 lines
9.7 KiB
C++
283 lines
9.7 KiB
C++
//===- LoopVectorizationPlanner.h - Planner for LoopVectorization ---------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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///
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/// \file
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/// This file provides a LoopVectorizationPlanner class.
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/// InnerLoopVectorizer vectorizes loops which contain only one basic
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/// LoopVectorizationPlanner - drives the vectorization process after having
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/// passed Legality checks.
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/// The planner builds and optimizes the Vectorization Plans which record the
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/// decisions how to vectorize the given loop. In particular, represent the
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/// control-flow of the vectorized version, the replication of instructions that
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/// are to be scalarized, and interleave access groups.
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///
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/// Also provides a VPlan-based builder utility analogous to IRBuilder.
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/// It provides an instruction-level API for generating VPInstructions while
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/// abstracting away the Recipe manipulation details.
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_TRANSFORMS_VECTORIZE_LOOPVECTORIZATIONPLANNER_H
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#define LLVM_TRANSFORMS_VECTORIZE_LOOPVECTORIZATIONPLANNER_H
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#include "VPlan.h"
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#include "llvm/Analysis/LoopInfo.h"
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#include "llvm/Analysis/TargetLibraryInfo.h"
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#include "llvm/Analysis/TargetTransformInfo.h"
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namespace llvm {
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/// VPlan-based builder utility analogous to IRBuilder.
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class VPBuilder {
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private:
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VPBasicBlock *BB = nullptr;
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VPBasicBlock::iterator InsertPt = VPBasicBlock::iterator();
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VPInstruction *createInstruction(unsigned Opcode,
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ArrayRef<VPValue *> Operands) {
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VPInstruction *Instr = new VPInstruction(Opcode, Operands);
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if (BB)
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BB->insert(Instr, InsertPt);
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return Instr;
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}
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VPInstruction *createInstruction(unsigned Opcode,
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std::initializer_list<VPValue *> Operands) {
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return createInstruction(Opcode, ArrayRef<VPValue *>(Operands));
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}
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public:
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VPBuilder() {}
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/// Clear the insertion point: created instructions will not be inserted into
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/// a block.
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void clearInsertionPoint() {
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BB = nullptr;
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InsertPt = VPBasicBlock::iterator();
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}
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VPBasicBlock *getInsertBlock() const { return BB; }
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VPBasicBlock::iterator getInsertPoint() const { return InsertPt; }
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/// InsertPoint - A saved insertion point.
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class VPInsertPoint {
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VPBasicBlock *Block = nullptr;
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VPBasicBlock::iterator Point;
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public:
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/// Creates a new insertion point which doesn't point to anything.
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VPInsertPoint() = default;
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/// Creates a new insertion point at the given location.
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VPInsertPoint(VPBasicBlock *InsertBlock, VPBasicBlock::iterator InsertPoint)
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: Block(InsertBlock), Point(InsertPoint) {}
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/// Returns true if this insert point is set.
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bool isSet() const { return Block != nullptr; }
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VPBasicBlock *getBlock() const { return Block; }
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VPBasicBlock::iterator getPoint() const { return Point; }
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};
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/// Sets the current insert point to a previously-saved location.
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void restoreIP(VPInsertPoint IP) {
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if (IP.isSet())
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setInsertPoint(IP.getBlock(), IP.getPoint());
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else
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clearInsertionPoint();
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}
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/// This specifies that created VPInstructions should be appended to the end
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/// of the specified block.
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void setInsertPoint(VPBasicBlock *TheBB) {
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assert(TheBB && "Attempting to set a null insert point");
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BB = TheBB;
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InsertPt = BB->end();
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}
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/// This specifies that created instructions should be inserted at the
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/// specified point.
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void setInsertPoint(VPBasicBlock *TheBB, VPBasicBlock::iterator IP) {
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BB = TheBB;
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InsertPt = IP;
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}
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/// Insert and return the specified instruction.
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VPInstruction *insert(VPInstruction *I) const {
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BB->insert(I, InsertPt);
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return I;
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}
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/// Create an N-ary operation with \p Opcode, \p Operands and set \p Inst as
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/// its underlying Instruction.
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VPValue *createNaryOp(unsigned Opcode, ArrayRef<VPValue *> Operands,
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Instruction *Inst = nullptr) {
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VPInstruction *NewVPInst = createInstruction(Opcode, Operands);
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NewVPInst->setUnderlyingValue(Inst);
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return NewVPInst;
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}
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VPValue *createNaryOp(unsigned Opcode,
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std::initializer_list<VPValue *> Operands,
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Instruction *Inst = nullptr) {
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return createNaryOp(Opcode, ArrayRef<VPValue *>(Operands), Inst);
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}
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VPValue *createNot(VPValue *Operand) {
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return createInstruction(VPInstruction::Not, {Operand});
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}
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VPValue *createAnd(VPValue *LHS, VPValue *RHS) {
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return createInstruction(Instruction::BinaryOps::And, {LHS, RHS});
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}
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VPValue *createOr(VPValue *LHS, VPValue *RHS) {
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return createInstruction(Instruction::BinaryOps::Or, {LHS, RHS});
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}
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//===--------------------------------------------------------------------===//
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// RAII helpers.
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//===--------------------------------------------------------------------===//
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/// RAII object that stores the current insertion point and restores it when
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/// the object is destroyed.
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class InsertPointGuard {
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VPBuilder &Builder;
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VPBasicBlock *Block;
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VPBasicBlock::iterator Point;
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public:
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InsertPointGuard(VPBuilder &B)
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: Builder(B), Block(B.getInsertBlock()), Point(B.getInsertPoint()) {}
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InsertPointGuard(const InsertPointGuard &) = delete;
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InsertPointGuard &operator=(const InsertPointGuard &) = delete;
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~InsertPointGuard() { Builder.restoreIP(VPInsertPoint(Block, Point)); }
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};
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};
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/// TODO: The following VectorizationFactor was pulled out of
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/// LoopVectorizationCostModel class. LV also deals with
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/// VectorizerParams::VectorizationFactor and VectorizationCostTy.
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/// We need to streamline them.
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/// Information about vectorization costs
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struct VectorizationFactor {
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// Vector width with best cost
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unsigned Width;
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// Cost of the loop with that width
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unsigned Cost;
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};
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/// Planner drives the vectorization process after having passed
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/// Legality checks.
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class LoopVectorizationPlanner {
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/// The loop that we evaluate.
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Loop *OrigLoop;
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/// Loop Info analysis.
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LoopInfo *LI;
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/// Target Library Info.
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const TargetLibraryInfo *TLI;
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/// Target Transform Info.
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const TargetTransformInfo *TTI;
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/// The legality analysis.
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LoopVectorizationLegality *Legal;
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/// The profitablity analysis.
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LoopVectorizationCostModel &CM;
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using VPlanPtr = std::unique_ptr<VPlan>;
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SmallVector<VPlanPtr, 4> VPlans;
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/// This class is used to enable the VPlan to invoke a method of ILV. This is
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/// needed until the method is refactored out of ILV and becomes reusable.
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struct VPCallbackILV : public VPCallback {
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InnerLoopVectorizer &ILV;
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VPCallbackILV(InnerLoopVectorizer &ILV) : ILV(ILV) {}
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Value *getOrCreateVectorValues(Value *V, unsigned Part) override;
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};
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/// A builder used to construct the current plan.
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VPBuilder Builder;
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unsigned BestVF = 0;
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unsigned BestUF = 0;
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public:
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LoopVectorizationPlanner(Loop *L, LoopInfo *LI, const TargetLibraryInfo *TLI,
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const TargetTransformInfo *TTI,
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LoopVectorizationLegality *Legal,
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LoopVectorizationCostModel &CM)
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: OrigLoop(L), LI(LI), TLI(TLI), TTI(TTI), Legal(Legal), CM(CM) {}
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/// Plan how to best vectorize, return the best VF and its cost.
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VectorizationFactor plan(bool OptForSize, unsigned UserVF);
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/// Use the VPlan-native path to plan how to best vectorize, return the best
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/// VF and its cost.
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VectorizationFactor planInVPlanNativePath(bool OptForSize, unsigned UserVF);
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/// Finalize the best decision and dispose of all other VPlans.
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void setBestPlan(unsigned VF, unsigned UF);
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/// Generate the IR code for the body of the vectorized loop according to the
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/// best selected VPlan.
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void executePlan(InnerLoopVectorizer &LB, DominatorTree *DT);
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void printPlans(raw_ostream &O) {
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for (const auto &Plan : VPlans)
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O << *Plan;
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}
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/// Test a \p Predicate on a \p Range of VF's. Return the value of applying
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/// \p Predicate on Range.Start, possibly decreasing Range.End such that the
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/// returned value holds for the entire \p Range.
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static bool
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getDecisionAndClampRange(const std::function<bool(unsigned)> &Predicate,
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VFRange &Range);
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protected:
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/// Collect the instructions from the original loop that would be trivially
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/// dead in the vectorized loop if generated.
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void collectTriviallyDeadInstructions(
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SmallPtrSetImpl<Instruction *> &DeadInstructions);
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/// Build VPlans for power-of-2 VF's between \p MinVF and \p MaxVF inclusive,
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/// according to the information gathered by Legal when it checked if it is
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/// legal to vectorize the loop.
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void buildVPlans(unsigned MinVF, unsigned MaxVF);
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private:
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/// Build a VPlan according to the information gathered by Legal. \return a
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/// VPlan for vectorization factors \p Range.Start and up to \p Range.End
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/// exclusive, possibly decreasing \p Range.End.
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VPlanPtr buildVPlan(VFRange &Range);
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/// Build a VPlan using VPRecipes according to the information gather by
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/// Legal. This method is only used for the legacy inner loop vectorizer.
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VPlanPtr
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buildVPlanWithVPRecipes(VFRange &Range, SmallPtrSetImpl<Value *> &NeedDef,
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SmallPtrSetImpl<Instruction *> &DeadInstructions);
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/// Build VPlans for power-of-2 VF's between \p MinVF and \p MaxVF inclusive,
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/// according to the information gathered by Legal when it checked if it is
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/// legal to vectorize the loop. This method creates VPlans using VPRecipes.
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void buildVPlansWithVPRecipes(unsigned MinVF, unsigned MaxVF);
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};
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} // namespace llvm
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#endif // LLVM_TRANSFORMS_VECTORIZE_LOOPVECTORIZATIONPLANNER_H
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