Transforms/Scalar/StraightLineStrengthReduce.cpp

*9880d681SAndroid Build Coastguard Worker//===-- StraightLineStrengthReduce.cpp - ------------------------*- C++ -*-===//
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker//                     The LLVM Compiler Infrastructure
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// This file is distributed under the University of Illinois Open Source
*9880d681SAndroid Build Coastguard Worker// License. See LICENSE.TXT for details.
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker//===----------------------------------------------------------------------===//
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// This file implements straight-line strength reduction (SLSR). Unlike loop
*9880d681SAndroid Build Coastguard Worker// strength reduction, this algorithm is designed to reduce arithmetic
*9880d681SAndroid Build Coastguard Worker// redundancy in straight-line code instead of loops. It has proven to be
*9880d681SAndroid Build Coastguard Worker// effective in simplifying arithmetic statements derived from an unrolled loop.
*9880d681SAndroid Build Coastguard Worker// It can also simplify the logic of SeparateConstOffsetFromGEP.
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// There are many optimizations we can perform in the domain of SLSR. This file
*9880d681SAndroid Build Coastguard Worker// for now contains only an initial step. Specifically, we look for strength
*9880d681SAndroid Build Coastguard Worker// reduction candidates in the following forms:
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// Form 1: B + i * S
*9880d681SAndroid Build Coastguard Worker// Form 2: (B + i) * S
*9880d681SAndroid Build Coastguard Worker// Form 3: &B[i * S]
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// where S is an integer variable, and i is a constant integer. If we found two
*9880d681SAndroid Build Coastguard Worker// candidates S1 and S2 in the same form and S1 dominates S2, we may rewrite S2
*9880d681SAndroid Build Coastguard Worker// in a simpler way with respect to S1. For example,
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// S1: X = B + i * S
*9880d681SAndroid Build Coastguard Worker// S2: Y = B + i' * S   => X + (i' - i) * S
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// S1: X = (B + i) * S
*9880d681SAndroid Build Coastguard Worker// S2: Y = (B + i') * S => X + (i' - i) * S
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// S1: X = &B[i * S]
*9880d681SAndroid Build Coastguard Worker// S2: Y = &B[i' * S]   => &X[(i' - i) * S]
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// Note: (i' - i) * S is folded to the extent possible.
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// This rewriting is in general a good idea. The code patterns we focus on
*9880d681SAndroid Build Coastguard Worker// usually come from loop unrolling, so (i' - i) * S is likely the same
*9880d681SAndroid Build Coastguard Worker// across iterations and can be reused. When that happens, the optimized form
*9880d681SAndroid Build Coastguard Worker// takes only one add starting from the second iteration.
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// When such rewriting is possible, we call S1 a "basis" of S2. When S2 has
*9880d681SAndroid Build Coastguard Worker// multiple bases, we choose to rewrite S2 with respect to its "immediate"
*9880d681SAndroid Build Coastguard Worker// basis, the basis that is the closest ancestor in the dominator tree.
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// TODO:
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// - Floating point arithmetics when fast math is enabled.
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// - SLSR may decrease ILP at the architecture level. Targets that are very
*9880d681SAndroid Build Coastguard Worker//   sensitive to ILP may want to disable it. Having SLSR to consider ILP is
*9880d681SAndroid Build Coastguard Worker//   left as future work.
*9880d681SAndroid Build Coastguard Worker//
*9880d681SAndroid Build Coastguard Worker// - When (i' - i) is constant but i and i' are not, we could still perform
*9880d681SAndroid Build Coastguard Worker//   SLSR.
*9880d681SAndroid Build Coastguard Worker#include <vector>
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker#include "llvm/Analysis/ScalarEvolution.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/Analysis/TargetTransformInfo.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/Analysis/ValueTracking.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/IR/DataLayout.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/IR/Dominators.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/IR/IRBuilder.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/IR/Module.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/IR/PatternMatch.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/Support/raw_ostream.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/Transforms/Scalar.h"
*9880d681SAndroid Build Coastguard Worker#include "llvm/Transforms/Utils/Local.h"
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerusing namespace llvm;
*9880d681SAndroid Build Coastguard Workerusing namespace PatternMatch;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workernamespace {
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerstatic const unsigned UnknownAddressSpace = ~0u;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerclass StraightLineStrengthReduce : public FunctionPass {
*9880d681SAndroid Build Coastguard Workerpublic:
*9880d681SAndroid Build Coastguard Worker  // SLSR candidate. Such a candidate must be in one of the forms described in
*9880d681SAndroid Build Coastguard Worker  // the header comments.
*9880d681SAndroid Build Coastguard Worker  struct Candidate : public ilist_node<Candidate> {
*9880d681SAndroid Build Coastguard Worker    enum Kind {
*9880d681SAndroid Build Coastguard Worker      Invalid, // reserved for the default constructor
*9880d681SAndroid Build Coastguard Worker      Add,     // B + i * S
*9880d681SAndroid Build Coastguard Worker      Mul,     // (B + i) * S
*9880d681SAndroid Build Coastguard Worker      GEP,     // &B[..][i * S][..]
*9880d681SAndroid Build Coastguard Worker    };
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    Candidate()
*9880d681SAndroid Build Coastguard Worker        : CandidateKind(Invalid), Base(nullptr), Index(nullptr),
*9880d681SAndroid Build Coastguard Worker          Stride(nullptr), Ins(nullptr), Basis(nullptr) {}
*9880d681SAndroid Build Coastguard Worker    Candidate(Kind CT, const SCEV *B, ConstantInt *Idx, Value *S,
*9880d681SAndroid Build Coastguard Worker              Instruction *I)
*9880d681SAndroid Build Coastguard Worker        : CandidateKind(CT), Base(B), Index(Idx), Stride(S), Ins(I),
*9880d681SAndroid Build Coastguard Worker          Basis(nullptr) {}
*9880d681SAndroid Build Coastguard Worker    Kind CandidateKind;
*9880d681SAndroid Build Coastguard Worker    const SCEV *Base;
*9880d681SAndroid Build Coastguard Worker    // Note that Index and Stride of a GEP candidate do not necessarily have the
*9880d681SAndroid Build Coastguard Worker    // same integer type. In that case, during rewriting, Stride will be
*9880d681SAndroid Build Coastguard Worker    // sign-extended or truncated to Index's type.
*9880d681SAndroid Build Coastguard Worker    ConstantInt *Index;
*9880d681SAndroid Build Coastguard Worker    Value *Stride;
*9880d681SAndroid Build Coastguard Worker    // The instruction this candidate corresponds to. It helps us to rewrite a
*9880d681SAndroid Build Coastguard Worker    // candidate with respect to its immediate basis. Note that one instruction
*9880d681SAndroid Build Coastguard Worker    // can correspond to multiple candidates depending on how you associate the
*9880d681SAndroid Build Coastguard Worker    // expression. For instance,
*9880d681SAndroid Build Coastguard Worker    //
*9880d681SAndroid Build Coastguard Worker    // (a + 1) * (b + 2)
*9880d681SAndroid Build Coastguard Worker    //
*9880d681SAndroid Build Coastguard Worker    // can be treated as
*9880d681SAndroid Build Coastguard Worker    //
*9880d681SAndroid Build Coastguard Worker    // <Base: a, Index: 1, Stride: b + 2>
*9880d681SAndroid Build Coastguard Worker    //
*9880d681SAndroid Build Coastguard Worker    // or
*9880d681SAndroid Build Coastguard Worker    //
*9880d681SAndroid Build Coastguard Worker    // <Base: b, Index: 2, Stride: a + 1>
*9880d681SAndroid Build Coastguard Worker    Instruction *Ins;
*9880d681SAndroid Build Coastguard Worker    // Points to the immediate basis of this candidate, or nullptr if we cannot
*9880d681SAndroid Build Coastguard Worker    // find any basis for this candidate.
*9880d681SAndroid Build Coastguard Worker    Candidate *Basis;
*9880d681SAndroid Build Coastguard Worker  };
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  static char ID;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  StraightLineStrengthReduce()
*9880d681SAndroid Build Coastguard Worker      : FunctionPass(ID), DL(nullptr), DT(nullptr), TTI(nullptr) {
*9880d681SAndroid Build Coastguard Worker    initializeStraightLineStrengthReducePass(*PassRegistry::getPassRegistry());
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  void getAnalysisUsage(AnalysisUsage &AU) const override {
*9880d681SAndroid Build Coastguard Worker    AU.addRequired<DominatorTreeWrapperPass>();
*9880d681SAndroid Build Coastguard Worker    AU.addRequired<ScalarEvolutionWrapperPass>();
*9880d681SAndroid Build Coastguard Worker    AU.addRequired<TargetTransformInfoWrapperPass>();
*9880d681SAndroid Build Coastguard Worker    // We do not modify the shape of the CFG.
*9880d681SAndroid Build Coastguard Worker    AU.setPreservesCFG();
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  bool doInitialization(Module &M) override {
*9880d681SAndroid Build Coastguard Worker    DL = &M.getDataLayout();
*9880d681SAndroid Build Coastguard Worker    return false;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  bool runOnFunction(Function &F) override;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerprivate:
*9880d681SAndroid Build Coastguard Worker  // Returns true if Basis is a basis for C, i.e., Basis dominates C and they
*9880d681SAndroid Build Coastguard Worker  // share the same base and stride.
*9880d681SAndroid Build Coastguard Worker  bool isBasisFor(const Candidate &Basis, const Candidate &C);
*9880d681SAndroid Build Coastguard Worker  // Returns whether the candidate can be folded into an addressing mode.
*9880d681SAndroid Build Coastguard Worker  bool isFoldable(const Candidate &C, TargetTransformInfo *TTI,
*9880d681SAndroid Build Coastguard Worker                  const DataLayout *DL);
*9880d681SAndroid Build Coastguard Worker  // Returns true if C is already in a simplest form and not worth being
*9880d681SAndroid Build Coastguard Worker  // rewritten.
*9880d681SAndroid Build Coastguard Worker  bool isSimplestForm(const Candidate &C);
*9880d681SAndroid Build Coastguard Worker  // Checks whether I is in a candidate form. If so, adds all the matching forms
*9880d681SAndroid Build Coastguard Worker  // to Candidates, and tries to find the immediate basis for each of them.
*9880d681SAndroid Build Coastguard Worker  void allocateCandidatesAndFindBasis(Instruction *I);
*9880d681SAndroid Build Coastguard Worker  // Allocate candidates and find bases for Add instructions.
*9880d681SAndroid Build Coastguard Worker  void allocateCandidatesAndFindBasisForAdd(Instruction *I);
*9880d681SAndroid Build Coastguard Worker  // Given I = LHS + RHS, factors RHS into i * S and makes (LHS + i * S) a
*9880d681SAndroid Build Coastguard Worker  // candidate.
*9880d681SAndroid Build Coastguard Worker  void allocateCandidatesAndFindBasisForAdd(Value *LHS, Value *RHS,
*9880d681SAndroid Build Coastguard Worker                                            Instruction *I);
*9880d681SAndroid Build Coastguard Worker  // Allocate candidates and find bases for Mul instructions.
*9880d681SAndroid Build Coastguard Worker  void allocateCandidatesAndFindBasisForMul(Instruction *I);
*9880d681SAndroid Build Coastguard Worker  // Splits LHS into Base + Index and, if succeeds, calls
*9880d681SAndroid Build Coastguard Worker  // allocateCandidatesAndFindBasis.
*9880d681SAndroid Build Coastguard Worker  void allocateCandidatesAndFindBasisForMul(Value *LHS, Value *RHS,
*9880d681SAndroid Build Coastguard Worker                                            Instruction *I);
*9880d681SAndroid Build Coastguard Worker  // Allocate candidates and find bases for GetElementPtr instructions.
*9880d681SAndroid Build Coastguard Worker  void allocateCandidatesAndFindBasisForGEP(GetElementPtrInst *GEP);
*9880d681SAndroid Build Coastguard Worker  // A helper function that scales Idx with ElementSize before invoking
*9880d681SAndroid Build Coastguard Worker  // allocateCandidatesAndFindBasis.
*9880d681SAndroid Build Coastguard Worker  void allocateCandidatesAndFindBasisForGEP(const SCEV *B, ConstantInt *Idx,
*9880d681SAndroid Build Coastguard Worker                                            Value *S, uint64_t ElementSize,
*9880d681SAndroid Build Coastguard Worker                                            Instruction *I);
*9880d681SAndroid Build Coastguard Worker  // Adds the given form <CT, B, Idx, S> to Candidates, and finds its immediate
*9880d681SAndroid Build Coastguard Worker  // basis.
*9880d681SAndroid Build Coastguard Worker  void allocateCandidatesAndFindBasis(Candidate::Kind CT, const SCEV *B,
*9880d681SAndroid Build Coastguard Worker                                      ConstantInt *Idx, Value *S,
*9880d681SAndroid Build Coastguard Worker                                      Instruction *I);
*9880d681SAndroid Build Coastguard Worker  // Rewrites candidate C with respect to Basis.
*9880d681SAndroid Build Coastguard Worker  void rewriteCandidateWithBasis(const Candidate &C, const Candidate &Basis);
*9880d681SAndroid Build Coastguard Worker  // A helper function that factors ArrayIdx to a product of a stride and a
*9880d681SAndroid Build Coastguard Worker  // constant index, and invokes allocateCandidatesAndFindBasis with the
*9880d681SAndroid Build Coastguard Worker  // factorings.
*9880d681SAndroid Build Coastguard Worker  void factorArrayIndex(Value *ArrayIdx, const SCEV *Base, uint64_t ElementSize,
*9880d681SAndroid Build Coastguard Worker                        GetElementPtrInst *GEP);
*9880d681SAndroid Build Coastguard Worker  // Emit code that computes the "bump" from Basis to C. If the candidate is a
*9880d681SAndroid Build Coastguard Worker  // GEP and the bump is not divisible by the element size of the GEP, this
*9880d681SAndroid Build Coastguard Worker  // function sets the BumpWithUglyGEP flag to notify its caller to bump the
*9880d681SAndroid Build Coastguard Worker  // basis using an ugly GEP.
*9880d681SAndroid Build Coastguard Worker  static Value *emitBump(const Candidate &Basis, const Candidate &C,
*9880d681SAndroid Build Coastguard Worker                         IRBuilder<> &Builder, const DataLayout *DL,
*9880d681SAndroid Build Coastguard Worker                         bool &BumpWithUglyGEP);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  const DataLayout *DL;
*9880d681SAndroid Build Coastguard Worker  DominatorTree *DT;
*9880d681SAndroid Build Coastguard Worker  ScalarEvolution *SE;
*9880d681SAndroid Build Coastguard Worker  TargetTransformInfo *TTI;
*9880d681SAndroid Build Coastguard Worker  ilist<Candidate> Candidates;
*9880d681SAndroid Build Coastguard Worker  // Temporarily holds all instructions that are unlinked (but not deleted) by
*9880d681SAndroid Build Coastguard Worker  // rewriteCandidateWithBasis. These instructions will be actually removed
*9880d681SAndroid Build Coastguard Worker  // after all rewriting finishes.
*9880d681SAndroid Build Coastguard Worker  std::vector<Instruction *> UnlinkedInstructions;
*9880d681SAndroid Build Coastguard Worker};
*9880d681SAndroid Build Coastguard Worker}  // anonymous namespace
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerchar StraightLineStrengthReduce::ID = 0;
*9880d681SAndroid Build Coastguard WorkerINITIALIZE_PASS_BEGIN(StraightLineStrengthReduce, "slsr",
*9880d681SAndroid Build Coastguard Worker                      "Straight line strength reduction", false, false)
*9880d681SAndroid Build Coastguard WorkerINITIALIZE_PASS_DEPENDENCY(DominatorTreeWrapperPass)
*9880d681SAndroid Build Coastguard WorkerINITIALIZE_PASS_DEPENDENCY(ScalarEvolutionWrapperPass)
*9880d681SAndroid Build Coastguard WorkerINITIALIZE_PASS_DEPENDENCY(TargetTransformInfoWrapperPass)
*9880d681SAndroid Build Coastguard WorkerINITIALIZE_PASS_END(StraightLineStrengthReduce, "slsr",
*9880d681SAndroid Build Coastguard Worker                    "Straight line strength reduction", false, false)
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard WorkerFunctionPass *llvm::createStraightLineStrengthReducePass() {
*9880d681SAndroid Build Coastguard Worker  return new StraightLineStrengthReduce();
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerbool StraightLineStrengthReduce::isBasisFor(const Candidate &Basis,
*9880d681SAndroid Build Coastguard Worker                                            const Candidate &C) {
*9880d681SAndroid Build Coastguard Worker  return (Basis.Ins != C.Ins && // skip the same instruction
*9880d681SAndroid Build Coastguard Worker          // They must have the same type too. Basis.Base == C.Base doesn't
*9880d681SAndroid Build Coastguard Worker          // guarantee their types are the same (PR23975).
*9880d681SAndroid Build Coastguard Worker          Basis.Ins->getType() == C.Ins->getType() &&
*9880d681SAndroid Build Coastguard Worker          // Basis must dominate C in order to rewrite C with respect to Basis.
*9880d681SAndroid Build Coastguard Worker          DT->dominates(Basis.Ins->getParent(), C.Ins->getParent()) &&
*9880d681SAndroid Build Coastguard Worker          // They share the same base, stride, and candidate kind.
*9880d681SAndroid Build Coastguard Worker          Basis.Base == C.Base && Basis.Stride == C.Stride &&
*9880d681SAndroid Build Coastguard Worker          Basis.CandidateKind == C.CandidateKind);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerstatic bool isGEPFoldable(GetElementPtrInst *GEP,
*9880d681SAndroid Build Coastguard Worker                          const TargetTransformInfo *TTI) {
*9880d681SAndroid Build Coastguard Worker  SmallVector<const Value*, 4> Indices;
*9880d681SAndroid Build Coastguard Worker  for (auto I = GEP->idx_begin(); I != GEP->idx_end(); ++I)
*9880d681SAndroid Build Coastguard Worker    Indices.push_back(*I);
*9880d681SAndroid Build Coastguard Worker  return TTI->getGEPCost(GEP->getSourceElementType(), GEP->getPointerOperand(),
*9880d681SAndroid Build Coastguard Worker                         Indices) == TargetTransformInfo::TCC_Free;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker// Returns whether (Base + Index * Stride) can be folded to an addressing mode.
*9880d681SAndroid Build Coastguard Workerstatic bool isAddFoldable(const SCEV *Base, ConstantInt *Index, Value *Stride,
*9880d681SAndroid Build Coastguard Worker                          TargetTransformInfo *TTI) {
*9880d681SAndroid Build Coastguard Worker  // Index->getSExtValue() may crash if Index is wider than 64-bit.
*9880d681SAndroid Build Coastguard Worker  return Index->getBitWidth() <= 64 &&
*9880d681SAndroid Build Coastguard Worker         TTI->isLegalAddressingMode(Base->getType(), nullptr, 0, true,
*9880d681SAndroid Build Coastguard Worker                                    Index->getSExtValue(), UnknownAddressSpace);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerbool StraightLineStrengthReduce::isFoldable(const Candidate &C,
*9880d681SAndroid Build Coastguard Worker                                            TargetTransformInfo *TTI,
*9880d681SAndroid Build Coastguard Worker                                            const DataLayout *DL) {
*9880d681SAndroid Build Coastguard Worker  if (C.CandidateKind == Candidate::Add)
*9880d681SAndroid Build Coastguard Worker    return isAddFoldable(C.Base, C.Index, C.Stride, TTI);
*9880d681SAndroid Build Coastguard Worker  if (C.CandidateKind == Candidate::GEP)
*9880d681SAndroid Build Coastguard Worker    return isGEPFoldable(cast<GetElementPtrInst>(C.Ins), TTI);
*9880d681SAndroid Build Coastguard Worker  return false;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker// Returns true if GEP has zero or one non-zero index.
*9880d681SAndroid Build Coastguard Workerstatic bool hasOnlyOneNonZeroIndex(GetElementPtrInst *GEP) {
*9880d681SAndroid Build Coastguard Worker  unsigned NumNonZeroIndices = 0;
*9880d681SAndroid Build Coastguard Worker  for (auto I = GEP->idx_begin(); I != GEP->idx_end(); ++I) {
*9880d681SAndroid Build Coastguard Worker    ConstantInt *ConstIdx = dyn_cast<ConstantInt>(*I);
*9880d681SAndroid Build Coastguard Worker    if (ConstIdx == nullptr || !ConstIdx->isZero())
*9880d681SAndroid Build Coastguard Worker      ++NumNonZeroIndices;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  return NumNonZeroIndices <= 1;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerbool StraightLineStrengthReduce::isSimplestForm(const Candidate &C) {
*9880d681SAndroid Build Coastguard Worker  if (C.CandidateKind == Candidate::Add) {
*9880d681SAndroid Build Coastguard Worker    // B + 1 * S or B + (-1) * S
*9880d681SAndroid Build Coastguard Worker    return C.Index->isOne() || C.Index->isMinusOne();
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  if (C.CandidateKind == Candidate::Mul) {
*9880d681SAndroid Build Coastguard Worker    // (B + 0) * S
*9880d681SAndroid Build Coastguard Worker    return C.Index->isZero();
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  if (C.CandidateKind == Candidate::GEP) {
*9880d681SAndroid Build Coastguard Worker    // (char*)B + S or (char*)B - S
*9880d681SAndroid Build Coastguard Worker    return ((C.Index->isOne() || C.Index->isMinusOne()) &&
*9880d681SAndroid Build Coastguard Worker            hasOnlyOneNonZeroIndex(cast<GetElementPtrInst>(C.Ins)));
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  return false;
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker// TODO: We currently implement an algorithm whose time complexity is linear in
*9880d681SAndroid Build Coastguard Worker// the number of existing candidates. However, we could do better by using
*9880d681SAndroid Build Coastguard Worker// ScopedHashTable. Specifically, while traversing the dominator tree, we could
*9880d681SAndroid Build Coastguard Worker// maintain all the candidates that dominate the basic block being traversed in
*9880d681SAndroid Build Coastguard Worker// a ScopedHashTable. This hash table is indexed by the base and the stride of
*9880d681SAndroid Build Coastguard Worker// a candidate. Therefore, finding the immediate basis of a candidate boils down
*9880d681SAndroid Build Coastguard Worker// to one hash-table look up.
*9880d681SAndroid Build Coastguard Workervoid StraightLineStrengthReduce::allocateCandidatesAndFindBasis(
*9880d681SAndroid Build Coastguard Worker    Candidate::Kind CT, const SCEV *B, ConstantInt *Idx, Value *S,
*9880d681SAndroid Build Coastguard Worker    Instruction *I) {
*9880d681SAndroid Build Coastguard Worker  Candidate C(CT, B, Idx, S, I);
*9880d681SAndroid Build Coastguard Worker  // SLSR can complicate an instruction in two cases:
*9880d681SAndroid Build Coastguard Worker  //
*9880d681SAndroid Build Coastguard Worker  // 1. If we can fold I into an addressing mode, computing I is likely free or
*9880d681SAndroid Build Coastguard Worker  // takes only one instruction.
*9880d681SAndroid Build Coastguard Worker  //
*9880d681SAndroid Build Coastguard Worker  // 2. I is already in a simplest form. For example, when
*9880d681SAndroid Build Coastguard Worker  //      X = B + 8 * S
*9880d681SAndroid Build Coastguard Worker  //      Y = B + S,
*9880d681SAndroid Build Coastguard Worker  //    rewriting Y to X - 7 * S is probably a bad idea.
*9880d681SAndroid Build Coastguard Worker  //
*9880d681SAndroid Build Coastguard Worker  // In the above cases, we still add I to the candidate list so that I can be
*9880d681SAndroid Build Coastguard Worker  // the basis of other candidates, but we leave I's basis blank so that I
*9880d681SAndroid Build Coastguard Worker  // won't be rewritten.
*9880d681SAndroid Build Coastguard Worker  if (!isFoldable(C, TTI, DL) && !isSimplestForm(C)) {
*9880d681SAndroid Build Coastguard Worker    // Try to compute the immediate basis of C.
*9880d681SAndroid Build Coastguard Worker    unsigned NumIterations = 0;
*9880d681SAndroid Build Coastguard Worker    // Limit the scan radius to avoid running in quadratice time.
*9880d681SAndroid Build Coastguard Worker    static const unsigned MaxNumIterations = 50;
*9880d681SAndroid Build Coastguard Worker    for (auto Basis = Candidates.rbegin();
*9880d681SAndroid Build Coastguard Worker         Basis != Candidates.rend() && NumIterations < MaxNumIterations;
*9880d681SAndroid Build Coastguard Worker         ++Basis, ++NumIterations) {
*9880d681SAndroid Build Coastguard Worker      if (isBasisFor(*Basis, C)) {
*9880d681SAndroid Build Coastguard Worker        C.Basis = &(*Basis);
*9880d681SAndroid Build Coastguard Worker        break;
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  // Regardless of whether we find a basis for C, we need to push C to the
*9880d681SAndroid Build Coastguard Worker  // candidate list so that it can be the basis of other candidates.
*9880d681SAndroid Build Coastguard Worker  Candidates.push_back(C);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid StraightLineStrengthReduce::allocateCandidatesAndFindBasis(
*9880d681SAndroid Build Coastguard Worker    Instruction *I) {
*9880d681SAndroid Build Coastguard Worker  switch (I->getOpcode()) {
*9880d681SAndroid Build Coastguard Worker  case Instruction::Add:
*9880d681SAndroid Build Coastguard Worker    allocateCandidatesAndFindBasisForAdd(I);
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  case Instruction::Mul:
*9880d681SAndroid Build Coastguard Worker    allocateCandidatesAndFindBasisForMul(I);
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  case Instruction::GetElementPtr:
*9880d681SAndroid Build Coastguard Worker    allocateCandidatesAndFindBasisForGEP(cast<GetElementPtrInst>(I));
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid StraightLineStrengthReduce::allocateCandidatesAndFindBasisForAdd(
*9880d681SAndroid Build Coastguard Worker    Instruction *I) {
*9880d681SAndroid Build Coastguard Worker  // Try matching B + i * S.
*9880d681SAndroid Build Coastguard Worker  if (!isa<IntegerType>(I->getType()))
*9880d681SAndroid Build Coastguard Worker    return;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  assert(I->getNumOperands() == 2 && "isn't I an add?");
*9880d681SAndroid Build Coastguard Worker  Value *LHS = I->getOperand(0), *RHS = I->getOperand(1);
*9880d681SAndroid Build Coastguard Worker  allocateCandidatesAndFindBasisForAdd(LHS, RHS, I);
*9880d681SAndroid Build Coastguard Worker  if (LHS != RHS)
*9880d681SAndroid Build Coastguard Worker    allocateCandidatesAndFindBasisForAdd(RHS, LHS, I);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid StraightLineStrengthReduce::allocateCandidatesAndFindBasisForAdd(
*9880d681SAndroid Build Coastguard Worker    Value *LHS, Value *RHS, Instruction *I) {
*9880d681SAndroid Build Coastguard Worker  Value *S = nullptr;
*9880d681SAndroid Build Coastguard Worker  ConstantInt *Idx = nullptr;
*9880d681SAndroid Build Coastguard Worker  if (match(RHS, m_Mul(m_Value(S), m_ConstantInt(Idx)))) {
*9880d681SAndroid Build Coastguard Worker    // I = LHS + RHS = LHS + Idx * S
*9880d681SAndroid Build Coastguard Worker    allocateCandidatesAndFindBasis(Candidate::Add, SE->getSCEV(LHS), Idx, S, I);
*9880d681SAndroid Build Coastguard Worker  } else if (match(RHS, m_Shl(m_Value(S), m_ConstantInt(Idx)))) {
*9880d681SAndroid Build Coastguard Worker    // I = LHS + RHS = LHS + (S << Idx) = LHS + S * (1 << Idx)
*9880d681SAndroid Build Coastguard Worker    APInt One(Idx->getBitWidth(), 1);
*9880d681SAndroid Build Coastguard Worker    Idx = ConstantInt::get(Idx->getContext(), One << Idx->getValue());
*9880d681SAndroid Build Coastguard Worker    allocateCandidatesAndFindBasis(Candidate::Add, SE->getSCEV(LHS), Idx, S, I);
*9880d681SAndroid Build Coastguard Worker  } else {
*9880d681SAndroid Build Coastguard Worker    // At least, I = LHS + 1 * RHS
*9880d681SAndroid Build Coastguard Worker    ConstantInt *One = ConstantInt::get(cast<IntegerType>(I->getType()), 1);
*9880d681SAndroid Build Coastguard Worker    allocateCandidatesAndFindBasis(Candidate::Add, SE->getSCEV(LHS), One, RHS,
*9880d681SAndroid Build Coastguard Worker                                   I);
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker// Returns true if A matches B + C where C is constant.
*9880d681SAndroid Build Coastguard Workerstatic bool matchesAdd(Value *A, Value *&B, ConstantInt *&C) {
*9880d681SAndroid Build Coastguard Worker  return (match(A, m_Add(m_Value(B), m_ConstantInt(C))) ||
*9880d681SAndroid Build Coastguard Worker          match(A, m_Add(m_ConstantInt(C), m_Value(B))));
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker// Returns true if A matches B | C where C is constant.
*9880d681SAndroid Build Coastguard Workerstatic bool matchesOr(Value *A, Value *&B, ConstantInt *&C) {
*9880d681SAndroid Build Coastguard Worker  return (match(A, m_Or(m_Value(B), m_ConstantInt(C))) ||
*9880d681SAndroid Build Coastguard Worker          match(A, m_Or(m_ConstantInt(C), m_Value(B))));
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid StraightLineStrengthReduce::allocateCandidatesAndFindBasisForMul(
*9880d681SAndroid Build Coastguard Worker    Value *LHS, Value *RHS, Instruction *I) {
*9880d681SAndroid Build Coastguard Worker  Value *B = nullptr;
*9880d681SAndroid Build Coastguard Worker  ConstantInt *Idx = nullptr;
*9880d681SAndroid Build Coastguard Worker  if (matchesAdd(LHS, B, Idx)) {
*9880d681SAndroid Build Coastguard Worker    // If LHS is in the form of "Base + Index", then I is in the form of
*9880d681SAndroid Build Coastguard Worker    // "(Base + Index) * RHS".
*9880d681SAndroid Build Coastguard Worker    allocateCandidatesAndFindBasis(Candidate::Mul, SE->getSCEV(B), Idx, RHS, I);
*9880d681SAndroid Build Coastguard Worker  } else if (matchesOr(LHS, B, Idx) && haveNoCommonBitsSet(B, Idx, *DL)) {
*9880d681SAndroid Build Coastguard Worker    // If LHS is in the form of "Base | Index" and Base and Index have no common
*9880d681SAndroid Build Coastguard Worker    // bits set, then
*9880d681SAndroid Build Coastguard Worker    //   Base | Index = Base + Index
*9880d681SAndroid Build Coastguard Worker    // and I is thus in the form of "(Base + Index) * RHS".
*9880d681SAndroid Build Coastguard Worker    allocateCandidatesAndFindBasis(Candidate::Mul, SE->getSCEV(B), Idx, RHS, I);
*9880d681SAndroid Build Coastguard Worker  } else {
*9880d681SAndroid Build Coastguard Worker    // Otherwise, at least try the form (LHS + 0) * RHS.
*9880d681SAndroid Build Coastguard Worker    ConstantInt *Zero = ConstantInt::get(cast<IntegerType>(I->getType()), 0);
*9880d681SAndroid Build Coastguard Worker    allocateCandidatesAndFindBasis(Candidate::Mul, SE->getSCEV(LHS), Zero, RHS,
*9880d681SAndroid Build Coastguard Worker                                   I);
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid StraightLineStrengthReduce::allocateCandidatesAndFindBasisForMul(
*9880d681SAndroid Build Coastguard Worker    Instruction *I) {
*9880d681SAndroid Build Coastguard Worker  // Try matching (B + i) * S.
*9880d681SAndroid Build Coastguard Worker  // TODO: we could extend SLSR to float and vector types.
*9880d681SAndroid Build Coastguard Worker  if (!isa<IntegerType>(I->getType()))
*9880d681SAndroid Build Coastguard Worker    return;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  assert(I->getNumOperands() == 2 && "isn't I a mul?");
*9880d681SAndroid Build Coastguard Worker  Value *LHS = I->getOperand(0), *RHS = I->getOperand(1);
*9880d681SAndroid Build Coastguard Worker  allocateCandidatesAndFindBasisForMul(LHS, RHS, I);
*9880d681SAndroid Build Coastguard Worker  if (LHS != RHS) {
*9880d681SAndroid Build Coastguard Worker    // Symmetrically, try to split RHS to Base + Index.
*9880d681SAndroid Build Coastguard Worker    allocateCandidatesAndFindBasisForMul(RHS, LHS, I);
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid StraightLineStrengthReduce::allocateCandidatesAndFindBasisForGEP(
*9880d681SAndroid Build Coastguard Worker    const SCEV *B, ConstantInt *Idx, Value *S, uint64_t ElementSize,
*9880d681SAndroid Build Coastguard Worker    Instruction *I) {
*9880d681SAndroid Build Coastguard Worker  // I = B + sext(Idx *nsw S) * ElementSize
*9880d681SAndroid Build Coastguard Worker  //   = B + (sext(Idx) * sext(S)) * ElementSize
*9880d681SAndroid Build Coastguard Worker  //   = B + (sext(Idx) * ElementSize) * sext(S)
*9880d681SAndroid Build Coastguard Worker  // Casting to IntegerType is safe because we skipped vector GEPs.
*9880d681SAndroid Build Coastguard Worker  IntegerType *IntPtrTy = cast<IntegerType>(DL->getIntPtrType(I->getType()));
*9880d681SAndroid Build Coastguard Worker  ConstantInt *ScaledIdx = ConstantInt::get(
*9880d681SAndroid Build Coastguard Worker      IntPtrTy, Idx->getSExtValue() * (int64_t)ElementSize, true);
*9880d681SAndroid Build Coastguard Worker  allocateCandidatesAndFindBasis(Candidate::GEP, B, ScaledIdx, S, I);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid StraightLineStrengthReduce::factorArrayIndex(Value *ArrayIdx,
*9880d681SAndroid Build Coastguard Worker                                                  const SCEV *Base,
*9880d681SAndroid Build Coastguard Worker                                                  uint64_t ElementSize,
*9880d681SAndroid Build Coastguard Worker                                                  GetElementPtrInst *GEP) {
*9880d681SAndroid Build Coastguard Worker  // At least, ArrayIdx = ArrayIdx *nsw 1.
*9880d681SAndroid Build Coastguard Worker  allocateCandidatesAndFindBasisForGEP(
*9880d681SAndroid Build Coastguard Worker      Base, ConstantInt::get(cast<IntegerType>(ArrayIdx->getType()), 1),
*9880d681SAndroid Build Coastguard Worker      ArrayIdx, ElementSize, GEP);
*9880d681SAndroid Build Coastguard Worker  Value *LHS = nullptr;
*9880d681SAndroid Build Coastguard Worker  ConstantInt *RHS = nullptr;
*9880d681SAndroid Build Coastguard Worker  // One alternative is matching the SCEV of ArrayIdx instead of ArrayIdx
*9880d681SAndroid Build Coastguard Worker  // itself. This would allow us to handle the shl case for free. However,
*9880d681SAndroid Build Coastguard Worker  // matching SCEVs has two issues:
*9880d681SAndroid Build Coastguard Worker  //
*9880d681SAndroid Build Coastguard Worker  // 1. this would complicate rewriting because the rewriting procedure
*9880d681SAndroid Build Coastguard Worker  // would have to translate SCEVs back to IR instructions. This translation
*9880d681SAndroid Build Coastguard Worker  // is difficult when LHS is further evaluated to a composite SCEV.
*9880d681SAndroid Build Coastguard Worker  //
*9880d681SAndroid Build Coastguard Worker  // 2. ScalarEvolution is designed to be control-flow oblivious. It tends
*9880d681SAndroid Build Coastguard Worker  // to strip nsw/nuw flags which are critical for SLSR to trace into
*9880d681SAndroid Build Coastguard Worker  // sext'ed multiplication.
*9880d681SAndroid Build Coastguard Worker  if (match(ArrayIdx, m_NSWMul(m_Value(LHS), m_ConstantInt(RHS)))) {
*9880d681SAndroid Build Coastguard Worker    // SLSR is currently unsafe if i * S may overflow.
*9880d681SAndroid Build Coastguard Worker    // GEP = Base + sext(LHS *nsw RHS) * ElementSize
*9880d681SAndroid Build Coastguard Worker    allocateCandidatesAndFindBasisForGEP(Base, RHS, LHS, ElementSize, GEP);
*9880d681SAndroid Build Coastguard Worker  } else if (match(ArrayIdx, m_NSWShl(m_Value(LHS), m_ConstantInt(RHS)))) {
*9880d681SAndroid Build Coastguard Worker    // GEP = Base + sext(LHS <<nsw RHS) * ElementSize
*9880d681SAndroid Build Coastguard Worker    //     = Base + sext(LHS *nsw (1 << RHS)) * ElementSize
*9880d681SAndroid Build Coastguard Worker    APInt One(RHS->getBitWidth(), 1);
*9880d681SAndroid Build Coastguard Worker    ConstantInt *PowerOf2 =
*9880d681SAndroid Build Coastguard Worker        ConstantInt::get(RHS->getContext(), One << RHS->getValue());
*9880d681SAndroid Build Coastguard Worker    allocateCandidatesAndFindBasisForGEP(Base, PowerOf2, LHS, ElementSize, GEP);
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid StraightLineStrengthReduce::allocateCandidatesAndFindBasisForGEP(
*9880d681SAndroid Build Coastguard Worker    GetElementPtrInst *GEP) {
*9880d681SAndroid Build Coastguard Worker  // TODO: handle vector GEPs
*9880d681SAndroid Build Coastguard Worker  if (GEP->getType()->isVectorTy())
*9880d681SAndroid Build Coastguard Worker    return;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  SmallVector<const SCEV *, 4> IndexExprs;
*9880d681SAndroid Build Coastguard Worker  for (auto I = GEP->idx_begin(); I != GEP->idx_end(); ++I)
*9880d681SAndroid Build Coastguard Worker    IndexExprs.push_back(SE->getSCEV(*I));
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  gep_type_iterator GTI = gep_type_begin(GEP);
*9880d681SAndroid Build Coastguard Worker  for (unsigned I = 1, E = GEP->getNumOperands(); I != E; ++I) {
*9880d681SAndroid Build Coastguard Worker    if (!isa<SequentialType>(*GTI++))
*9880d681SAndroid Build Coastguard Worker      continue;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    const SCEV *OrigIndexExpr = IndexExprs[I - 1];
*9880d681SAndroid Build Coastguard Worker    IndexExprs[I - 1] = SE->getZero(OrigIndexExpr->getType());
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    // The base of this candidate is GEP's base plus the offsets of all
*9880d681SAndroid Build Coastguard Worker    // indices except this current one.
*9880d681SAndroid Build Coastguard Worker    const SCEV *BaseExpr = SE->getGEPExpr(GEP->getSourceElementType(),
*9880d681SAndroid Build Coastguard Worker                                          SE->getSCEV(GEP->getPointerOperand()),
*9880d681SAndroid Build Coastguard Worker                                          IndexExprs, GEP->isInBounds());
*9880d681SAndroid Build Coastguard Worker    Value *ArrayIdx = GEP->getOperand(I);
*9880d681SAndroid Build Coastguard Worker    uint64_t ElementSize = DL->getTypeAllocSize(*GTI);
*9880d681SAndroid Build Coastguard Worker    if (ArrayIdx->getType()->getIntegerBitWidth() <=
*9880d681SAndroid Build Coastguard Worker        DL->getPointerSizeInBits(GEP->getAddressSpace())) {
*9880d681SAndroid Build Coastguard Worker      // Skip factoring if ArrayIdx is wider than the pointer size, because
*9880d681SAndroid Build Coastguard Worker      // ArrayIdx is implicitly truncated to the pointer size.
*9880d681SAndroid Build Coastguard Worker      factorArrayIndex(ArrayIdx, BaseExpr, ElementSize, GEP);
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    // When ArrayIdx is the sext of a value, we try to factor that value as
*9880d681SAndroid Build Coastguard Worker    // well.  Handling this case is important because array indices are
*9880d681SAndroid Build Coastguard Worker    // typically sign-extended to the pointer size.
*9880d681SAndroid Build Coastguard Worker    Value *TruncatedArrayIdx = nullptr;
*9880d681SAndroid Build Coastguard Worker    if (match(ArrayIdx, m_SExt(m_Value(TruncatedArrayIdx))) &&
*9880d681SAndroid Build Coastguard Worker        TruncatedArrayIdx->getType()->getIntegerBitWidth() <=
*9880d681SAndroid Build Coastguard Worker            DL->getPointerSizeInBits(GEP->getAddressSpace())) {
*9880d681SAndroid Build Coastguard Worker      // Skip factoring if TruncatedArrayIdx is wider than the pointer size,
*9880d681SAndroid Build Coastguard Worker      // because TruncatedArrayIdx is implicitly truncated to the pointer size.
*9880d681SAndroid Build Coastguard Worker      factorArrayIndex(TruncatedArrayIdx, BaseExpr, ElementSize, GEP);
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker    IndexExprs[I - 1] = OrigIndexExpr;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker// A helper function that unifies the bitwidth of A and B.
*9880d681SAndroid Build Coastguard Workerstatic void unifyBitWidth(APInt &A, APInt &B) {
*9880d681SAndroid Build Coastguard Worker  if (A.getBitWidth() < B.getBitWidth())
*9880d681SAndroid Build Coastguard Worker    A = A.sext(B.getBitWidth());
*9880d681SAndroid Build Coastguard Worker  else if (A.getBitWidth() > B.getBitWidth())
*9880d681SAndroid Build Coastguard Worker    B = B.sext(A.getBitWidth());
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard WorkerValue *StraightLineStrengthReduce::emitBump(const Candidate &Basis,
*9880d681SAndroid Build Coastguard Worker                                            const Candidate &C,
*9880d681SAndroid Build Coastguard Worker                                            IRBuilder<> &Builder,
*9880d681SAndroid Build Coastguard Worker                                            const DataLayout *DL,
*9880d681SAndroid Build Coastguard Worker                                            bool &BumpWithUglyGEP) {
*9880d681SAndroid Build Coastguard Worker  APInt Idx = C.Index->getValue(), BasisIdx = Basis.Index->getValue();
*9880d681SAndroid Build Coastguard Worker  unifyBitWidth(Idx, BasisIdx);
*9880d681SAndroid Build Coastguard Worker  APInt IndexOffset = Idx - BasisIdx;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  BumpWithUglyGEP = false;
*9880d681SAndroid Build Coastguard Worker  if (Basis.CandidateKind == Candidate::GEP) {
*9880d681SAndroid Build Coastguard Worker    APInt ElementSize(
*9880d681SAndroid Build Coastguard Worker        IndexOffset.getBitWidth(),
*9880d681SAndroid Build Coastguard Worker        DL->getTypeAllocSize(
*9880d681SAndroid Build Coastguard Worker            cast<GetElementPtrInst>(Basis.Ins)->getResultElementType()));
*9880d681SAndroid Build Coastguard Worker    APInt Q, R;
*9880d681SAndroid Build Coastguard Worker    APInt::sdivrem(IndexOffset, ElementSize, Q, R);
*9880d681SAndroid Build Coastguard Worker    if (R == 0)
*9880d681SAndroid Build Coastguard Worker      IndexOffset = Q;
*9880d681SAndroid Build Coastguard Worker    else
*9880d681SAndroid Build Coastguard Worker      BumpWithUglyGEP = true;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Compute Bump = C - Basis = (i' - i) * S.
*9880d681SAndroid Build Coastguard Worker  // Common case 1: if (i' - i) is 1, Bump = S.
*9880d681SAndroid Build Coastguard Worker  if (IndexOffset == 1)
*9880d681SAndroid Build Coastguard Worker    return C.Stride;
*9880d681SAndroid Build Coastguard Worker  // Common case 2: if (i' - i) is -1, Bump = -S.
*9880d681SAndroid Build Coastguard Worker  if (IndexOffset.isAllOnesValue())
*9880d681SAndroid Build Coastguard Worker    return Builder.CreateNeg(C.Stride);
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Otherwise, Bump = (i' - i) * sext/trunc(S). Note that (i' - i) and S may
*9880d681SAndroid Build Coastguard Worker  // have different bit widths.
*9880d681SAndroid Build Coastguard Worker  IntegerType *DeltaType =
*9880d681SAndroid Build Coastguard Worker      IntegerType::get(Basis.Ins->getContext(), IndexOffset.getBitWidth());
*9880d681SAndroid Build Coastguard Worker  Value *ExtendedStride = Builder.CreateSExtOrTrunc(C.Stride, DeltaType);
*9880d681SAndroid Build Coastguard Worker  if (IndexOffset.isPowerOf2()) {
*9880d681SAndroid Build Coastguard Worker    // If (i' - i) is a power of 2, Bump = sext/trunc(S) << log(i' - i).
*9880d681SAndroid Build Coastguard Worker    ConstantInt *Exponent = ConstantInt::get(DeltaType, IndexOffset.logBase2());
*9880d681SAndroid Build Coastguard Worker    return Builder.CreateShl(ExtendedStride, Exponent);
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  if ((-IndexOffset).isPowerOf2()) {
*9880d681SAndroid Build Coastguard Worker    // If (i - i') is a power of 2, Bump = -sext/trunc(S) << log(i' - i).
*9880d681SAndroid Build Coastguard Worker    ConstantInt *Exponent =
*9880d681SAndroid Build Coastguard Worker        ConstantInt::get(DeltaType, (-IndexOffset).logBase2());
*9880d681SAndroid Build Coastguard Worker    return Builder.CreateNeg(Builder.CreateShl(ExtendedStride, Exponent));
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  Constant *Delta = ConstantInt::get(DeltaType, IndexOffset);
*9880d681SAndroid Build Coastguard Worker  return Builder.CreateMul(ExtendedStride, Delta);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workervoid StraightLineStrengthReduce::rewriteCandidateWithBasis(
*9880d681SAndroid Build Coastguard Worker    const Candidate &C, const Candidate &Basis) {
*9880d681SAndroid Build Coastguard Worker  assert(C.CandidateKind == Basis.CandidateKind && C.Base == Basis.Base &&
*9880d681SAndroid Build Coastguard Worker         C.Stride == Basis.Stride);
*9880d681SAndroid Build Coastguard Worker  // We run rewriteCandidateWithBasis on all candidates in a post-order, so the
*9880d681SAndroid Build Coastguard Worker  // basis of a candidate cannot be unlinked before the candidate.
*9880d681SAndroid Build Coastguard Worker  assert(Basis.Ins->getParent() != nullptr && "the basis is unlinked");
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // An instruction can correspond to multiple candidates. Therefore, instead of
*9880d681SAndroid Build Coastguard Worker  // simply deleting an instruction when we rewrite it, we mark its parent as
*9880d681SAndroid Build Coastguard Worker  // nullptr (i.e. unlink it) so that we can skip the candidates whose
*9880d681SAndroid Build Coastguard Worker  // instruction is already rewritten.
*9880d681SAndroid Build Coastguard Worker  if (!C.Ins->getParent())
*9880d681SAndroid Build Coastguard Worker    return;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  IRBuilder<> Builder(C.Ins);
*9880d681SAndroid Build Coastguard Worker  bool BumpWithUglyGEP;
*9880d681SAndroid Build Coastguard Worker  Value *Bump = emitBump(Basis, C, Builder, DL, BumpWithUglyGEP);
*9880d681SAndroid Build Coastguard Worker  Value *Reduced = nullptr; // equivalent to but weaker than C.Ins
*9880d681SAndroid Build Coastguard Worker  switch (C.CandidateKind) {
*9880d681SAndroid Build Coastguard Worker  case Candidate::Add:
*9880d681SAndroid Build Coastguard Worker  case Candidate::Mul:
*9880d681SAndroid Build Coastguard Worker    // C = Basis + Bump
*9880d681SAndroid Build Coastguard Worker    if (BinaryOperator::isNeg(Bump)) {
*9880d681SAndroid Build Coastguard Worker      // If Bump is a neg instruction, emit C = Basis - (-Bump).
*9880d681SAndroid Build Coastguard Worker      Reduced =
*9880d681SAndroid Build Coastguard Worker          Builder.CreateSub(Basis.Ins, BinaryOperator::getNegArgument(Bump));
*9880d681SAndroid Build Coastguard Worker      // We only use the negative argument of Bump, and Bump itself may be
*9880d681SAndroid Build Coastguard Worker      // trivially dead.
*9880d681SAndroid Build Coastguard Worker      RecursivelyDeleteTriviallyDeadInstructions(Bump);
*9880d681SAndroid Build Coastguard Worker    } else {
*9880d681SAndroid Build Coastguard Worker      // It's tempting to preserve nsw on Bump and/or Reduced. However, it's
*9880d681SAndroid Build Coastguard Worker      // usually unsound, e.g.,
*9880d681SAndroid Build Coastguard Worker      //
*9880d681SAndroid Build Coastguard Worker      // X = (-2 +nsw 1) *nsw INT_MAX
*9880d681SAndroid Build Coastguard Worker      // Y = (-2 +nsw 3) *nsw INT_MAX
*9880d681SAndroid Build Coastguard Worker      //   =>
*9880d681SAndroid Build Coastguard Worker      // Y = X + 2 * INT_MAX
*9880d681SAndroid Build Coastguard Worker      //
*9880d681SAndroid Build Coastguard Worker      // Neither + and * in the resultant expression are nsw.
*9880d681SAndroid Build Coastguard Worker      Reduced = Builder.CreateAdd(Basis.Ins, Bump);
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  case Candidate::GEP:
*9880d681SAndroid Build Coastguard Worker    {
*9880d681SAndroid Build Coastguard Worker      Type *IntPtrTy = DL->getIntPtrType(C.Ins->getType());
*9880d681SAndroid Build Coastguard Worker      bool InBounds = cast<GetElementPtrInst>(C.Ins)->isInBounds();
*9880d681SAndroid Build Coastguard Worker      if (BumpWithUglyGEP) {
*9880d681SAndroid Build Coastguard Worker        // C = (char *)Basis + Bump
*9880d681SAndroid Build Coastguard Worker        unsigned AS = Basis.Ins->getType()->getPointerAddressSpace();
*9880d681SAndroid Build Coastguard Worker        Type *CharTy = Type::getInt8PtrTy(Basis.Ins->getContext(), AS);
*9880d681SAndroid Build Coastguard Worker        Reduced = Builder.CreateBitCast(Basis.Ins, CharTy);
*9880d681SAndroid Build Coastguard Worker        if (InBounds)
*9880d681SAndroid Build Coastguard Worker          Reduced =
*9880d681SAndroid Build Coastguard Worker              Builder.CreateInBoundsGEP(Builder.getInt8Ty(), Reduced, Bump);
*9880d681SAndroid Build Coastguard Worker        else
*9880d681SAndroid Build Coastguard Worker          Reduced = Builder.CreateGEP(Builder.getInt8Ty(), Reduced, Bump);
*9880d681SAndroid Build Coastguard Worker        Reduced = Builder.CreateBitCast(Reduced, C.Ins->getType());
*9880d681SAndroid Build Coastguard Worker      } else {
*9880d681SAndroid Build Coastguard Worker        // C = gep Basis, Bump
*9880d681SAndroid Build Coastguard Worker        // Canonicalize bump to pointer size.
*9880d681SAndroid Build Coastguard Worker        Bump = Builder.CreateSExtOrTrunc(Bump, IntPtrTy);
*9880d681SAndroid Build Coastguard Worker        if (InBounds)
*9880d681SAndroid Build Coastguard Worker          Reduced = Builder.CreateInBoundsGEP(nullptr, Basis.Ins, Bump);
*9880d681SAndroid Build Coastguard Worker        else
*9880d681SAndroid Build Coastguard Worker          Reduced = Builder.CreateGEP(nullptr, Basis.Ins, Bump);
*9880d681SAndroid Build Coastguard Worker      }
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    break;
*9880d681SAndroid Build Coastguard Worker  default:
*9880d681SAndroid Build Coastguard Worker    llvm_unreachable("C.CandidateKind is invalid");
*9880d681SAndroid Build Coastguard Worker  };
*9880d681SAndroid Build Coastguard Worker  Reduced->takeName(C.Ins);
*9880d681SAndroid Build Coastguard Worker  C.Ins->replaceAllUsesWith(Reduced);
*9880d681SAndroid Build Coastguard Worker  // Unlink C.Ins so that we can skip other candidates also corresponding to
*9880d681SAndroid Build Coastguard Worker  // C.Ins. The actual deletion is postponed to the end of runOnFunction.
*9880d681SAndroid Build Coastguard Worker  C.Ins->removeFromParent();
*9880d681SAndroid Build Coastguard Worker  UnlinkedInstructions.push_back(C.Ins);
*9880d681SAndroid Build Coastguard Worker}
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Workerbool StraightLineStrengthReduce::runOnFunction(Function &F) {
*9880d681SAndroid Build Coastguard Worker  if (skipFunction(F))
*9880d681SAndroid Build Coastguard Worker    return false;
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  TTI = &getAnalysis<TargetTransformInfoWrapperPass>().getTTI(F);
*9880d681SAndroid Build Coastguard Worker  DT = &getAnalysis<DominatorTreeWrapperPass>().getDomTree();
*9880d681SAndroid Build Coastguard Worker  SE = &getAnalysis<ScalarEvolutionWrapperPass>().getSE();
*9880d681SAndroid Build Coastguard Worker  // Traverse the dominator tree in the depth-first order. This order makes sure
*9880d681SAndroid Build Coastguard Worker  // all bases of a candidate are in Candidates when we process it.
*9880d681SAndroid Build Coastguard Worker  for (auto node = GraphTraits<DominatorTree *>::nodes_begin(DT);
*9880d681SAndroid Build Coastguard Worker       node != GraphTraits<DominatorTree *>::nodes_end(DT); ++node) {
*9880d681SAndroid Build Coastguard Worker    for (auto &I : *node->getBlock())
*9880d681SAndroid Build Coastguard Worker      allocateCandidatesAndFindBasis(&I);
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Rewrite candidates in the reverse depth-first order. This order makes sure
*9880d681SAndroid Build Coastguard Worker  // a candidate being rewritten is not a basis for any other candidate.
*9880d681SAndroid Build Coastguard Worker  while (!Candidates.empty()) {
*9880d681SAndroid Build Coastguard Worker    const Candidate &C = Candidates.back();
*9880d681SAndroid Build Coastguard Worker    if (C.Basis != nullptr) {
*9880d681SAndroid Build Coastguard Worker      rewriteCandidateWithBasis(C, *C.Basis);
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    Candidates.pop_back();
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker
*9880d681SAndroid Build Coastguard Worker  // Delete all unlink instructions.
*9880d681SAndroid Build Coastguard Worker  for (auto *UnlinkedInst : UnlinkedInstructions) {
*9880d681SAndroid Build Coastguard Worker    for (unsigned I = 0, E = UnlinkedInst->getNumOperands(); I != E; ++I) {
*9880d681SAndroid Build Coastguard Worker      Value *Op = UnlinkedInst->getOperand(I);
*9880d681SAndroid Build Coastguard Worker      UnlinkedInst->setOperand(I, nullptr);
*9880d681SAndroid Build Coastguard Worker      RecursivelyDeleteTriviallyDeadInstructions(Op);
*9880d681SAndroid Build Coastguard Worker    }
*9880d681SAndroid Build Coastguard Worker    delete UnlinkedInst;
*9880d681SAndroid Build Coastguard Worker  }
*9880d681SAndroid Build Coastguard Worker  bool Ret = !UnlinkedInstructions.empty();
*9880d681SAndroid Build Coastguard Worker  UnlinkedInstructions.clear();
*9880d681SAndroid Build Coastguard Worker  return Ret;
*9880d681SAndroid Build Coastguard Worker}