Transforms/Utils/CodeMoverUtils.cpp

ae8a8c2dSTsang Whitney W.H//===- CodeMoverUtils.cpp - CodeMover Utilities ----------------------------==//
ae8a8c2dSTsang Whitney W.H//
ae8a8c2dSTsang Whitney W.H// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
ae8a8c2dSTsang Whitney W.H// See https://llvm.org/LICENSE.txt for license information.
ae8a8c2dSTsang Whitney W.H// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
ae8a8c2dSTsang Whitney W.H//
ae8a8c2dSTsang Whitney W.H//===----------------------------------------------------------------------===//
ae8a8c2dSTsang Whitney W.H//
ae8a8c2dSTsang Whitney W.H// This family of functions perform movements on basic blocks, and instructions
ae8a8c2dSTsang Whitney W.H// contained within a function.
ae8a8c2dSTsang Whitney W.H//
ae8a8c2dSTsang Whitney W.H//===----------------------------------------------------------------------===//
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H#include "llvm/Transforms/Utils/CodeMoverUtils.h"
78dc6498SWhitney Tsang#include "llvm/ADT/Optional.h"
ae8a8c2dSTsang Whitney W.H#include "llvm/ADT/Statistic.h"
ae8a8c2dSTsang Whitney W.H#include "llvm/Analysis/DependenceAnalysis.h"
ae8a8c2dSTsang Whitney W.H#include "llvm/Analysis/PostDominators.h"
ae8a8c2dSTsang Whitney W.H#include "llvm/Analysis/ValueTracking.h"
ae8a8c2dSTsang Whitney W.H#include "llvm/IR/Dominators.h"
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.Husing namespace llvm;
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H#define DEBUG_TYPE "codemover-utils"
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.HSTATISTIC(HasDependences,
ae8a8c2dSTsang Whitney W.H          "Cannot move across instructions that has memory dependences");
ae8a8c2dSTsang Whitney W.HSTATISTIC(MayThrowException, "Cannot move across instructions that may throw");
ae8a8c2dSTsang Whitney W.HSTATISTIC(NotControlFlowEquivalent,
ae8a8c2dSTsang Whitney W.H          "Instructions are not control flow equivalent");
ae8a8c2dSTsang Whitney W.HSTATISTIC(NotMovedPHINode, "Movement of PHINodes are not supported");
ae8a8c2dSTsang Whitney W.HSTATISTIC(NotMovedTerminator, "Movement of Terminator are not supported");
ae8a8c2dSTsang Whitney W.H
78dc6498SWhitney Tsangnamespace {
78dc6498SWhitney Tsang/// Represent a control condition. A control condition is a condition of a
78dc6498SWhitney Tsang/// terminator to decide which successors to execute. The pointer field
78dc6498SWhitney Tsang/// represents the address of the condition of the terminator. The integer field
78dc6498SWhitney Tsang/// is a bool, it is true when the basic block is executed when V is true. For
78dc6498SWhitney Tsang/// example, `br %cond, bb0, bb1` %cond is a control condition of bb0 with the
78dc6498SWhitney Tsang/// integer field equals to true, while %cond is a control condition of bb1 with
78dc6498SWhitney Tsang/// the integer field equals to false.
78dc6498SWhitney Tsangusing ControlCondition = PointerIntPair<Value *, 1, bool>;
78dc6498SWhitney Tsang#ifndef NDEBUG
78dc6498SWhitney Tsangraw_ostream &operator<<(raw_ostream &OS, const ControlCondition &C) {
78dc6498SWhitney Tsang  OS << "[" << *C.getPointer() << ", " << (C.getInt() ? "true" : "false")
78dc6498SWhitney Tsang     << "]";
78dc6498SWhitney Tsang  return OS;
78dc6498SWhitney Tsang}
78dc6498SWhitney Tsang#endif
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang/// Represent a set of control conditions required to execute ToBB from FromBB.
78dc6498SWhitney Tsangclass ControlConditions {
78dc6498SWhitney Tsang  using ConditionVectorTy = SmallVector<ControlCondition, 6>;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  /// A SmallVector of control conditions.
78dc6498SWhitney Tsang  ConditionVectorTy Conditions;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsangpublic:
78dc6498SWhitney Tsang  /// Return a ControlConditions which stores all conditions required to execute
78dc6498SWhitney Tsang  /// \p BB from \p Dominator. If \p MaxLookup is non-zero, it limits the
78dc6498SWhitney Tsang  /// number of conditions to collect. Return None if not all conditions are
78dc6498SWhitney Tsang  /// collected successfully, or we hit the limit.
9c54b423SMichael Liao  static const Optional<ControlConditions>
78dc6498SWhitney Tsang  collectControlConditions(const BasicBlock &BB, const BasicBlock &Dominator,
78dc6498SWhitney Tsang                           const DominatorTree &DT,
78dc6498SWhitney Tsang                           const PostDominatorTree &PDT,
78dc6498SWhitney Tsang                           unsigned MaxLookup = 6);
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  /// Return true if there exists no control conditions required to execute ToBB
78dc6498SWhitney Tsang  /// from FromBB.
78dc6498SWhitney Tsang  bool isUnconditional() const { return Conditions.empty(); }
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  /// Return a constant reference of Conditions.
78dc6498SWhitney Tsang  const ConditionVectorTy &getControlConditions() const { return Conditions; }
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  /// Add \p V as one of the ControlCondition in Condition with IsTrueCondition
78dc6498SWhitney Tsang  /// equals to \p True. Return true if inserted successfully.
78dc6498SWhitney Tsang  bool addControlCondition(ControlCondition C);
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  /// Return true if for all control conditions in Conditions, there exists an
78dc6498SWhitney Tsang  /// equivalent control condition in \p Other.Conditions.
78dc6498SWhitney Tsang  bool isEquivalent(const ControlConditions &Other) const;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  /// Return true if \p C1 and \p C2 are equivalent.
78dc6498SWhitney Tsang  static bool isEquivalent(const ControlCondition &C1,
78dc6498SWhitney Tsang                           const ControlCondition &C2);
78dc6498SWhitney Tsang
78dc6498SWhitney Tsangprivate:
78dc6498SWhitney Tsang  ControlConditions() = default;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  static bool isEquivalent(const Value &V1, const Value &V2);
78dc6498SWhitney Tsang  static bool isInverse(const Value &V1, const Value &V2);
78dc6498SWhitney Tsang};
78dc6498SWhitney Tsang} // namespace
78dc6498SWhitney Tsang
e71c7b59SSharmaRithikstatic bool domTreeLevelBefore(DominatorTree *DT, const Instruction *InstA,
e71c7b59SSharmaRithik                               const Instruction *InstB) {
e71c7b59SSharmaRithik  // Use ordered basic block in case the 2 instructions are in the same
e71c7b59SSharmaRithik  // block.
e71c7b59SSharmaRithik  if (InstA->getParent() == InstB->getParent())
e71c7b59SSharmaRithik    return InstA->comesBefore(InstB);
e71c7b59SSharmaRithik
e71c7b59SSharmaRithik  DomTreeNode *DA = DT->getNode(InstA->getParent());
e71c7b59SSharmaRithik  DomTreeNode *DB = DT->getNode(InstB->getParent());
e71c7b59SSharmaRithik  return DA->getLevel() < DB->getLevel();
e71c7b59SSharmaRithik}
e71c7b59SSharmaRithik
9c54b423SMichael Liaoconst Optional<ControlConditions> ControlConditions::collectControlConditions(
78dc6498SWhitney Tsang    const BasicBlock &BB, const BasicBlock &Dominator, const DominatorTree &DT,
78dc6498SWhitney Tsang    const PostDominatorTree &PDT, unsigned MaxLookup) {
78dc6498SWhitney Tsang  assert(DT.dominates(&Dominator, &BB) && "Expecting Dominator to dominate BB");
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  ControlConditions Conditions;
78dc6498SWhitney Tsang  unsigned NumConditions = 0;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  // BB is executed unconditional from itself.
78dc6498SWhitney Tsang  if (&Dominator == &BB)
78dc6498SWhitney Tsang    return Conditions;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  const BasicBlock *CurBlock = &BB;
78dc6498SWhitney Tsang  // Walk up the dominator tree from the associated DT node for BB to the
78dc6498SWhitney Tsang  // associated DT node for Dominator.
78dc6498SWhitney Tsang  do {
78dc6498SWhitney Tsang    assert(DT.getNode(CurBlock) && "Expecting a valid DT node for CurBlock");
78dc6498SWhitney Tsang    BasicBlock *IDom = DT.getNode(CurBlock)->getIDom()->getBlock();
78dc6498SWhitney Tsang    assert(DT.dominates(&Dominator, IDom) &&
78dc6498SWhitney Tsang           "Expecting Dominator to dominate IDom");
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang    // Limitation: can only handle branch instruction currently.
78dc6498SWhitney Tsang    const BranchInst *BI = dyn_cast<BranchInst>(IDom->getTerminator());
78dc6498SWhitney Tsang    if (!BI)
78dc6498SWhitney Tsang      return None;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang    bool Inserted = false;
78dc6498SWhitney Tsang    if (PDT.dominates(CurBlock, IDom)) {
78dc6498SWhitney Tsang      LLVM_DEBUG(dbgs() << CurBlock->getName()
78dc6498SWhitney Tsang                        << " is executed unconditionally from "
78dc6498SWhitney Tsang                        << IDom->getName() << "\n");
78dc6498SWhitney Tsang    } else if (PDT.dominates(CurBlock, BI->getSuccessor(0))) {
78dc6498SWhitney Tsang      LLVM_DEBUG(dbgs() << CurBlock->getName() << " is executed when \""
78dc6498SWhitney Tsang                        << *BI->getCondition() << "\" is true from "
78dc6498SWhitney Tsang                        << IDom->getName() << "\n");
78dc6498SWhitney Tsang      Inserted = Conditions.addControlCondition(
78dc6498SWhitney Tsang          ControlCondition(BI->getCondition(), true));
78dc6498SWhitney Tsang    } else if (PDT.dominates(CurBlock, BI->getSuccessor(1))) {
78dc6498SWhitney Tsang      LLVM_DEBUG(dbgs() << CurBlock->getName() << " is executed when \""
78dc6498SWhitney Tsang                        << *BI->getCondition() << "\" is false from "
78dc6498SWhitney Tsang                        << IDom->getName() << "\n");
78dc6498SWhitney Tsang      Inserted = Conditions.addControlCondition(
78dc6498SWhitney Tsang          ControlCondition(BI->getCondition(), false));
78dc6498SWhitney Tsang    } else
78dc6498SWhitney Tsang      return None;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang    if (Inserted)
78dc6498SWhitney Tsang      ++NumConditions;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang    if (MaxLookup != 0 && NumConditions > MaxLookup)
78dc6498SWhitney Tsang      return None;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang    CurBlock = IDom;
78dc6498SWhitney Tsang  } while (CurBlock != &Dominator);
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  return Conditions;
78dc6498SWhitney Tsang}
78dc6498SWhitney Tsang
78dc6498SWhitney Tsangbool ControlConditions::addControlCondition(ControlCondition C) {
78dc6498SWhitney Tsang  bool Inserted = false;
79748addSSimon Pilgrim  if (none_of(Conditions, [&](ControlCondition &Exists) {
78dc6498SWhitney Tsang        return ControlConditions::isEquivalent(C, Exists);
78dc6498SWhitney Tsang      })) {
78dc6498SWhitney Tsang    Conditions.push_back(C);
78dc6498SWhitney Tsang    Inserted = true;
78dc6498SWhitney Tsang  }
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  LLVM_DEBUG(dbgs() << (Inserted ? "Inserted " : "Not inserted ") << C << "\n");
78dc6498SWhitney Tsang  return Inserted;
78dc6498SWhitney Tsang}
78dc6498SWhitney Tsang
78dc6498SWhitney Tsangbool ControlConditions::isEquivalent(const ControlConditions &Other) const {
78dc6498SWhitney Tsang  if (Conditions.empty() && Other.Conditions.empty())
78dc6498SWhitney Tsang    return true;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  if (Conditions.size() != Other.Conditions.size())
78dc6498SWhitney Tsang    return false;
78dc6498SWhitney Tsang
79748addSSimon Pilgrim  return all_of(Conditions, [&](const ControlCondition &C) {
79748addSSimon Pilgrim    return any_of(Other.Conditions, [&](const ControlCondition &OtherC) {
78dc6498SWhitney Tsang      return ControlConditions::isEquivalent(C, OtherC);
78dc6498SWhitney Tsang    });
78dc6498SWhitney Tsang  });
78dc6498SWhitney Tsang}
78dc6498SWhitney Tsang
78dc6498SWhitney Tsangbool ControlConditions::isEquivalent(const ControlCondition &C1,
78dc6498SWhitney Tsang                                     const ControlCondition &C2) {
78dc6498SWhitney Tsang  if (C1.getInt() == C2.getInt()) {
78dc6498SWhitney Tsang    if (isEquivalent(*C1.getPointer(), *C2.getPointer()))
78dc6498SWhitney Tsang      return true;
78dc6498SWhitney Tsang  } else if (isInverse(*C1.getPointer(), *C2.getPointer()))
78dc6498SWhitney Tsang    return true;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  return false;
78dc6498SWhitney Tsang}
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang// FIXME: Use SCEV and reuse GVN/CSE logic to check for equivalence between
78dc6498SWhitney Tsang// Values.
78dc6498SWhitney Tsang// Currently, isEquivalent rely on other passes to ensure equivalent conditions
78dc6498SWhitney Tsang// have the same value, e.g. GVN.
78dc6498SWhitney Tsangbool ControlConditions::isEquivalent(const Value &V1, const Value &V2) {
78dc6498SWhitney Tsang  return &V1 == &V2;
78dc6498SWhitney Tsang}
78dc6498SWhitney Tsang
78dc6498SWhitney Tsangbool ControlConditions::isInverse(const Value &V1, const Value &V2) {
78dc6498SWhitney Tsang  if (const CmpInst *Cmp1 = dyn_cast<CmpInst>(&V1))
78dc6498SWhitney Tsang    if (const CmpInst *Cmp2 = dyn_cast<CmpInst>(&V2)) {
78dc6498SWhitney Tsang      if (Cmp1->getPredicate() == Cmp2->getInversePredicate() &&
78dc6498SWhitney Tsang          Cmp1->getOperand(0) == Cmp2->getOperand(0) &&
78dc6498SWhitney Tsang          Cmp1->getOperand(1) == Cmp2->getOperand(1))
78dc6498SWhitney Tsang        return true;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang      if (Cmp1->getPredicate() ==
78dc6498SWhitney Tsang              CmpInst::getSwappedPredicate(Cmp2->getInversePredicate()) &&
78dc6498SWhitney Tsang          Cmp1->getOperand(0) == Cmp2->getOperand(1) &&
78dc6498SWhitney Tsang          Cmp1->getOperand(1) == Cmp2->getOperand(0))
78dc6498SWhitney Tsang        return true;
78dc6498SWhitney Tsang    }
78dc6498SWhitney Tsang  return false;
78dc6498SWhitney Tsang}
78dc6498SWhitney Tsang
ae8a8c2dSTsang Whitney W.Hbool llvm::isControlFlowEquivalent(const Instruction &I0, const Instruction &I1,
ae8a8c2dSTsang Whitney W.H                                   const DominatorTree &DT,
ae8a8c2dSTsang Whitney W.H                                   const PostDominatorTree &PDT) {
aaf7f05aSWhitney Tsang  return isControlFlowEquivalent(*I0.getParent(), *I1.getParent(), DT, PDT);
aaf7f05aSWhitney Tsang}
aaf7f05aSWhitney Tsang
aaf7f05aSWhitney Tsangbool llvm::isControlFlowEquivalent(const BasicBlock &BB0, const BasicBlock &BB1,
aaf7f05aSWhitney Tsang                                   const DominatorTree &DT,
aaf7f05aSWhitney Tsang                                   const PostDominatorTree &PDT) {
aaf7f05aSWhitney Tsang  if (&BB0 == &BB1)
aaf7f05aSWhitney Tsang    return true;
aaf7f05aSWhitney Tsang
78dc6498SWhitney Tsang  if ((DT.dominates(&BB0, &BB1) && PDT.dominates(&BB1, &BB0)) ||
78dc6498SWhitney Tsang      (PDT.dominates(&BB0, &BB1) && DT.dominates(&BB1, &BB0)))
78dc6498SWhitney Tsang    return true;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  // If the set of conditions required to execute BB0 and BB1 from their common
78dc6498SWhitney Tsang  // dominator are the same, then BB0 and BB1 are control flow equivalent.
78dc6498SWhitney Tsang  const BasicBlock *CommonDominator = DT.findNearestCommonDominator(&BB0, &BB1);
78dc6498SWhitney Tsang  LLVM_DEBUG(dbgs() << "The nearest common dominator of " << BB0.getName()
78dc6498SWhitney Tsang                    << " and " << BB1.getName() << " is "
78dc6498SWhitney Tsang                    << CommonDominator->getName() << "\n");
78dc6498SWhitney Tsang
9c54b423SMichael Liao  const Optional<ControlConditions> BB0Conditions =
78dc6498SWhitney Tsang      ControlConditions::collectControlConditions(BB0, *CommonDominator, DT,
78dc6498SWhitney Tsang                                                  PDT);
78dc6498SWhitney Tsang  if (BB0Conditions == None)
78dc6498SWhitney Tsang    return false;
78dc6498SWhitney Tsang
9c54b423SMichael Liao  const Optional<ControlConditions> BB1Conditions =
78dc6498SWhitney Tsang      ControlConditions::collectControlConditions(BB1, *CommonDominator, DT,
78dc6498SWhitney Tsang                                                  PDT);
78dc6498SWhitney Tsang  if (BB1Conditions == None)
78dc6498SWhitney Tsang    return false;
78dc6498SWhitney Tsang
78dc6498SWhitney Tsang  return BB0Conditions->isEquivalent(*BB1Conditions);
ae8a8c2dSTsang Whitney W.H}
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.Hstatic bool reportInvalidCandidate(const Instruction &I,
ae8a8c2dSTsang Whitney W.H                                   llvm::Statistic &Stat) {
ae8a8c2dSTsang Whitney W.H  ++Stat;
ae8a8c2dSTsang Whitney W.H  LLVM_DEBUG(dbgs() << "Unable to move instruction: " << I << ". "
ae8a8c2dSTsang Whitney W.H                    << Stat.getDesc());
ae8a8c2dSTsang Whitney W.H  return false;
ae8a8c2dSTsang Whitney W.H}
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H/// Collect all instructions in between \p StartInst and \p EndInst, and store
ae8a8c2dSTsang Whitney W.H/// them in \p InBetweenInsts.
ae8a8c2dSTsang Whitney W.Hstatic void
ae8a8c2dSTsang Whitney W.HcollectInstructionsInBetween(Instruction &StartInst, const Instruction &EndInst,
ae8a8c2dSTsang Whitney W.H                             SmallPtrSetImpl<Instruction *> &InBetweenInsts) {
ae8a8c2dSTsang Whitney W.H  assert(InBetweenInsts.empty() && "Expecting InBetweenInsts to be empty");
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H  /// Get the next instructions of \p I, and push them to \p WorkList.
ae8a8c2dSTsang Whitney W.H  auto getNextInsts = [](Instruction &I,
ae8a8c2dSTsang Whitney W.H                         SmallPtrSetImpl<Instruction *> &WorkList) {
ae8a8c2dSTsang Whitney W.H    if (Instruction *NextInst = I.getNextNode())
ae8a8c2dSTsang Whitney W.H      WorkList.insert(NextInst);
ae8a8c2dSTsang Whitney W.H    else {
ae8a8c2dSTsang Whitney W.H      assert(I.isTerminator() && "Expecting a terminator instruction");
ae8a8c2dSTsang Whitney W.H      for (BasicBlock *Succ : successors(&I))
ae8a8c2dSTsang Whitney W.H        WorkList.insert(&Succ->front());
ae8a8c2dSTsang Whitney W.H    }
ae8a8c2dSTsang Whitney W.H  };
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H  SmallPtrSet<Instruction *, 10> WorkList;
ae8a8c2dSTsang Whitney W.H  getNextInsts(StartInst, WorkList);
ae8a8c2dSTsang Whitney W.H  while (!WorkList.empty()) {
ae8a8c2dSTsang Whitney W.H    Instruction *CurInst = *WorkList.begin();
ae8a8c2dSTsang Whitney W.H    WorkList.erase(CurInst);
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H    if (CurInst == &EndInst)
ae8a8c2dSTsang Whitney W.H      continue;
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H    if (!InBetweenInsts.insert(CurInst).second)
ae8a8c2dSTsang Whitney W.H      continue;
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H    getNextInsts(*CurInst, WorkList);
ae8a8c2dSTsang Whitney W.H  }
ae8a8c2dSTsang Whitney W.H}
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.Hbool llvm::isSafeToMoveBefore(Instruction &I, Instruction &InsertPoint,
082e3952SSharmaRithik                              DominatorTree &DT, const PostDominatorTree *PDT,
751be2a0SCongzhe Cao                              DependenceInfo *DI, bool CheckForEntireBlock) {
082e3952SSharmaRithik  // Skip tests when we don't have PDT or DI
082e3952SSharmaRithik  if (!PDT || !DI)
082e3952SSharmaRithik    return false;
082e3952SSharmaRithik
ae8a8c2dSTsang Whitney W.H  // Cannot move itself before itself.
ae8a8c2dSTsang Whitney W.H  if (&I == &InsertPoint)
ae8a8c2dSTsang Whitney W.H    return false;
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H  // Not moved.
ae8a8c2dSTsang Whitney W.H  if (I.getNextNode() == &InsertPoint)
ae8a8c2dSTsang Whitney W.H    return true;
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H  if (isa<PHINode>(I) || isa<PHINode>(InsertPoint))
ae8a8c2dSTsang Whitney W.H    return reportInvalidCandidate(I, NotMovedPHINode);
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H  if (I.isTerminator())
ae8a8c2dSTsang Whitney W.H    return reportInvalidCandidate(I, NotMovedTerminator);
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H  // TODO remove this limitation.
082e3952SSharmaRithik  if (!isControlFlowEquivalent(I, InsertPoint, DT, *PDT))
ae8a8c2dSTsang Whitney W.H    return reportInvalidCandidate(I, NotControlFlowEquivalent);
ae8a8c2dSTsang Whitney W.H
c4277275SCongzhe Cao  if (isReachedBefore(&I, &InsertPoint, &DT, PDT))
36bdc3dcSWhitney Tsang    for (const Use &U : I.uses())
36bdc3dcSWhitney Tsang      if (auto *UserInst = dyn_cast<Instruction>(U.getUser()))
36bdc3dcSWhitney Tsang        if (UserInst != &InsertPoint && !DT.dominates(&InsertPoint, U))
ae8a8c2dSTsang Whitney W.H          return false;
c4277275SCongzhe Cao  if (isReachedBefore(&InsertPoint, &I, &DT, PDT))
ae8a8c2dSTsang Whitney W.H    for (const Value *Op : I.operands())
751be2a0SCongzhe Cao      if (auto *OpInst = dyn_cast<Instruction>(Op)) {
751be2a0SCongzhe Cao        if (&InsertPoint == OpInst)
ae8a8c2dSTsang Whitney W.H          return false;
751be2a0SCongzhe Cao        // If OpInst is an instruction that appears earlier in the same BB as
751be2a0SCongzhe Cao        // I, then it is okay to move since OpInst will still be available.
751be2a0SCongzhe Cao        if (CheckForEntireBlock && I.getParent() == OpInst->getParent() &&
751be2a0SCongzhe Cao            DT.dominates(OpInst, &I))
751be2a0SCongzhe Cao          continue;
751be2a0SCongzhe Cao        if (!DT.dominates(OpInst, &InsertPoint))
751be2a0SCongzhe Cao          return false;
751be2a0SCongzhe Cao      }
ae8a8c2dSTsang Whitney W.H
eadf2959SRithik Sharma  DT.updateDFSNumbers();
e71c7b59SSharmaRithik  const bool MoveForward = domTreeLevelBefore(&DT, &I, &InsertPoint);
ae8a8c2dSTsang Whitney W.H  Instruction &StartInst = (MoveForward ? I : InsertPoint);
ae8a8c2dSTsang Whitney W.H  Instruction &EndInst = (MoveForward ? InsertPoint : I);
ae8a8c2dSTsang Whitney W.H  SmallPtrSet<Instruction *, 10> InstsToCheck;
ae8a8c2dSTsang Whitney W.H  collectInstructionsInBetween(StartInst, EndInst, InstsToCheck);
ae8a8c2dSTsang Whitney W.H  if (!MoveForward)
ae8a8c2dSTsang Whitney W.H    InstsToCheck.insert(&InsertPoint);
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H  // Check if there exists instructions which may throw, may synchonize, or may
ae8a8c2dSTsang Whitney W.H  // never return, from I to InsertPoint.
ae8a8c2dSTsang Whitney W.H  if (!isSafeToSpeculativelyExecute(&I))
df812115SKazu Hirata    if (llvm::any_of(InstsToCheck, [](Instruction *I) {
ae8a8c2dSTsang Whitney W.H          if (I->mayThrow())
ae8a8c2dSTsang Whitney W.H            return true;
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H          const CallBase *CB = dyn_cast<CallBase>(I);
ae8a8c2dSTsang Whitney W.H          if (!CB)
ae8a8c2dSTsang Whitney W.H            return false;
ae8a8c2dSTsang Whitney W.H          if (!CB->hasFnAttr(Attribute::WillReturn))
ae8a8c2dSTsang Whitney W.H            return true;
ae8a8c2dSTsang Whitney W.H          if (!CB->hasFnAttr(Attribute::NoSync))
ae8a8c2dSTsang Whitney W.H            return true;
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H          return false;
ae8a8c2dSTsang Whitney W.H        })) {
ae8a8c2dSTsang Whitney W.H      return reportInvalidCandidate(I, MayThrowException);
ae8a8c2dSTsang Whitney W.H    }
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H  // Check if I has any output/flow/anti dependences with instructions from \p
ae8a8c2dSTsang Whitney W.H  // StartInst to \p EndInst.
df812115SKazu Hirata  if (llvm::any_of(InstsToCheck, [&DI, &I](Instruction *CurInst) {
082e3952SSharmaRithik        auto DepResult = DI->depends(&I, CurInst, true);
df812115SKazu Hirata        if (DepResult && (DepResult->isOutput() || DepResult->isFlow() ||
ae8a8c2dSTsang Whitney W.H                          DepResult->isAnti()))
ae8a8c2dSTsang Whitney W.H          return true;
ae8a8c2dSTsang Whitney W.H        return false;
ae8a8c2dSTsang Whitney W.H      }))
ae8a8c2dSTsang Whitney W.H    return reportInvalidCandidate(I, HasDependences);
ae8a8c2dSTsang Whitney W.H
ae8a8c2dSTsang Whitney W.H  return true;
ae8a8c2dSTsang Whitney W.H}
36bdc3dcSWhitney Tsang
da58e68fSWhitney Tsangbool llvm::isSafeToMoveBefore(BasicBlock &BB, Instruction &InsertPoint,
082e3952SSharmaRithik                              DominatorTree &DT, const PostDominatorTree *PDT,
082e3952SSharmaRithik                              DependenceInfo *DI) {
da58e68fSWhitney Tsang  return llvm::all_of(BB, [&](Instruction &I) {
da58e68fSWhitney Tsang    if (BB.getTerminator() == &I)
da58e68fSWhitney Tsang      return true;
da58e68fSWhitney Tsang
751be2a0SCongzhe Cao    return isSafeToMoveBefore(I, InsertPoint, DT, PDT, DI,
751be2a0SCongzhe Cao                              /*CheckForEntireBlock=*/true);
da58e68fSWhitney Tsang  });
da58e68fSWhitney Tsang}
da58e68fSWhitney Tsang
78dc6498SWhitney Tsangvoid llvm::moveInstructionsToTheBeginning(BasicBlock &FromBB, BasicBlock &ToBB,
78dc6498SWhitney Tsang                                          DominatorTree &DT,
78dc6498SWhitney Tsang                                          const PostDominatorTree &PDT,
78dc6498SWhitney Tsang                                          DependenceInfo &DI) {
*1b108ab9SKazu Hirata  for (Instruction &I :
*1b108ab9SKazu Hirata       llvm::make_early_inc_range(llvm::drop_begin(llvm::reverse(FromBB)))) {
36bdc3dcSWhitney Tsang    Instruction *MovePos = ToBB.getFirstNonPHIOrDbg();
36bdc3dcSWhitney Tsang
082e3952SSharmaRithik    if (isSafeToMoveBefore(I, *MovePos, DT, &PDT, &DI))
36bdc3dcSWhitney Tsang      I.moveBefore(MovePos);
36bdc3dcSWhitney Tsang  }
36bdc3dcSWhitney Tsang}
da58e68fSWhitney Tsang
da58e68fSWhitney Tsangvoid llvm::moveInstructionsToTheEnd(BasicBlock &FromBB, BasicBlock &ToBB,
da58e68fSWhitney Tsang                                    DominatorTree &DT,
da58e68fSWhitney Tsang                                    const PostDominatorTree &PDT,
da58e68fSWhitney Tsang                                    DependenceInfo &DI) {
da58e68fSWhitney Tsang  Instruction *MovePos = ToBB.getTerminator();
da58e68fSWhitney Tsang  while (FromBB.size() > 1) {
da58e68fSWhitney Tsang    Instruction &I = FromBB.front();
082e3952SSharmaRithik    if (isSafeToMoveBefore(I, *MovePos, DT, &PDT, &DI))
da58e68fSWhitney Tsang      I.moveBefore(MovePos);
da58e68fSWhitney Tsang  }
da58e68fSWhitney Tsang}
c4277275SCongzhe Cao
c4277275SCongzhe Caobool llvm::nonStrictlyPostDominate(const BasicBlock *ThisBlock,
c4277275SCongzhe Cao                                   const BasicBlock *OtherBlock,
c4277275SCongzhe Cao                                   const DominatorTree *DT,
c4277275SCongzhe Cao                                   const PostDominatorTree *PDT) {
c4277275SCongzhe Cao  assert(isControlFlowEquivalent(*ThisBlock, *OtherBlock, *DT, *PDT) &&
c4277275SCongzhe Cao         "ThisBlock and OtherBlock must be CFG equivalent!");
c4277275SCongzhe Cao  const BasicBlock *CommonDominator =
c4277275SCongzhe Cao      DT->findNearestCommonDominator(ThisBlock, OtherBlock);
c4277275SCongzhe Cao  if (CommonDominator == nullptr)
c4277275SCongzhe Cao    return false;
c4277275SCongzhe Cao
c4277275SCongzhe Cao  /// Recursively check the predecessors of \p ThisBlock up to
c4277275SCongzhe Cao  /// their common dominator, and see if any of them post-dominates
c4277275SCongzhe Cao  /// \p OtherBlock.
c4277275SCongzhe Cao  SmallVector<const BasicBlock *, 8> WorkList;
c4277275SCongzhe Cao  SmallPtrSet<const BasicBlock *, 8> Visited;
c4277275SCongzhe Cao  WorkList.push_back(ThisBlock);
c4277275SCongzhe Cao  while (!WorkList.empty()) {
c4277275SCongzhe Cao    const BasicBlock *CurBlock = WorkList.back();
c4277275SCongzhe Cao    WorkList.pop_back();
c4277275SCongzhe Cao    Visited.insert(CurBlock);
c4277275SCongzhe Cao    if (PDT->dominates(CurBlock, OtherBlock))
c4277275SCongzhe Cao      return true;
c4277275SCongzhe Cao
c4277275SCongzhe Cao    for (auto *Pred : predecessors(CurBlock)) {
c4277275SCongzhe Cao      if (Pred == CommonDominator || Visited.count(Pred))
c4277275SCongzhe Cao        continue;
c4277275SCongzhe Cao      WorkList.push_back(Pred);
c4277275SCongzhe Cao    }
c4277275SCongzhe Cao  }
c4277275SCongzhe Cao  return false;
c4277275SCongzhe Cao}
c4277275SCongzhe Cao
c4277275SCongzhe Caobool llvm::isReachedBefore(const Instruction *I0, const Instruction *I1,
c4277275SCongzhe Cao                           const DominatorTree *DT,
c4277275SCongzhe Cao                           const PostDominatorTree *PDT) {
c4277275SCongzhe Cao  const BasicBlock *BB0 = I0->getParent();
c4277275SCongzhe Cao  const BasicBlock *BB1 = I1->getParent();
c4277275SCongzhe Cao  if (BB0 == BB1)
c4277275SCongzhe Cao    return DT->dominates(I0, I1);
c4277275SCongzhe Cao
c4277275SCongzhe Cao  return nonStrictlyPostDominate(BB1, BB0, DT, PDT);
c4277275SCongzhe Cao}