lib/CodeGen/ImplicitNullChecks.cpp

900b6335SEugene Zelenko//===- ImplicitNullChecks.cpp - Fold null checks into memory accesses -----===//
69fad079SSanjoy Das//
2946cd70SChandler Carruth// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
2946cd70SChandler Carruth// See https://llvm.org/LICENSE.txt for license information.
2946cd70SChandler Carruth// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
69fad079SSanjoy Das//
69fad079SSanjoy Das//===----------------------------------------------------------------------===//
69fad079SSanjoy Das//
69fad079SSanjoy Das// This pass turns explicit null checks of the form
69fad079SSanjoy Das//
69fad079SSanjoy Das//   test %r10, %r10
69fad079SSanjoy Das//   je throw_npe
69fad079SSanjoy Das//   movl (%r10), %esi
69fad079SSanjoy Das//   ...
69fad079SSanjoy Das//
69fad079SSanjoy Das// to
69fad079SSanjoy Das//
69fad079SSanjoy Das//   faulting_load_op("movl (%r10), %esi", throw_npe)
69fad079SSanjoy Das//   ...
69fad079SSanjoy Das//
69fad079SSanjoy Das// With the help of a runtime that understands the .fault_maps section,
69fad079SSanjoy Das// faulting_load_op branches to throw_npe if executing movl (%r10), %esi incurs
69fad079SSanjoy Das// a page fault.
51c220cbSSerguei Katkov// Store and LoadStore are also supported.
69fad079SSanjoy Das//
69fad079SSanjoy Das//===----------------------------------------------------------------------===//
69fad079SSanjoy Das
900b6335SEugene Zelenko#include "llvm/ADT/ArrayRef.h"
900b6335SEugene Zelenko#include "llvm/ADT/None.h"
900b6335SEugene Zelenko#include "llvm/ADT/Optional.h"
900b6335SEugene Zelenko#include "llvm/ADT/STLExtras.h"
69fad079SSanjoy Das#include "llvm/ADT/SmallVector.h"
8ee6a30bSSanjoy Das#include "llvm/ADT/Statistic.h"
e57bf680SSanjoy Das#include "llvm/Analysis/AliasAnalysis.h"
900b6335SEugene Zelenko#include "llvm/Analysis/MemoryLocation.h"
2f63cbccSSanjoy Das#include "llvm/CodeGen/FaultMaps.h"
900b6335SEugene Zelenko#include "llvm/CodeGen/MachineBasicBlock.h"
69fad079SSanjoy Das#include "llvm/CodeGen/MachineFunction.h"
69fad079SSanjoy Das#include "llvm/CodeGen/MachineFunctionPass.h"
900b6335SEugene Zelenko#include "llvm/CodeGen/MachineInstr.h"
69fad079SSanjoy Das#include "llvm/CodeGen/MachineInstrBuilder.h"
6bda14b3SChandler Carruth#include "llvm/CodeGen/MachineMemOperand.h"
6bda14b3SChandler Carruth#include "llvm/CodeGen/MachineOperand.h"
6bda14b3SChandler Carruth#include "llvm/CodeGen/MachineRegisterInfo.h"
900b6335SEugene Zelenko#include "llvm/CodeGen/PseudoSourceValue.h"
3f833edcSDavid Blaikie#include "llvm/CodeGen/TargetInstrInfo.h"
b3bde2eaSDavid Blaikie#include "llvm/CodeGen/TargetOpcodes.h"
b3bde2eaSDavid Blaikie#include "llvm/CodeGen/TargetRegisterInfo.h"
b3bde2eaSDavid Blaikie#include "llvm/CodeGen/TargetSubtargetInfo.h"
69fad079SSanjoy Das#include "llvm/IR/BasicBlock.h"
900b6335SEugene Zelenko#include "llvm/IR/DebugLoc.h"
00038784SChen Li#include "llvm/IR/LLVMContext.h"
*05da2fe5SReid Kleckner#include "llvm/InitializePasses.h"
900b6335SEugene Zelenko#include "llvm/MC/MCInstrDesc.h"
900b6335SEugene Zelenko#include "llvm/MC/MCRegisterInfo.h"
900b6335SEugene Zelenko#include "llvm/Pass.h"
69fad079SSanjoy Das#include "llvm/Support/CommandLine.h"
900b6335SEugene Zelenko#include <cassert>
900b6335SEugene Zelenko#include <cstdint>
900b6335SEugene Zelenko#include <iterator>
69fad079SSanjoy Das
69fad079SSanjoy Dasusing namespace llvm;
69fad079SSanjoy Das
c27a18f3SChad Rosierstatic cl::opt<int> PageSize("imp-null-check-page-size",
c27a18f3SChad Rosier                             cl::desc("The page size of the target in bytes"),
8065f0b9SZachary Turner                             cl::init(4096), cl::Hidden);
69fad079SSanjoy Das
9a129807SSanjoy Dasstatic cl::opt<unsigned> MaxInstsToConsider(
9a129807SSanjoy Das    "imp-null-max-insts-to-consider",
9a129807SSanjoy Das    cl::desc("The max number of instructions to consider hoisting loads over "
9a129807SSanjoy Das             "(the algorithm is quadratic over this number)"),
8065f0b9SZachary Turner    cl::Hidden, cl::init(8));
9a129807SSanjoy Das
8ee6a30bSSanjoy Das#define DEBUG_TYPE "implicit-null-checks"
8ee6a30bSSanjoy Das
8ee6a30bSSanjoy DasSTATISTIC(NumImplicitNullChecks,
8ee6a30bSSanjoy Das          "Number of explicit null checks made implicit");
8ee6a30bSSanjoy Das
69fad079SSanjoy Dasnamespace {
69fad079SSanjoy Das
69fad079SSanjoy Dasclass ImplicitNullChecks : public MachineFunctionPass {
9a129807SSanjoy Das  /// Return true if \c computeDependence can process \p MI.
9a129807SSanjoy Das  static bool canHandle(const MachineInstr *MI);
9a129807SSanjoy Das
9a129807SSanjoy Das  /// Helper function for \c computeDependence.  Return true if \p A
9a129807SSanjoy Das  /// and \p B do not have any dependences between them, and can be
9a129807SSanjoy Das  /// re-ordered without changing program semantics.
9a129807SSanjoy Das  bool canReorder(const MachineInstr *A, const MachineInstr *B);
9a129807SSanjoy Das
9a129807SSanjoy Das  /// A data type for representing the result computed by \c
9a129807SSanjoy Das  /// computeDependence.  States whether it is okay to reorder the
9a129807SSanjoy Das  /// instruction passed to \c computeDependence with at most one
58963e43SFangrui Song  /// dependency.
9a129807SSanjoy Das  struct DependenceResult {
9a129807SSanjoy Das    /// Can we actually re-order \p MI with \p Insts (see \c
9a129807SSanjoy Das    /// computeDependence).
9a129807SSanjoy Das    bool CanReorder;
9a129807SSanjoy Das
9a129807SSanjoy Das    /// If non-None, then an instruction in \p Insts that also must be
9a129807SSanjoy Das    /// hoisted.
9a129807SSanjoy Das    Optional<ArrayRef<MachineInstr *>::iterator> PotentialDependence;
9a129807SSanjoy Das
9a129807SSanjoy Das    /*implicit*/ DependenceResult(
9a129807SSanjoy Das        bool CanReorder,
9a129807SSanjoy Das        Optional<ArrayRef<MachineInstr *>::iterator> PotentialDependence)
9a129807SSanjoy Das        : CanReorder(CanReorder), PotentialDependence(PotentialDependence) {
9a129807SSanjoy Das      assert((!PotentialDependence || CanReorder) &&
9a129807SSanjoy Das             "!CanReorder && PotentialDependence.hasValue() not allowed!");
9a129807SSanjoy Das    }
9a129807SSanjoy Das  };
9a129807SSanjoy Das
9a129807SSanjoy Das  /// Compute a result for the following question: can \p MI be
9a129807SSanjoy Das  /// re-ordered from after \p Insts to before it.
9a129807SSanjoy Das  ///
9a129807SSanjoy Das  /// \c canHandle should return true for all instructions in \p
9a129807SSanjoy Das  /// Insts.
9a129807SSanjoy Das  DependenceResult computeDependence(const MachineInstr *MI,
cb0bab86SFangrui Song                                     ArrayRef<MachineInstr *> Block);
9a129807SSanjoy Das
69fad079SSanjoy Das  /// Represents one null check that can be made implicit.
e173b9aeSSanjoy Das  class NullCheck {
69fad079SSanjoy Das    // The memory operation the null check can be folded into.
69fad079SSanjoy Das    MachineInstr *MemOperation;
69fad079SSanjoy Das
69fad079SSanjoy Das    // The instruction actually doing the null check (Ptr != 0).
69fad079SSanjoy Das    MachineInstr *CheckOperation;
69fad079SSanjoy Das
69fad079SSanjoy Das    // The block the check resides in.
69fad079SSanjoy Das    MachineBasicBlock *CheckBlock;
69fad079SSanjoy Das
572e03a3SEric Christopher    // The block branched to if the pointer is non-null.
69fad079SSanjoy Das    MachineBasicBlock *NotNullSucc;
69fad079SSanjoy Das
572e03a3SEric Christopher    // The block branched to if the pointer is null.
69fad079SSanjoy Das    MachineBasicBlock *NullSucc;
69fad079SSanjoy Das
0909ca13SHiroshi Inoue    // If this is non-null, then MemOperation has a dependency on this
e57bf680SSanjoy Das    // instruction; and it needs to be hoisted to execute before MemOperation.
e57bf680SSanjoy Das    MachineInstr *OnlyDependency;
e57bf680SSanjoy Das
e173b9aeSSanjoy Das  public:
69fad079SSanjoy Das    explicit NullCheck(MachineInstr *memOperation, MachineInstr *checkOperation,
69fad079SSanjoy Das                       MachineBasicBlock *checkBlock,
69fad079SSanjoy Das                       MachineBasicBlock *notNullSucc,
e57bf680SSanjoy Das                       MachineBasicBlock *nullSucc,
e57bf680SSanjoy Das                       MachineInstr *onlyDependency)
69fad079SSanjoy Das        : MemOperation(memOperation), CheckOperation(checkOperation),
e57bf680SSanjoy Das          CheckBlock(checkBlock), NotNullSucc(notNullSucc), NullSucc(nullSucc),
e57bf680SSanjoy Das          OnlyDependency(onlyDependency) {}
e173b9aeSSanjoy Das
e173b9aeSSanjoy Das    MachineInstr *getMemOperation() const { return MemOperation; }
e173b9aeSSanjoy Das
e173b9aeSSanjoy Das    MachineInstr *getCheckOperation() const { return CheckOperation; }
e173b9aeSSanjoy Das
e173b9aeSSanjoy Das    MachineBasicBlock *getCheckBlock() const { return CheckBlock; }
e173b9aeSSanjoy Das
e173b9aeSSanjoy Das    MachineBasicBlock *getNotNullSucc() const { return NotNullSucc; }
e173b9aeSSanjoy Das
e173b9aeSSanjoy Das    MachineBasicBlock *getNullSucc() const { return NullSucc; }
e57bf680SSanjoy Das
e57bf680SSanjoy Das    MachineInstr *getOnlyDependency() const { return OnlyDependency; }
69fad079SSanjoy Das  };
69fad079SSanjoy Das
69fad079SSanjoy Das  const TargetInstrInfo *TII = nullptr;
69fad079SSanjoy Das  const TargetRegisterInfo *TRI = nullptr;
e57bf680SSanjoy Das  AliasAnalysis *AA = nullptr;
eef785c1SSanjoy Das  MachineFrameInfo *MFI = nullptr;
69fad079SSanjoy Das
69fad079SSanjoy Das  bool analyzeBlockForNullChecks(MachineBasicBlock &MBB,
69fad079SSanjoy Das                                 SmallVectorImpl<NullCheck> &NullCheckList);
2f63cbccSSanjoy Das  MachineInstr *insertFaultingInstr(MachineInstr *MI, MachineBasicBlock *MBB,
4e1d389aSQuentin Colombet                                    MachineBasicBlock *HandlerMBB);
69fad079SSanjoy Das  void rewriteNullChecks(ArrayRef<NullCheck> NullCheckList);
69fad079SSanjoy Das
eef785c1SSanjoy Das  enum AliasResult {
eef785c1SSanjoy Das    AR_NoAlias,
eef785c1SSanjoy Das    AR_MayAlias,
eef785c1SSanjoy Das    AR_WillAliasEverything
eef785c1SSanjoy Das  };
900b6335SEugene Zelenko
eef785c1SSanjoy Das  /// Returns AR_NoAlias if \p MI memory operation does not alias with
eef785c1SSanjoy Das  /// \p PrevMI, AR_MayAlias if they may alias and AR_WillAliasEverything if
eef785c1SSanjoy Das  /// they may alias and any further memory operation may alias with \p PrevMI.
238c9d63SBjorn Pettersson  AliasResult areMemoryOpsAliased(const MachineInstr &MI,
238c9d63SBjorn Pettersson                                  const MachineInstr *PrevMI) const;
15e50b51SSanjoy Das
eef785c1SSanjoy Das  enum SuitabilityResult {
eef785c1SSanjoy Das    SR_Suitable,
eef785c1SSanjoy Das    SR_Unsuitable,
eef785c1SSanjoy Das    SR_Impossible
eef785c1SSanjoy Das  };
900b6335SEugene Zelenko
15e50b51SSanjoy Das  /// Return SR_Suitable if \p MI a memory operation that can be used to
15e50b51SSanjoy Das  /// implicitly null check the value in \p PointerReg, SR_Unsuitable if
15e50b51SSanjoy Das  /// \p MI cannot be used to null check and SR_Impossible if there is
15e50b51SSanjoy Das  /// no sense to continue lookup due to any other instruction will not be able
15e50b51SSanjoy Das  /// to be used. \p PrevInsts is the set of instruction seen since
eef785c1SSanjoy Das  /// the explicit null check on \p PointerReg.
238c9d63SBjorn Pettersson  SuitabilityResult isSuitableMemoryOp(const MachineInstr &MI,
238c9d63SBjorn Pettersson                                       unsigned PointerReg,
eef785c1SSanjoy Das                                       ArrayRef<MachineInstr *> PrevInsts);
50fef432SSanjoy Das
8f976ba0SHiroshi Inoue  /// Return true if \p FaultingMI can be hoisted from after the
50fef432SSanjoy Das  /// instructions in \p InstsSeenSoFar to before them.  Set \p Dependence to a
50fef432SSanjoy Das  /// non-null value if we also need to (and legally can) hoist a depedency.
2f63cbccSSanjoy Das  bool canHoistInst(MachineInstr *FaultingMI, unsigned PointerReg,
50fef432SSanjoy Das                    ArrayRef<MachineInstr *> InstsSeenSoFar,
50fef432SSanjoy Das                    MachineBasicBlock *NullSucc, MachineInstr *&Dependence);
50fef432SSanjoy Das
69fad079SSanjoy Daspublic:
69fad079SSanjoy Das  static char ID;
69fad079SSanjoy Das
69fad079SSanjoy Das  ImplicitNullChecks() : MachineFunctionPass(ID) {
69fad079SSanjoy Das    initializeImplicitNullChecksPass(*PassRegistry::getPassRegistry());
69fad079SSanjoy Das  }
69fad079SSanjoy Das
69fad079SSanjoy Das  bool runOnMachineFunction(MachineFunction &MF) override;
900b6335SEugene Zelenko
e57bf680SSanjoy Das  void getAnalysisUsage(AnalysisUsage &AU) const override {
e57bf680SSanjoy Das    AU.addRequired<AAResultsWrapperPass>();
e57bf680SSanjoy Das    MachineFunctionPass::getAnalysisUsage(AU);
e57bf680SSanjoy Das  }
ad154c83SDerek Schuff
ad154c83SDerek Schuff  MachineFunctionProperties getRequiredProperties() const override {
ad154c83SDerek Schuff    return MachineFunctionProperties().set(
1eb47368SMatthias Braun        MachineFunctionProperties::Property::NoVRegs);
ad154c83SDerek Schuff  }
69fad079SSanjoy Das};
edc394f1SSanjoy Das
900b6335SEugene Zelenko} // end anonymous namespace
e57bf680SSanjoy Das
9a129807SSanjoy Dasbool ImplicitNullChecks::canHandle(const MachineInstr *MI) {
6c5d5ce5SUlrich Weigand  if (MI->isCall() || MI->mayRaiseFPException() ||
6c5d5ce5SUlrich Weigand      MI->hasUnmodeledSideEffects())
9a129807SSanjoy Das    return false;
9a129807SSanjoy Das  auto IsRegMask = [](const MachineOperand &MO) { return MO.isRegMask(); };
9a129807SSanjoy Das  (void)IsRegMask;
edc394f1SSanjoy Das
9a129807SSanjoy Das  assert(!llvm::any_of(MI->operands(), IsRegMask) &&
9a129807SSanjoy Das         "Calls were filtered out above!");
edc394f1SSanjoy Das
21a50ccfSPhilip Reames  auto IsUnordered = [](MachineMemOperand *MMO) { return MMO->isUnordered(); };
21a50ccfSPhilip Reames  return llvm::all_of(MI->memoperands(), IsUnordered);
edc394f1SSanjoy Das}
edc394f1SSanjoy Das
9a129807SSanjoy DasImplicitNullChecks::DependenceResult
9a129807SSanjoy DasImplicitNullChecks::computeDependence(const MachineInstr *MI,
9a129807SSanjoy Das                                      ArrayRef<MachineInstr *> Block) {
9a129807SSanjoy Das  assert(llvm::all_of(Block, canHandle) && "Check this first!");
900b6335SEugene Zelenko  assert(!is_contained(Block, MI) && "Block must be exclusive of MI!");
edc394f1SSanjoy Das
9a129807SSanjoy Das  Optional<ArrayRef<MachineInstr *>::iterator> Dep;
edc394f1SSanjoy Das
9a129807SSanjoy Das  for (auto I = Block.begin(), E = Block.end(); I != E; ++I) {
9a129807SSanjoy Das    if (canReorder(*I, MI))
edc394f1SSanjoy Das      continue;
edc394f1SSanjoy Das
9a129807SSanjoy Das    if (Dep == None) {
9a129807SSanjoy Das      // Found one possible dependency, keep track of it.
9a129807SSanjoy Das      Dep = I;
9a129807SSanjoy Das    } else {
9a129807SSanjoy Das      // We found two dependencies, so bail out.
9a129807SSanjoy Das      return {false, None};
edc394f1SSanjoy Das    }
edc394f1SSanjoy Das  }
edc394f1SSanjoy Das
9a129807SSanjoy Das  return {true, Dep};
9a129807SSanjoy Das}
edc394f1SSanjoy Das
9a129807SSanjoy Dasbool ImplicitNullChecks::canReorder(const MachineInstr *A,
9a129807SSanjoy Das                                    const MachineInstr *B) {
9a129807SSanjoy Das  assert(canHandle(A) && canHandle(B) && "Precondition!");
edc394f1SSanjoy Das
9a129807SSanjoy Das  // canHandle makes sure that we _can_ correctly analyze the dependencies
9a129807SSanjoy Das  // between A and B here -- for instance, we should not be dealing with heap
9a129807SSanjoy Das  // load-store dependencies here.
9a129807SSanjoy Das
9a129807SSanjoy Das  for (auto MOA : A->operands()) {
9a129807SSanjoy Das    if (!(MOA.isReg() && MOA.getReg()))
e57bf680SSanjoy Das      continue;
e57bf680SSanjoy Das
0c476111SDaniel Sanders    Register RegA = MOA.getReg();
9a129807SSanjoy Das    for (auto MOB : B->operands()) {
9a129807SSanjoy Das      if (!(MOB.isReg() && MOB.getReg()))
e57bf680SSanjoy Das        continue;
9a129807SSanjoy Das
0c476111SDaniel Sanders      Register RegB = MOB.getReg();
9a129807SSanjoy Das
08da2e28SSanjoy Das      if (TRI->regsOverlap(RegA, RegB) && (MOA.isDef() || MOB.isDef()))
e57bf680SSanjoy Das        return false;
e57bf680SSanjoy Das    }
edc394f1SSanjoy Das  }
edc394f1SSanjoy Das
edc394f1SSanjoy Das  return true;
f00654e3SAlexander Kornienko}
69fad079SSanjoy Das
69fad079SSanjoy Dasbool ImplicitNullChecks::runOnMachineFunction(MachineFunction &MF) {
69fad079SSanjoy Das  TII = MF.getSubtarget().getInstrInfo();
69fad079SSanjoy Das  TRI = MF.getRegInfo().getTargetRegisterInfo();
eef785c1SSanjoy Das  MFI = &MF.getFrameInfo();
e57bf680SSanjoy Das  AA = &getAnalysis<AAResultsWrapperPass>().getAAResults();
69fad079SSanjoy Das
69fad079SSanjoy Das  SmallVector<NullCheck, 16> NullCheckList;
69fad079SSanjoy Das
69fad079SSanjoy Das  for (auto &MBB : MF)
69fad079SSanjoy Das    analyzeBlockForNullChecks(MBB, NullCheckList);
69fad079SSanjoy Das
69fad079SSanjoy Das  if (!NullCheckList.empty())
69fad079SSanjoy Das    rewriteNullChecks(NullCheckList);
69fad079SSanjoy Das
69fad079SSanjoy Das  return !NullCheckList.empty();
69fad079SSanjoy Das}
69fad079SSanjoy Das
e57bf680SSanjoy Das// Return true if any register aliasing \p Reg is live-in into \p MBB.
e57bf680SSanjoy Dasstatic bool AnyAliasLiveIn(const TargetRegisterInfo *TRI,
e57bf680SSanjoy Das                           MachineBasicBlock *MBB, unsigned Reg) {
e57bf680SSanjoy Das  for (MCRegAliasIterator AR(Reg, TRI, /*IncludeSelf*/ true); AR.isValid();
e57bf680SSanjoy Das       ++AR)
e57bf680SSanjoy Das    if (MBB->isLiveIn(*AR))
e57bf680SSanjoy Das      return true;
e57bf680SSanjoy Das  return false;
e57bf680SSanjoy Das}
e57bf680SSanjoy Das
eef785c1SSanjoy DasImplicitNullChecks::AliasResult
238c9d63SBjorn PetterssonImplicitNullChecks::areMemoryOpsAliased(const MachineInstr &MI,
238c9d63SBjorn Pettersson                                        const MachineInstr *PrevMI) const {
eef785c1SSanjoy Das  // If it is not memory access, skip the check.
eef785c1SSanjoy Das  if (!(PrevMI->mayStore() || PrevMI->mayLoad()))
eef785c1SSanjoy Das    return AR_NoAlias;
eef785c1SSanjoy Das  // Load-Load may alias
eef785c1SSanjoy Das  if (!(MI.mayStore() || PrevMI->mayStore()))
eef785c1SSanjoy Das    return AR_NoAlias;
eef785c1SSanjoy Das  // We lost info, conservatively alias. If it was store then no sense to
eef785c1SSanjoy Das  // continue because we won't be able to check against it further.
eef785c1SSanjoy Das  if (MI.memoperands_empty())
eef785c1SSanjoy Das    return MI.mayStore() ? AR_WillAliasEverything : AR_MayAlias;
eef785c1SSanjoy Das  if (PrevMI->memoperands_empty())
eef785c1SSanjoy Das    return PrevMI->mayStore() ? AR_WillAliasEverything : AR_MayAlias;
eef785c1SSanjoy Das
eef785c1SSanjoy Das  for (MachineMemOperand *MMO1 : MI.memoperands()) {
eef785c1SSanjoy Das    // MMO1 should have a value due it comes from operation we'd like to use
eef785c1SSanjoy Das    // as implicit null check.
eef785c1SSanjoy Das    assert(MMO1->getValue() && "MMO1 should have a Value!");
eef785c1SSanjoy Das    for (MachineMemOperand *MMO2 : PrevMI->memoperands()) {
eef785c1SSanjoy Das      if (const PseudoSourceValue *PSV = MMO2->getPseudoValue()) {
eef785c1SSanjoy Das        if (PSV->mayAlias(MFI))
eef785c1SSanjoy Das          return AR_MayAlias;
eef785c1SSanjoy Das        continue;
eef785c1SSanjoy Das      }
6ef8002cSGeorge Burgess IV      llvm::AliasResult AAResult =
6ef8002cSGeorge Burgess IV          AA->alias(MemoryLocation(MMO1->getValue(), LocationSize::unknown(),
eef785c1SSanjoy Das                                   MMO1->getAAInfo()),
6ef8002cSGeorge Burgess IV                    MemoryLocation(MMO2->getValue(), LocationSize::unknown(),
eef785c1SSanjoy Das                                   MMO2->getAAInfo()));
eef785c1SSanjoy Das      if (AAResult != NoAlias)
eef785c1SSanjoy Das        return AR_MayAlias;
eef785c1SSanjoy Das    }
eef785c1SSanjoy Das  }
eef785c1SSanjoy Das  return AR_NoAlias;
eef785c1SSanjoy Das}
eef785c1SSanjoy Das
15e50b51SSanjoy DasImplicitNullChecks::SuitabilityResult
238c9d63SBjorn PetterssonImplicitNullChecks::isSuitableMemoryOp(const MachineInstr &MI,
238c9d63SBjorn Pettersson                                       unsigned PointerReg,
eef785c1SSanjoy Das                                       ArrayRef<MachineInstr *> PrevInsts) {
50fef432SSanjoy Das  int64_t Offset;
238c9d63SBjorn Pettersson  const MachineOperand *BaseOp;
50fef432SSanjoy Das
d7eebd6dSFrancis Visoiu Mistrih  if (!TII->getMemOperandWithOffset(MI, BaseOp, Offset, TRI) ||
d7eebd6dSFrancis Visoiu Mistrih      !BaseOp->isReg() || BaseOp->getReg() != PointerReg)
eef785c1SSanjoy Das    return SR_Unsuitable;
50fef432SSanjoy Das
2f63cbccSSanjoy Das  // We want the mem access to be issued at a sane offset from PointerReg,
2f63cbccSSanjoy Das  // so that if PointerReg is null then the access reliably page faults.
2f63cbccSSanjoy Das  if (!((MI.mayLoad() || MI.mayStore()) && !MI.isPredicable() &&
a18b0b18SYichao Yu        -PageSize < Offset && Offset < PageSize))
eef785c1SSanjoy Das    return SR_Unsuitable;
50fef432SSanjoy Das
0b0dc57dSSerguei Katkov  // Finally, check whether the current memory access aliases with previous one.
0b0dc57dSSerguei Katkov  for (auto *PrevMI : PrevInsts) {
eef785c1SSanjoy Das    AliasResult AR = areMemoryOpsAliased(MI, PrevMI);
eef785c1SSanjoy Das    if (AR == AR_WillAliasEverything)
eef785c1SSanjoy Das      return SR_Impossible;
eef785c1SSanjoy Das    if (AR == AR_MayAlias)
0b0dc57dSSerguei Katkov      return SR_Unsuitable;
eef785c1SSanjoy Das  }
0b0dc57dSSerguei Katkov  return SR_Suitable;
50fef432SSanjoy Das}
50fef432SSanjoy Das
2f63cbccSSanjoy Dasbool ImplicitNullChecks::canHoistInst(MachineInstr *FaultingMI,
2f63cbccSSanjoy Das                                      unsigned PointerReg,
2f63cbccSSanjoy Das                                      ArrayRef<MachineInstr *> InstsSeenSoFar,
2f63cbccSSanjoy Das                                      MachineBasicBlock *NullSucc,
50fef432SSanjoy Das                                      MachineInstr *&Dependence) {
50fef432SSanjoy Das  auto DepResult = computeDependence(FaultingMI, InstsSeenSoFar);
50fef432SSanjoy Das  if (!DepResult.CanReorder)
50fef432SSanjoy Das    return false;
50fef432SSanjoy Das
50fef432SSanjoy Das  if (!DepResult.PotentialDependence) {
50fef432SSanjoy Das    Dependence = nullptr;
50fef432SSanjoy Das    return true;
50fef432SSanjoy Das  }
50fef432SSanjoy Das
50fef432SSanjoy Das  auto DependenceItr = *DepResult.PotentialDependence;
50fef432SSanjoy Das  auto *DependenceMI = *DependenceItr;
50fef432SSanjoy Das
50fef432SSanjoy Das  // We don't want to reason about speculating loads.  Note -- at this point
50fef432SSanjoy Das  // we should have already filtered out all of the other non-speculatable
50fef432SSanjoy Das  // things, like calls and stores.
6ea2e81cSSerguei Katkov  // We also do not want to hoist stores because it might change the memory
6ea2e81cSSerguei Katkov  // while the FaultingMI may result in faulting.
50fef432SSanjoy Das  assert(canHandle(DependenceMI) && "Should never have reached here!");
6ea2e81cSSerguei Katkov  if (DependenceMI->mayLoadOrStore())
50fef432SSanjoy Das    return false;
50fef432SSanjoy Das
50fef432SSanjoy Das  for (auto &DependenceMO : DependenceMI->operands()) {
50fef432SSanjoy Das    if (!(DependenceMO.isReg() && DependenceMO.getReg()))
50fef432SSanjoy Das      continue;
50fef432SSanjoy Das
50fef432SSanjoy Das    // Make sure that we won't clobber any live ins to the sibling block by
50fef432SSanjoy Das    // hoisting Dependency.  For instance, we can't hoist INST to before the
50fef432SSanjoy Das    // null check (even if it safe, and does not violate any dependencies in
50fef432SSanjoy Das    // the non_null_block) if %rdx is live in to _null_block.
50fef432SSanjoy Das    //
50fef432SSanjoy Das    //    test %rcx, %rcx
50fef432SSanjoy Das    //    je _null_block
50fef432SSanjoy Das    //  _non_null_block:
a8a83d15SFrancis Visoiu Mistrih    //    %rdx = INST
50fef432SSanjoy Das    //    ...
50fef432SSanjoy Das    //
50fef432SSanjoy Das    // This restriction does not apply to the faulting load inst because in
50fef432SSanjoy Das    // case the pointer loaded from is in the null page, the load will not
50fef432SSanjoy Das    // semantically execute, and affect machine state.  That is, if the load
50fef432SSanjoy Das    // was loading into %rax and it faults, the value of %rax should stay the
50fef432SSanjoy Das    // same as it would have been had the load not have executed and we'd have
50fef432SSanjoy Das    // branched to NullSucc directly.
50fef432SSanjoy Das    if (AnyAliasLiveIn(TRI, NullSucc, DependenceMO.getReg()))
50fef432SSanjoy Das      return false;
50fef432SSanjoy Das
50fef432SSanjoy Das    // The Dependency can't be re-defining the base register -- then we won't
50fef432SSanjoy Das    // get the memory operation on the address we want.  This is already
50fef432SSanjoy Das    // checked in \c IsSuitableMemoryOp.
08da2e28SSanjoy Das    assert(!(DependenceMO.isDef() &&
08da2e28SSanjoy Das             TRI->regsOverlap(DependenceMO.getReg(), PointerReg)) &&
50fef432SSanjoy Das           "Should have been checked before!");
50fef432SSanjoy Das  }
50fef432SSanjoy Das
50fef432SSanjoy Das  auto DepDepResult =
50fef432SSanjoy Das      computeDependence(DependenceMI, {InstsSeenSoFar.begin(), DependenceItr});
50fef432SSanjoy Das
50fef432SSanjoy Das  if (!DepDepResult.CanReorder || DepDepResult.PotentialDependence)
50fef432SSanjoy Das    return false;
50fef432SSanjoy Das
50fef432SSanjoy Das  Dependence = DependenceMI;
50fef432SSanjoy Das  return true;
50fef432SSanjoy Das}
50fef432SSanjoy Das
69fad079SSanjoy Das/// Analyze MBB to check if its terminating branch can be turned into an
69fad079SSanjoy Das/// implicit null check.  If yes, append a description of the said null check to
69fad079SSanjoy Das/// NullCheckList and return true, else return false.
69fad079SSanjoy Dasbool ImplicitNullChecks::analyzeBlockForNullChecks(
69fad079SSanjoy Das    MachineBasicBlock &MBB, SmallVectorImpl<NullCheck> &NullCheckList) {
900b6335SEugene Zelenko  using MachineBranchPredicate = TargetInstrInfo::MachineBranchPredicate;
69fad079SSanjoy Das
e8b81649SSanjoy Das  MDNode *BranchMD = nullptr;
e8b81649SSanjoy Das  if (auto *BB = MBB.getBasicBlock())
e8b81649SSanjoy Das    BranchMD = BB->getTerminator()->getMetadata(LLVMContext::MD_make_implicit);
e8b81649SSanjoy Das
9c41a93eSSanjoy Das  if (!BranchMD)
9c41a93eSSanjoy Das    return false;
9c41a93eSSanjoy Das
69fad079SSanjoy Das  MachineBranchPredicate MBP;
69fad079SSanjoy Das
71c30a14SJacques Pienaar  if (TII->analyzeBranchPredicate(MBB, MBP, true))
69fad079SSanjoy Das    return false;
69fad079SSanjoy Das
69fad079SSanjoy Das  // Is the predicate comparing an integer to zero?
69fad079SSanjoy Das  if (!(MBP.LHS.isReg() && MBP.RHS.isImm() && MBP.RHS.getImm() == 0 &&
69fad079SSanjoy Das        (MBP.Predicate == MachineBranchPredicate::PRED_NE ||
69fad079SSanjoy Das         MBP.Predicate == MachineBranchPredicate::PRED_EQ)))
69fad079SSanjoy Das    return false;
69fad079SSanjoy Das
69fad079SSanjoy Das  // If we cannot erase the test instruction itself, then making the null check
69fad079SSanjoy Das  // implicit does not buy us much.
69fad079SSanjoy Das  if (!MBP.SingleUseCondition)
69fad079SSanjoy Das    return false;
69fad079SSanjoy Das
69fad079SSanjoy Das  MachineBasicBlock *NotNullSucc, *NullSucc;
69fad079SSanjoy Das
69fad079SSanjoy Das  if (MBP.Predicate == MachineBranchPredicate::PRED_NE) {
69fad079SSanjoy Das    NotNullSucc = MBP.TrueDest;
69fad079SSanjoy Das    NullSucc = MBP.FalseDest;
69fad079SSanjoy Das  } else {
69fad079SSanjoy Das    NotNullSucc = MBP.FalseDest;
69fad079SSanjoy Das    NullSucc = MBP.TrueDest;
69fad079SSanjoy Das  }
69fad079SSanjoy Das
69fad079SSanjoy Das  // We handle the simplest case for now.  We can potentially do better by using
69fad079SSanjoy Das  // the machine dominator tree.
69fad079SSanjoy Das  if (NotNullSucc->pred_size() != 1)
69fad079SSanjoy Das    return false;
69fad079SSanjoy Das
e8e01143SMax Kazantsev  // To prevent the invalid transformation of the following code:
e8e01143SMax Kazantsev  //
e8e01143SMax Kazantsev  //   mov %rax, %rcx
e8e01143SMax Kazantsev  //   test %rax, %rax
e8e01143SMax Kazantsev  //   %rax = ...
e8e01143SMax Kazantsev  //   je throw_npe
e8e01143SMax Kazantsev  //   mov(%rcx), %r9
e8e01143SMax Kazantsev  //   mov(%rax), %r10
e8e01143SMax Kazantsev  //
e8e01143SMax Kazantsev  // into:
e8e01143SMax Kazantsev  //
e8e01143SMax Kazantsev  //   mov %rax, %rcx
e8e01143SMax Kazantsev  //   %rax = ....
e8e01143SMax Kazantsev  //   faulting_load_op("movl (%rax), %r10", throw_npe)
e8e01143SMax Kazantsev  //   mov(%rcx), %r9
e8e01143SMax Kazantsev  //
e8e01143SMax Kazantsev  // we must ensure that there are no instructions between the 'test' and
e8e01143SMax Kazantsev  // conditional jump that modify %rax.
0c476111SDaniel Sanders  const Register PointerReg = MBP.LHS.getReg();
e8e01143SMax Kazantsev
e8e01143SMax Kazantsev  assert(MBP.ConditionDef->getParent() ==  &MBB && "Should be in basic block");
e8e01143SMax Kazantsev
e8e01143SMax Kazantsev  for (auto I = MBB.rbegin(); MBP.ConditionDef != &*I; ++I)
e8e01143SMax Kazantsev    if (I->modifiesRegister(PointerReg, TRI))
e8e01143SMax Kazantsev      return false;
e8e01143SMax Kazantsev
69fad079SSanjoy Das  // Starting with a code fragment like:
69fad079SSanjoy Das  //
9d7bb0cbSFrancis Visoiu Mistrih  //   test %rax, %rax
69fad079SSanjoy Das  //   jne LblNotNull
69fad079SSanjoy Das  //
69fad079SSanjoy Das  //  LblNull:
69fad079SSanjoy Das  //   callq throw_NullPointerException
69fad079SSanjoy Das  //
69fad079SSanjoy Das  //  LblNotNull:
b7718454SSanjoy Das  //   Inst0
b7718454SSanjoy Das  //   Inst1
b7718454SSanjoy Das  //   ...
9d7bb0cbSFrancis Visoiu Mistrih  //   Def = Load (%rax + <offset>)
69fad079SSanjoy Das  //   ...
69fad079SSanjoy Das  //
69fad079SSanjoy Das  //
69fad079SSanjoy Das  // we want to end up with
69fad079SSanjoy Das  //
9d7bb0cbSFrancis Visoiu Mistrih  //   Def = FaultingLoad (%rax + <offset>), LblNull
69fad079SSanjoy Das  //   jmp LblNotNull ;; explicit or fallthrough
69fad079SSanjoy Das  //
69fad079SSanjoy Das  //  LblNotNull:
b7718454SSanjoy Das  //   Inst0
b7718454SSanjoy Das  //   Inst1
69fad079SSanjoy Das  //   ...
69fad079SSanjoy Das  //
69fad079SSanjoy Das  //  LblNull:
69fad079SSanjoy Das  //   callq throw_NullPointerException
69fad079SSanjoy Das  //
ac9c5b19SSanjoy Das  //
ac9c5b19SSanjoy Das  // To see why this is legal, consider the two possibilities:
ac9c5b19SSanjoy Das  //
9d7bb0cbSFrancis Visoiu Mistrih  //  1. %rax is null: since we constrain <offset> to be less than PageSize, the
ac9c5b19SSanjoy Das  //     load instruction dereferences the null page, causing a segmentation
ac9c5b19SSanjoy Das  //     fault.
ac9c5b19SSanjoy Das  //
9d7bb0cbSFrancis Visoiu Mistrih  //  2. %rax is not null: in this case we know that the load cannot fault, as
ac9c5b19SSanjoy Das  //     otherwise the load would've faulted in the original program too and the
ac9c5b19SSanjoy Das  //     original program would've been undefined.
ac9c5b19SSanjoy Das  //
ac9c5b19SSanjoy Das  // This reasoning cannot be extended to justify hoisting through arbitrary
ac9c5b19SSanjoy Das  // control flow.  For instance, in the example below (in pseudo-C)
ac9c5b19SSanjoy Das  //
ac9c5b19SSanjoy Das  //    if (ptr == null) { throw_npe(); unreachable; }
ac9c5b19SSanjoy Das  //    if (some_cond) { return 42; }
ac9c5b19SSanjoy Das  //    v = ptr->field;  // LD
ac9c5b19SSanjoy Das  //    ...
ac9c5b19SSanjoy Das  //
ac9c5b19SSanjoy Das  // we cannot (without code duplication) use the load marked "LD" to null check
ac9c5b19SSanjoy Das  // ptr -- clause (2) above does not apply in this case.  In the above program
ac9c5b19SSanjoy Das  // the safety of ptr->field can be dependent on some_cond; and, for instance,
ac9c5b19SSanjoy Das  // ptr could be some non-null invalid reference that never gets loaded from
ac9c5b19SSanjoy Das  // because some_cond is always true.
69fad079SSanjoy Das
9a129807SSanjoy Das  SmallVector<MachineInstr *, 8> InstsSeenSoFar;
b7718454SSanjoy Das
9a129807SSanjoy Das  for (auto &MI : *NotNullSucc) {
9a129807SSanjoy Das    if (!canHandle(&MI) || InstsSeenSoFar.size() >= MaxInstsToConsider)
9a129807SSanjoy Das      return false;
e57bf680SSanjoy Das
9a129807SSanjoy Das    MachineInstr *Dependence;
eef785c1SSanjoy Das    SuitabilityResult SR = isSuitableMemoryOp(MI, PointerReg, InstsSeenSoFar);
15e50b51SSanjoy Das    if (SR == SR_Impossible)
15e50b51SSanjoy Das      return false;
2f63cbccSSanjoy Das    if (SR == SR_Suitable &&
2f63cbccSSanjoy Das        canHoistInst(&MI, PointerReg, InstsSeenSoFar, NullSucc, Dependence)) {
9cfc75c2SDuncan P. N. Exon Smith      NullCheckList.emplace_back(&MI, MBP.ConditionDef, &MBB, NotNullSucc,
9a129807SSanjoy Das                                 NullSucc, Dependence);
e57bf680SSanjoy Das      return true;
e57bf680SSanjoy Das    }
69fad079SSanjoy Das
0b0dc57dSSerguei Katkov    // If MI re-defines the PointerReg then we cannot move further.
900b6335SEugene Zelenko    if (llvm::any_of(MI.operands(), [&](MachineOperand &MO) {
0b0dc57dSSerguei Katkov          return MO.isReg() && MO.getReg() && MO.isDef() &&
0b0dc57dSSerguei Katkov                 TRI->regsOverlap(MO.getReg(), PointerReg);
0b0dc57dSSerguei Katkov        }))
0b0dc57dSSerguei Katkov      return false;
9a129807SSanjoy Das    InstsSeenSoFar.push_back(&MI);
b7718454SSanjoy Das  }
b7718454SSanjoy Das
69fad079SSanjoy Das  return false;
69fad079SSanjoy Das}
69fad079SSanjoy Das
2f63cbccSSanjoy Das/// Wrap a machine instruction, MI, into a FAULTING machine instruction.
2f63cbccSSanjoy Das/// The FAULTING instruction does the same load/store as MI
2f63cbccSSanjoy Das/// (defining the same register), and branches to HandlerMBB if the mem access
2f63cbccSSanjoy Das/// faults.  The FAULTING instruction is inserted at the end of MBB.
2f63cbccSSanjoy DasMachineInstr *ImplicitNullChecks::insertFaultingInstr(
2f63cbccSSanjoy Das    MachineInstr *MI, MachineBasicBlock *MBB, MachineBasicBlock *HandlerMBB) {
93d608c3SSanjoy Das  const unsigned NoRegister = 0; // Guaranteed to be the NoRegister value for
93d608c3SSanjoy Das                                 // all targets.
93d608c3SSanjoy Das
69fad079SSanjoy Das  DebugLoc DL;
2f63cbccSSanjoy Das  unsigned NumDefs = MI->getDesc().getNumDefs();
93d608c3SSanjoy Das  assert(NumDefs <= 1 && "other cases unhandled!");
69fad079SSanjoy Das
93d608c3SSanjoy Das  unsigned DefReg = NoRegister;
93d608c3SSanjoy Das  if (NumDefs != 0) {
342273a1SCraig Topper    DefReg = MI->getOperand(0).getReg();
5a0872c2SVedant Kumar    assert(NumDefs == 1 && "expected exactly one def!");
93d608c3SSanjoy Das  }
69fad079SSanjoy Das
2f63cbccSSanjoy Das  FaultMaps::FaultKind FK;
2f63cbccSSanjoy Das  if (MI->mayLoad())
2f63cbccSSanjoy Das    FK =
2f63cbccSSanjoy Das        MI->mayStore() ? FaultMaps::FaultingLoadStore : FaultMaps::FaultingLoad;
2f63cbccSSanjoy Das  else
2f63cbccSSanjoy Das    FK = FaultMaps::FaultingStore;
69fad079SSanjoy Das
2f63cbccSSanjoy Das  auto MIB = BuildMI(MBB, DL, TII->get(TargetOpcode::FAULTING_OP), DefReg)
2f63cbccSSanjoy Das                 .addImm(FK)
2f63cbccSSanjoy Das                 .addMBB(HandlerMBB)
2f63cbccSSanjoy Das                 .addImm(MI->getOpcode());
2f63cbccSSanjoy Das
605f7795SMatthias Braun  for (auto &MO : MI->uses()) {
605f7795SMatthias Braun    if (MO.isReg()) {
605f7795SMatthias Braun      MachineOperand NewMO = MO;
605f7795SMatthias Braun      if (MO.isUse()) {
605f7795SMatthias Braun        NewMO.setIsKill(false);
605f7795SMatthias Braun      } else {
605f7795SMatthias Braun        assert(MO.isDef() && "Expected def or use");
605f7795SMatthias Braun        NewMO.setIsDead(false);
605f7795SMatthias Braun      }
605f7795SMatthias Braun      MIB.add(NewMO);
605f7795SMatthias Braun    } else {
116bbab4SDiana Picus      MIB.add(MO);
605f7795SMatthias Braun    }
605f7795SMatthias Braun  }
69fad079SSanjoy Das
c73c0307SChandler Carruth  MIB.setMemRefs(MI->memoperands());
69fad079SSanjoy Das
69fad079SSanjoy Das  return MIB;
69fad079SSanjoy Das}
69fad079SSanjoy Das
69fad079SSanjoy Das/// Rewrite the null checks in NullCheckList into implicit null checks.
69fad079SSanjoy Dasvoid ImplicitNullChecks::rewriteNullChecks(
69fad079SSanjoy Das    ArrayRef<ImplicitNullChecks::NullCheck> NullCheckList) {
69fad079SSanjoy Das  DebugLoc DL;
69fad079SSanjoy Das
69fad079SSanjoy Das  for (auto &NC : NullCheckList) {
69fad079SSanjoy Das    // Remove the conditional branch dependent on the null check.
1b9fc8edSMatt Arsenault    unsigned BranchesRemoved = TII->removeBranch(*NC.getCheckBlock());
69fad079SSanjoy Das    (void)BranchesRemoved;
69fad079SSanjoy Das    assert(BranchesRemoved > 0 && "expected at least one branch!");
69fad079SSanjoy Das
e57bf680SSanjoy Das    if (auto *DepMI = NC.getOnlyDependency()) {
e57bf680SSanjoy Das      DepMI->removeFromParent();
e57bf680SSanjoy Das      NC.getCheckBlock()->insert(NC.getCheckBlock()->end(), DepMI);
e57bf680SSanjoy Das    }
e57bf680SSanjoy Das
2f63cbccSSanjoy Das    // Insert a faulting instruction where the conditional branch was
2f63cbccSSanjoy Das    // originally. We check earlier ensures that this bit of code motion
2f63cbccSSanjoy Das    // is legal.  We do not touch the successors list for any basic block
2f63cbccSSanjoy Das    // since we haven't changed control flow, we've just made it implicit.
2f63cbccSSanjoy Das    MachineInstr *FaultingInstr = insertFaultingInstr(
e173b9aeSSanjoy Das        NC.getMemOperation(), NC.getCheckBlock(), NC.getNullSucc());
26dab3a4SQuentin Colombet    // Now the values defined by MemOperation, if any, are live-in of
26dab3a4SQuentin Colombet    // the block of MemOperation.
2f63cbccSSanjoy Das    // The original operation may define implicit-defs alongside
2f63cbccSSanjoy Das    // the value.
e173b9aeSSanjoy Das    MachineBasicBlock *MBB = NC.getMemOperation()->getParent();
2f63cbccSSanjoy Das    for (const MachineOperand &MO : FaultingInstr->operands()) {
26dab3a4SQuentin Colombet      if (!MO.isReg() || !MO.isDef())
26dab3a4SQuentin Colombet        continue;
0c476111SDaniel Sanders      Register Reg = MO.getReg();
26dab3a4SQuentin Colombet      if (!Reg || MBB->isLiveIn(Reg))
26dab3a4SQuentin Colombet        continue;
12b69919SQuentin Colombet      MBB->addLiveIn(Reg);
12b69919SQuentin Colombet    }
e57bf680SSanjoy Das
e57bf680SSanjoy Das    if (auto *DepMI = NC.getOnlyDependency()) {
e57bf680SSanjoy Das      for (auto &MO : DepMI->operands()) {
e57bf680SSanjoy Das        if (!MO.isReg() || !MO.getReg() || !MO.isDef())
e57bf680SSanjoy Das          continue;
e57bf680SSanjoy Das        if (!NC.getNotNullSucc()->isLiveIn(MO.getReg()))
e57bf680SSanjoy Das          NC.getNotNullSucc()->addLiveIn(MO.getReg());
e57bf680SSanjoy Das      }
e57bf680SSanjoy Das    }
e57bf680SSanjoy Das
e173b9aeSSanjoy Das    NC.getMemOperation()->eraseFromParent();
e173b9aeSSanjoy Das    NC.getCheckOperation()->eraseFromParent();
69fad079SSanjoy Das
69fad079SSanjoy Das    // Insert an *unconditional* branch to not-null successor.
e8e0f5caSMatt Arsenault    TII->insertBranch(*NC.getCheckBlock(), NC.getNotNullSucc(), nullptr,
e173b9aeSSanjoy Das                      /*Cond=*/None, DL);
69fad079SSanjoy Das
8ee6a30bSSanjoy Das    NumImplicitNullChecks++;
69fad079SSanjoy Das  }
69fad079SSanjoy Das}
69fad079SSanjoy Das
69fad079SSanjoy Daschar ImplicitNullChecks::ID = 0;
900b6335SEugene Zelenko
69fad079SSanjoy Daschar &llvm::ImplicitNullChecksID = ImplicitNullChecks::ID;
900b6335SEugene Zelenko
1527baabSMatthias BraunINITIALIZE_PASS_BEGIN(ImplicitNullChecks, DEBUG_TYPE,
69fad079SSanjoy Das                      "Implicit null checks", false, false)
e57bf680SSanjoy DasINITIALIZE_PASS_DEPENDENCY(AAResultsWrapperPass)
1527baabSMatthias BraunINITIALIZE_PASS_END(ImplicitNullChecks, DEBUG_TYPE,
69fad079SSanjoy Das                    "Implicit null checks", false, false)