static CallInlinePolicy mayInlineCallKind(const CallEvent &Call,
                                          const ExplodedNode *Pred,
                                          AnalyzerOptions &Opts) {
  const LocationContext *CurLC = Pred->getLocationContext();
  const StackFrameContext *CallerSFC = CurLC->getCurrentStackFrame();
  switch (Call.getKind()) {
  case CE_Function:
  case CE_Block:
    break;
  case CE_CXXMember:
  case CE_CXXMemberOperator:
    if (!Opts.mayInlineCXXMemberFunction(CIMK_MemberFunctions))
      return CIP_DisallowedAlways;
    break;
  case CE_CXXConstructor: {
    if (!Opts.mayInlineCXXMemberFunction(CIMK_Constructors))
      return CIP_DisallowedAlways;

    const CXXConstructorCall &Ctor = cast<CXXConstructorCall>(Call);

    // FIXME: We don't handle constructors or destructors for arrays properly.
    // Even once we do, we still need to be careful about implicitly-generated
    // initializers for array fields in default move/copy constructors.
    const MemRegion *Target = Ctor.getCXXThisVal().getAsRegion();
    if (Target && isa<ElementRegion>(Target))
      return CIP_DisallowedOnce;

    // FIXME: This is a hack. We don't use the correct region for a new
    // expression, so if we inline the constructor its result will just be
    // thrown away. This short-term hack is tracked in <rdar://problem/12180598>
    // and the longer-term possible fix is discussed in PR12014.
    const CXXConstructExpr *CtorExpr = Ctor.getOriginExpr();
    if (const Stmt *Parent = CurLC->getParentMap().getParent(CtorExpr))
      if (isa<CXXNewExpr>(Parent))
        return CIP_DisallowedOnce;

    // Inlining constructors requires including initializers in the CFG.
    const AnalysisDeclContext *ADC = CallerSFC->getAnalysisDeclContext();
    assert(ADC->getCFGBuildOptions().AddInitializers && "No CFG initializers");
    (void)ADC;

    // If the destructor is trivial, it's always safe to inline the constructor.
    if (Ctor.getDecl()->getParent()->hasTrivialDestructor())
      break;

    // For other types, only inline constructors if destructor inlining is
    // also enabled.
    if (!Opts.mayInlineCXXMemberFunction(CIMK_Destructors))
      return CIP_DisallowedAlways;

    // FIXME: This is a hack. We don't handle temporary destructors
    // right now, so we shouldn't inline their constructors.
    if (CtorExpr->getConstructionKind() == CXXConstructExpr::CK_Complete)
      if (!Target || !isa<DeclRegion>(Target))
        return CIP_DisallowedOnce;

    break;
  }
  case CE_CXXDestructor: {
    if (!Opts.mayInlineCXXMemberFunction(CIMK_Destructors))
      return CIP_DisallowedAlways;

    // Inlining destructors requires building the CFG correctly.
    const AnalysisDeclContext *ADC = CallerSFC->getAnalysisDeclContext();
    assert(ADC->getCFGBuildOptions().AddImplicitDtors && "No CFG destructors");
    (void)ADC;

    const CXXDestructorCall &Dtor = cast<CXXDestructorCall>(Call);

    // FIXME: We don't handle constructors or destructors for arrays properly.
    const MemRegion *Target = Dtor.getCXXThisVal().getAsRegion();
    if (Target && isa<ElementRegion>(Target))
      return CIP_DisallowedOnce;

    break;
  }
  case CE_CXXAllocator:
    if (Opts.mayInlineCXXAllocator())
      break;
    // Do not inline allocators until we model deallocators.
    // This is unfortunate, but basically necessary for smart pointers and such.
    return CIP_DisallowedAlways;
  case CE_ObjCMessage:
    if (!Opts.mayInlineObjCMethod())
      return CIP_DisallowedAlways;
    if (!(Opts.getIPAMode() == IPAK_DynamicDispatch ||
          Opts.getIPAMode() == IPAK_DynamicDispatchBifurcate))
      return CIP_DisallowedAlways;
    break;
  }

  return CIP_Allowed;
}
示例#2
0
ExprEngine::CallInlinePolicy
ExprEngine::mayInlineCallKind(const CallEvent &Call, const ExplodedNode *Pred,
                              AnalyzerOptions &Opts,
                              const ExprEngine::EvalCallOptions &CallOpts) {
  const LocationContext *CurLC = Pred->getLocationContext();
  const StackFrameContext *CallerSFC = CurLC->getCurrentStackFrame();
  switch (Call.getKind()) {
  case CE_Function:
  case CE_Block:
    break;
  case CE_CXXMember:
  case CE_CXXMemberOperator:
    if (!Opts.mayInlineCXXMemberFunction(CIMK_MemberFunctions))
      return CIP_DisallowedAlways;
    break;
  case CE_CXXConstructor: {
    if (!Opts.mayInlineCXXMemberFunction(CIMK_Constructors))
      return CIP_DisallowedAlways;

    const CXXConstructorCall &Ctor = cast<CXXConstructorCall>(Call);

    const CXXConstructExpr *CtorExpr = Ctor.getOriginExpr();

    // FIXME: ParentMap is slow and ugly. The callee should provide the
    // necessary context. Ideally as part of the call event, or maybe as part of
    // location context.
    const Stmt *ParentExpr = CurLC->getParentMap().getParent(CtorExpr);

    if (ParentExpr && isa<CXXNewExpr>(ParentExpr) &&
        !Opts.mayInlineCXXAllocator())
      return CIP_DisallowedOnce;

    // FIXME: We don't handle constructors or destructors for arrays properly.
    // Even once we do, we still need to be careful about implicitly-generated
    // initializers for array fields in default move/copy constructors.
    // We still allow construction into ElementRegion targets when they don't
    // represent array elements.
    if (CallOpts.IsArrayConstructorOrDestructor)
      return CIP_DisallowedOnce;

    // Inlining constructors requires including initializers in the CFG.
    const AnalysisDeclContext *ADC = CallerSFC->getAnalysisDeclContext();
    assert(ADC->getCFGBuildOptions().AddInitializers && "No CFG initializers");
    (void)ADC;

    // If the destructor is trivial, it's always safe to inline the constructor.
    if (Ctor.getDecl()->getParent()->hasTrivialDestructor())
      break;

    // For other types, only inline constructors if destructor inlining is
    // also enabled.
    if (!Opts.mayInlineCXXMemberFunction(CIMK_Destructors))
      return CIP_DisallowedAlways;

    // FIXME: This is a hack. We don't handle temporary destructors
    // right now, so we shouldn't inline their constructors.
    if (CtorExpr->getConstructionKind() == CXXConstructExpr::CK_Complete)
      if (CallOpts.IsConstructorWithImproperlyModeledTargetRegion)
        return CIP_DisallowedOnce;

    break;
  }
  case CE_CXXDestructor: {
    if (!Opts.mayInlineCXXMemberFunction(CIMK_Destructors))
      return CIP_DisallowedAlways;

    // Inlining destructors requires building the CFG correctly.
    const AnalysisDeclContext *ADC = CallerSFC->getAnalysisDeclContext();
    assert(ADC->getCFGBuildOptions().AddImplicitDtors && "No CFG destructors");
    (void)ADC;

    // FIXME: We don't handle constructors or destructors for arrays properly.
    if (CallOpts.IsArrayConstructorOrDestructor)
      return CIP_DisallowedOnce;

    break;
  }
  case CE_CXXAllocator:
    if (Opts.mayInlineCXXAllocator())
      break;
    // Do not inline allocators until we model deallocators.
    // This is unfortunate, but basically necessary for smart pointers and such.
    return CIP_DisallowedAlways;
  case CE_ObjCMessage:
    if (!Opts.mayInlineObjCMethod())
      return CIP_DisallowedAlways;
    if (!(Opts.getIPAMode() == IPAK_DynamicDispatch ||
          Opts.getIPAMode() == IPAK_DynamicDispatchBifurcate))
      return CIP_DisallowedAlways;
    break;
  }

  return CIP_Allowed;
}