/*===- TableGen'erated file -------------------------------------*- C++ -*-===*\ |* *| |* Attribute serialization code *| |* *| |* Automatically generated file, do not edit! *| |* *| \*===----------------------------------------------------------------------===*/ switch (A->getKind()) { case attr::AArch64VectorPcs: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::AMDGPUFlatWorkGroupSize: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getMin()); Record.AddStmt(SA->getMax()); break; } case attr::AMDGPUNumSGPR: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getNumSGPR()); break; } case attr::AMDGPUNumVGPR: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getNumVGPR()); break; } case attr::AMDGPUWavesPerEU: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getMin()); Record.AddStmt(SA->getMax()); break; } case attr::ARMInterrupt: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getInterrupt()); break; } case attr::AVRInterrupt: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::AVRSignal: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::AbiTag: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.push_back(SA->tags_size()); for (auto &Val : SA->tags()) Record.AddString(Val); break; } case attr::AcquireCapability: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->args_size()); for (auto &Val : SA->args()) Record.AddStmt(Val); break; } case attr::AcquireHandle: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getHandleType()); break; } case attr::AcquiredAfter: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->args_size()); for (auto &Val : SA->args()) Record.AddStmt(Val); break; } case attr::AcquiredBefore: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->args_size()); for (auto &Val : SA->args()) Record.AddStmt(Val); break; } case attr::AddressSpace: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.push_back(SA->getAddressSpace()); break; } case attr::Alias: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.AddString(SA->getAliasee()); break; } case attr::AlignMac68k: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::AlignValue: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getAlignment()); break; } case attr::Aligned: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->isAlignmentExpr()); if (SA->isAlignmentExpr()) Record.AddStmt(SA->getAlignmentExpr()); else Record.AddTypeSourceInfo(SA->getAlignmentType()); break; } case attr::AllocAlign: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getParamIndex().serialize()); break; } case attr::AllocSize: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getElemSizeParam().serialize()); Record.push_back(SA->getNumElemsParam().serialize()); break; } case attr::AlwaysDestroy: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::AlwaysInline: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::AnalyzerNoReturn: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Annotate: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getAnnotation()); break; } case attr::AnyX86Interrupt: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::AnyX86NoCallerSavedRegisters: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::AnyX86NoCfCheck: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ArcWeakrefUnavailable: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ArgumentWithTypeTag: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddIdentifierRef(SA->getArgumentKind()); Record.push_back(SA->getArgumentIdx().serialize()); Record.push_back(SA->getTypeTagIdx().serialize()); Record.push_back(SA->getIsPointer()); break; } case attr::ArmMveAlias: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddIdentifierRef(SA->getBuiltinName()); break; } case attr::Artificial: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::AsmLabel: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getLabel()); Record.push_back(SA->getIsLiteralLabel()); break; } case attr::AssertCapability: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->args_size()); for (auto &Val : SA->args()) Record.AddStmt(Val); break; } case attr::AssertExclusiveLock: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->args_size()); for (auto &Val : SA->args()) Record.AddStmt(Val); break; } case attr::AssertSharedLock: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->args_size()); for (auto &Val : SA->args()) Record.AddStmt(Val); break; } case attr::AssumeAligned: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getAlignment()); Record.AddStmt(SA->getOffset()); break; } case attr::Availability: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddIdentifierRef(SA->getPlatform()); Record.AddVersionTuple(SA->getIntroduced()); Record.AddVersionTuple(SA->getDeprecated()); Record.AddVersionTuple(SA->getObsoleted()); Record.push_back(SA->getUnavailable()); Record.AddString(SA->getMessage()); Record.push_back(SA->getStrict()); Record.AddString(SA->getReplacement()); Record.push_back(SA->getPriority()); break; } case attr::BPFPreserveAccessIndex: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Blocks: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getType()); break; } case attr::C11NoReturn: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CDecl: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CFAuditedTransfer: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CFConsumed: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CFGuard: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getGuard()); break; } case attr::CFICanonicalJumpTable: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CFReturnsNotRetained: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CFReturnsRetained: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CFUnknownTransfer: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CPUDispatch: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->cpus_size()); for (auto &Val : SA->cpus()) Record.AddIdentifierRef(Val); break; } case attr::CPUSpecific: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->cpus_size()); for (auto &Val : SA->cpus()) Record.AddIdentifierRef(Val); break; } case attr::CUDAConstant: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CUDADevice: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CUDAGlobal: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CUDAHost: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CUDAInvalidTarget: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CUDALaunchBounds: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getMaxThreads()); Record.AddStmt(SA->getMinBlocks()); break; } case attr::CUDAShared: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CXX11NoReturn: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CallableWhen: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->callableStates_size()); for (CallableWhenAttr::callableStates_iterator i = SA->callableStates_begin(), e = SA->callableStates_end(); i != e; ++i) Record.push_back((*i)); break; } case attr::Callback: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->encoding_size()); for (auto &Val : SA->encoding()) Record.push_back(Val); break; } case attr::Capability: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getName()); break; } case attr::CapturedRecord: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::CarriesDependency: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Cleanup: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddDeclRef(SA->getFunctionDecl()); break; } case attr::CodeSeg: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getName()); break; } case attr::Cold: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Common: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Const: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ConstInit: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Constructor: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getPriority()); break; } case attr::Consumable: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getDefaultState()); break; } case attr::ConsumableAutoCast: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ConsumableSetOnRead: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Convergent: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::DLLExport: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::DLLExportStaticLocal: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::DLLImport: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::DLLImportStaticLocal: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Deprecated: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getMessage()); Record.AddString(SA->getReplacement()); break; } case attr::Destructor: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getPriority()); break; } case attr::DiagnoseIf: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getCond()); Record.AddString(SA->getMessage()); Record.push_back(SA->getDiagnosticType()); Record.push_back(SA->getArgDependent()); Record.AddDeclRef(SA->getParent()); break; } case attr::DisableTailCalls: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::EmptyBases: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::EnableIf: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getCond()); Record.AddString(SA->getMessage()); break; } case attr::EnumExtensibility: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getExtensibility()); break; } case attr::ExcludeFromExplicitInstantiation: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ExclusiveTrylockFunction: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getSuccessValue()); Record.push_back(SA->args_size()); for (auto &Val : SA->args()) Record.AddStmt(Val); break; } case attr::ExternalSourceSymbol: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getLanguage()); Record.AddString(SA->getDefinedIn()); Record.push_back(SA->getGeneratedDeclaration()); break; } case attr::FallThrough: { Record.push_back(A->isImplicit()); break; } case attr::FastCall: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Final: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::FlagEnum: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Flatten: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Format: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddIdentifierRef(SA->getType()); Record.push_back(SA->getFormatIdx()); Record.push_back(SA->getFirstArg()); break; } case attr::FormatArg: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getFormatIdx().serialize()); break; } case attr::GNUInline: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::GuardedBy: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getArg()); break; } case attr::GuardedVar: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::HIPPinnedShadow: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Hot: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::IBAction: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::IBOutlet: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::IBOutletCollection: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddTypeSourceInfo(SA->getInterfaceLoc()); break; } case attr::IFunc: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.AddString(SA->getResolver()); break; } case attr::InitPriority: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getPriority()); break; } case attr::InitSeg: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.AddString(SA->getSection()); break; } case attr::IntelOclBicc: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::InternalLinkage: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::LTOVisibilityPublic: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::LayoutVersion: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getVersion()); break; } case attr::LifetimeBound: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::LockReturned: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getArg()); break; } case attr::LocksExcluded: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->args_size()); for (auto &Val : SA->args()) Record.AddStmt(Val); break; } case attr::LoopHint: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.push_back(SA->getOption()); Record.push_back(SA->getState()); Record.AddStmt(SA->getValue()); break; } case attr::MIGServerRoutine: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::MSABI: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::MSAllocator: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::MSInheritance: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getBestCase()); break; } case attr::MSNoVTable: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::MSP430Interrupt: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getNumber()); break; } case attr::MSStruct: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::MSVtorDisp: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getVdm()); break; } case attr::MaxFieldAlignment: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getAlignment()); break; } case attr::MayAlias: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::MicroMips: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::MinSize: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::MinVectorWidth: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getVectorWidth()); break; } case attr::Mips16: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::MipsInterrupt: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getInterrupt()); break; } case attr::MipsLongCall: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::MipsShortCall: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Mode: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.AddIdentifierRef(SA->getMode()); break; } case attr::NSConsumed: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NSConsumesSelf: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NSReturnsAutoreleased: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NSReturnsNotRetained: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NSReturnsRetained: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Naked: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoAlias: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoBuiltin: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.push_back(SA->builtinNames_size()); for (auto &Val : SA->builtinNames()) Record.AddString(Val); break; } case attr::NoCommon: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoDebug: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoDeref: { Record.push_back(A->isImplicit()); break; } case attr::NoDestroy: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoDuplicate: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoEscape: { Record.push_back(A->isImplicit()); break; } case attr::NoInline: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoInstrumentFunction: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoMicroMips: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoMips16: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoReturn: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoSanitize: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->sanitizers_size()); for (auto &Val : SA->sanitizers()) Record.AddString(Val); break; } case attr::NoSpeculativeLoadHardening: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoSplitStack: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoStackProtector: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoThreadSafetyAnalysis: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoThrow: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NoUniqueAddress: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::NonNull: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->args_size()); for (auto &Val : SA->args()) Record.push_back(Val.serialize()); break; } case attr::NotTailCalled: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::OMPAllocateDecl: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getAllocatorType()); Record.AddStmt(SA->getAllocator()); break; } case attr::OMPCaptureKind: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.push_back(SA->getCaptureKind()); break; } case attr::OMPCaptureNoInit: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::OMPDeclareSimdDecl: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.push_back(SA->getBranchState()); Record.AddStmt(SA->getSimdlen()); Record.push_back(SA->uniforms_size()); for (auto &Val : SA->uniforms()) Record.AddStmt(Val); Record.push_back(SA->aligneds_size()); for (auto &Val : SA->aligneds()) Record.AddStmt(Val); Record.push_back(SA->alignments_size()); for (auto &Val : SA->alignments()) Record.AddStmt(Val); Record.push_back(SA->linears_size()); for (auto &Val : SA->linears()) Record.AddStmt(Val); Record.push_back(SA->modifiers_size()); for (auto &Val : SA->modifiers()) Record.push_back(Val); Record.push_back(SA->steps_size()); for (auto &Val : SA->steps()) Record.AddStmt(Val); break; } case attr::OMPDeclareTargetDecl: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getMapType()); Record.push_back(SA->getDevType()); break; } case attr::OMPDeclareVariant: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getVariantFuncRef()); Record.push_back(SA->scores_size()); for (auto &Val : SA->scores()) Record.AddStmt(Val); Record.push_back(SA->ctxSelectorSets_size()); for (auto &Val : SA->ctxSelectorSets()) Record.push_back(Val); Record.push_back(SA->ctxSelectors_size()); for (auto &Val : SA->ctxSelectors()) Record.push_back(Val); Record.push_back(SA->implVendors_size()); for (auto &Val : SA->implVendors()) Record.AddString(Val); Record.push_back(SA->deviceKinds_size()); for (auto &Val : SA->deviceKinds()) Record.AddString(Val); break; } case attr::OMPReferencedVar: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getRef()); break; } case attr::OMPThreadPrivateDecl: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::OSConsumed: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::OSConsumesThis: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::OSReturnsNotRetained: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::OSReturnsRetained: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::OSReturnsRetainedOnNonZero: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::OSReturnsRetainedOnZero: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ObjCBoxable: { Record.push_back(A->isImplicit()); break; } case attr::ObjCBridge: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddIdentifierRef(SA->getBridgedType()); break; } case attr::ObjCBridgeMutable: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddIdentifierRef(SA->getBridgedType()); break; } case attr::ObjCBridgeRelated: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddIdentifierRef(SA->getRelatedClass()); Record.AddIdentifierRef(SA->getClassMethod()); Record.AddIdentifierRef(SA->getInstanceMethod()); break; } case attr::ObjCClassStub: { Record.push_back(A->isImplicit()); break; } case attr::ObjCDesignatedInitializer: { Record.push_back(A->isImplicit()); break; } case attr::ObjCDirect: { Record.push_back(A->isImplicit()); break; } case attr::ObjCDirectMembers: { Record.push_back(A->isImplicit()); break; } case attr::ObjCException: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ObjCExplicitProtocolImpl: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ObjCExternallyRetained: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ObjCGC: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.AddIdentifierRef(SA->getKind()); break; } case attr::ObjCIndependentClass: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ObjCInertUnsafeUnretained: { Record.push_back(A->isImplicit()); break; } case attr::ObjCKindOf: { Record.push_back(A->isImplicit()); break; } case attr::ObjCMethodFamily: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getFamily()); break; } case attr::ObjCNSObject: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ObjCNonLazyClass: { Record.push_back(A->isImplicit()); break; } case attr::ObjCOwnership: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddIdentifierRef(SA->getKind()); break; } case attr::ObjCPreciseLifetime: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ObjCRequiresPropertyDefs: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ObjCRequiresSuper: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ObjCReturnsInnerPointer: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ObjCRootClass: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ObjCRuntimeName: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.AddString(SA->getMetadataName()); break; } case attr::ObjCRuntimeVisible: { Record.push_back(A->isImplicit()); break; } case attr::ObjCSubclassingRestricted: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::OpenCLAccess: { Record.push_back(A->isImplicit()); break; } case attr::OpenCLConstantAddressSpace: { Record.push_back(A->isImplicit()); break; } case attr::OpenCLGenericAddressSpace: { Record.push_back(A->isImplicit()); break; } case attr::OpenCLGlobalAddressSpace: { Record.push_back(A->isImplicit()); break; } case attr::OpenCLIntelReqdSubGroupSize: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getSubGroupSize()); break; } case attr::OpenCLKernel: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::OpenCLLocalAddressSpace: { Record.push_back(A->isImplicit()); break; } case attr::OpenCLPrivateAddressSpace: { Record.push_back(A->isImplicit()); break; } case attr::OpenCLUnrollHint: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getUnrollHint()); break; } case attr::OptimizeNone: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Overloadable: { Record.push_back(A->isImplicit()); break; } case attr::Override: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Owner: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddTypeSourceInfo(SA->getDerefTypeLoc()); break; } case attr::Ownership: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddIdentifierRef(SA->getModule()); Record.push_back(SA->args_size()); for (auto &Val : SA->args()) Record.push_back(Val.serialize()); break; } case attr::Packed: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ParamTypestate: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getParamState()); break; } case attr::Pascal: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::PassObjectSize: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getType()); break; } case attr::PatchableFunctionEntry: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getCount()); Record.push_back(SA->getOffset()); break; } case attr::Pcs: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getPCS()); break; } case attr::Pointer: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddTypeSourceInfo(SA->getDerefTypeLoc()); break; } case attr::PragmaClangBSSSection: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getName()); break; } case attr::PragmaClangDataSection: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getName()); break; } case attr::PragmaClangRelroSection: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getName()); break; } case attr::PragmaClangRodataSection: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getName()); break; } case attr::PragmaClangTextSection: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getName()); break; } case attr::PreserveAll: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::PreserveMost: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::PtGuardedBy: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getArg()); break; } case attr::PtGuardedVar: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Ptr32: { Record.push_back(A->isImplicit()); break; } case attr::Ptr64: { Record.push_back(A->isImplicit()); break; } case attr::Pure: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::RISCVInterrupt: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getInterrupt()); break; } case attr::RegCall: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Reinitializes: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ReleaseCapability: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->args_size()); for (auto &Val : SA->args()) Record.AddStmt(Val); break; } case attr::ReleaseHandle: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getHandleType()); break; } case attr::RenderScriptKernel: { Record.push_back(A->isImplicit()); break; } case attr::ReqdWorkGroupSize: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getXDim()); Record.push_back(SA->getYDim()); Record.push_back(SA->getZDim()); break; } case attr::RequiresCapability: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->args_size()); for (auto &Val : SA->args()) Record.AddStmt(Val); break; } case attr::Restrict: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ReturnTypestate: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getState()); break; } case attr::ReturnsNonNull: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ReturnsTwice: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::SPtr: { Record.push_back(A->isImplicit()); break; } case attr::SYCLKernel: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::ScopedLockable: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Section: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getName()); break; } case attr::SelectAny: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Sentinel: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getSentinel()); Record.push_back(SA->getNullPos()); break; } case attr::SetTypestate: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getNewState()); break; } case attr::SharedTrylockFunction: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getSuccessValue()); Record.push_back(SA->args_size()); for (auto &Val : SA->args()) Record.AddStmt(Val); break; } case attr::SpeculativeLoadHardening: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::StdCall: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Suppress: { const auto *SA = cast(A); Record.push_back(A->isImplicit()); Record.push_back(SA->diagnosticIdentifiers_size()); for (auto &Val : SA->diagnosticIdentifiers()) Record.AddString(Val); break; } case attr::SwiftCall: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::SwiftContext: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::SwiftErrorResult: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::SwiftIndirectResult: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::SysVABI: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::TLSModel: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getModel()); break; } case attr::Target: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getFeaturesStr()); break; } case attr::TestTypestate: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getTestState()); break; } case attr::ThisCall: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Thread: { Record.push_back(A->isImplicit()); break; } case attr::TransparentUnion: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::TrivialABI: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::TryAcquireCapability: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddStmt(SA->getSuccessValue()); Record.push_back(SA->args_size()); for (auto &Val : SA->args()) Record.AddStmt(Val); break; } case attr::TypeNonNull: { Record.push_back(A->isImplicit()); break; } case attr::TypeNullUnspecified: { Record.push_back(A->isImplicit()); break; } case attr::TypeNullable: { Record.push_back(A->isImplicit()); break; } case attr::TypeTagForDatatype: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddIdentifierRef(SA->getArgumentKind()); Record.AddTypeSourceInfo(SA->getMatchingCTypeLoc()); Record.push_back(SA->getLayoutCompatible()); Record.push_back(SA->getMustBeNull()); break; } case attr::TypeVisibility: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getVisibility()); break; } case attr::UPtr: { Record.push_back(A->isImplicit()); break; } case attr::Unavailable: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getMessage()); Record.push_back(SA->getImplicitReason()); break; } case attr::Uninitialized: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Unused: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::UseHandle: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getHandleType()); break; } case attr::Used: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Uuid: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getGuid()); break; } case attr::VecReturn: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::VecTypeHint: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddTypeSourceInfo(SA->getTypeHintLoc()); break; } case attr::VectorCall: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::Visibility: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getVisibility()); break; } case attr::WarnUnused: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::WarnUnusedResult: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getMessage()); break; } case attr::Weak: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::WeakImport: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::WeakRef: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getAliasee()); break; } case attr::WebAssemblyExportName: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getExportName()); break; } case attr::WebAssemblyImportModule: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getImportModule()); break; } case attr::WebAssemblyImportName: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.AddString(SA->getImportName()); break; } case attr::WorkGroupSizeHint: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getXDim()); Record.push_back(SA->getYDim()); Record.push_back(SA->getZDim()); break; } case attr::X86ForceAlignArgPointer: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::XRayInstrument: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); break; } case attr::XRayLogArgs: { const auto *SA = cast(A); Record.push_back(SA->isInherited()); Record.push_back(A->isImplicit()); Record.push_back(SA->getArgumentCount()); break; } }