/*===- TableGen'erated file -------------------------------------*- C++ -*-===*\ |* *| |* Attribute deserialization code *| |* *| |* Automatically generated file, do not edit! *| |* *| \*===----------------------------------------------------------------------===*/ switch (Kind) { default: llvm_unreachable("Unknown attribute!"); case attr::AMDGPUNumSGPR: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned numSGPR = Record[Idx++]; New = new (Context) AMDGPUNumSGPRAttr(Range, Context, numSGPR, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::AMDGPUNumVGPR: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned numVGPR = Record[Idx++]; New = new (Context) AMDGPUNumVGPRAttr(Range, Context, numVGPR, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ARMInterrupt: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; ARMInterruptAttr::InterruptType interrupt(static_cast(Record[Idx++])); New = new (Context) ARMInterruptAttr(Range, Context, interrupt, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::AcquireCapability: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned argsSize = Record[Idx++]; SmallVector args; args.reserve(argsSize); for (unsigned i = argsSize; i; --i) args.push_back(ReadExpr(F)); New = new (Context) AcquireCapabilityAttr(Range, Context, args.data(), argsSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::AcquiredAfter: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned argsSize = Record[Idx++]; SmallVector args; args.reserve(argsSize); for (unsigned i = argsSize; i; --i) args.push_back(ReadExpr(F)); New = new (Context) AcquiredAfterAttr(Range, Context, args.data(), argsSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::AcquiredBefore: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned argsSize = Record[Idx++]; SmallVector args; args.reserve(argsSize); for (unsigned i = argsSize; i; --i) args.push_back(ReadExpr(F)); New = new (Context) AcquiredBeforeAttr(Range, Context, args.data(), argsSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Alias: { bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; std::string aliasee= ReadString(Record, Idx); New = new (Context) AliasAttr(Range, Context, aliasee, Spelling); New->setImplicit(isImplicit); break; } case attr::AlignMac68k: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) AlignMac68kAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::AlignValue: { bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; Expr * alignment = ReadExpr(F); New = new (Context) AlignValueAttr(Range, Context, alignment, Spelling); New->setImplicit(isImplicit); break; } case attr::Aligned: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; bool isalignmentExpr = Record[Idx++]; void *alignmentPtr; if (isalignmentExpr) alignmentPtr = ReadExpr(F); else alignmentPtr = GetTypeSourceInfo(F, Record, Idx); New = new (Context) AlignedAttr(Range, Context, isalignmentExpr, alignmentPtr, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::AlwaysInline: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) AlwaysInlineAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::AnalyzerNoReturn: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) AnalyzerNoReturnAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Annotate: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; std::string annotation= ReadString(Record, Idx); New = new (Context) AnnotateAttr(Range, Context, annotation, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ArcWeakrefUnavailable: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ArcWeakrefUnavailableAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ArgumentWithTypeTag: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; IdentifierInfo * argumentKind = GetIdentifierInfo(F, Record, Idx); unsigned argumentIdx = Record[Idx++]; unsigned typeTagIdx = Record[Idx++]; bool isPointer = Record[Idx++]; New = new (Context) ArgumentWithTypeTagAttr(Range, Context, argumentKind, argumentIdx, typeTagIdx, isPointer, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::AsmLabel: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; std::string label= ReadString(Record, Idx); New = new (Context) AsmLabelAttr(Range, Context, label, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::AssertCapability: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; Expr * expr = ReadExpr(F); New = new (Context) AssertCapabilityAttr(Range, Context, expr, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::AssertExclusiveLock: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned argsSize = Record[Idx++]; SmallVector args; args.reserve(argsSize); for (unsigned i = argsSize; i; --i) args.push_back(ReadExpr(F)); New = new (Context) AssertExclusiveLockAttr(Range, Context, args.data(), argsSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::AssertSharedLock: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned argsSize = Record[Idx++]; SmallVector args; args.reserve(argsSize); for (unsigned i = argsSize; i; --i) args.push_back(ReadExpr(F)); New = new (Context) AssertSharedLockAttr(Range, Context, args.data(), argsSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::AssumeAligned: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; Expr * alignment = ReadExpr(F); Expr * offset = ReadExpr(F); New = new (Context) AssumeAlignedAttr(Range, Context, alignment, offset, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Availability: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; IdentifierInfo * platform = GetIdentifierInfo(F, Record, Idx); VersionTuple introduced= ReadVersionTuple(Record, Idx); VersionTuple deprecated= ReadVersionTuple(Record, Idx); VersionTuple obsoleted= ReadVersionTuple(Record, Idx); bool unavailable = Record[Idx++]; std::string message= ReadString(Record, Idx); New = new (Context) AvailabilityAttr(Range, Context, platform, introduced, deprecated, obsoleted, unavailable, message, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Blocks: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; BlocksAttr::BlockType type(static_cast(Record[Idx++])); New = new (Context) BlocksAttr(Range, Context, type, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::C11NoReturn: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) C11NoReturnAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CDecl: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CDeclAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CFAuditedTransfer: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CFAuditedTransferAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CFConsumed: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CFConsumedAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CFReturnsNotRetained: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CFReturnsNotRetainedAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CFReturnsRetained: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CFReturnsRetainedAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CFUnknownTransfer: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CFUnknownTransferAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CUDAConstant: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CUDAConstantAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CUDADevice: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CUDADeviceAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CUDAGlobal: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CUDAGlobalAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CUDAHost: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CUDAHostAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CUDAInvalidTarget: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CUDAInvalidTargetAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CUDALaunchBounds: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; Expr * maxThreads = ReadExpr(F); Expr * minBlocks = ReadExpr(F); New = new (Context) CUDALaunchBoundsAttr(Range, Context, maxThreads, minBlocks, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CUDAShared: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CUDASharedAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CXX11NoReturn: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CXX11NoReturnAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CallableWhen: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned callableStatesSize = Record[Idx++]; SmallVector callableStates; callableStates.reserve(callableStatesSize); for (unsigned i = callableStatesSize; i; --i) callableStates.push_back(static_cast(Record[Idx++])); New = new (Context) CallableWhenAttr(Range, Context, callableStates.data(), callableStatesSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Capability: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; std::string name= ReadString(Record, Idx); New = new (Context) CapabilityAttr(Range, Context, name, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CapturedRecord: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CapturedRecordAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::CarriesDependency: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CarriesDependencyAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Cleanup: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; FunctionDecl * functionDecl = GetLocalDeclAs(F, Record[Idx++]); New = new (Context) CleanupAttr(Range, Context, functionDecl, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Cold: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ColdAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Common: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) CommonAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Const: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ConstAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Constructor: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; int priority = Record[Idx++]; New = new (Context) ConstructorAttr(Range, Context, priority, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Consumable: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; ConsumableAttr::ConsumedState defaultState(static_cast(Record[Idx++])); New = new (Context) ConsumableAttr(Range, Context, defaultState, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ConsumableAutoCast: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ConsumableAutoCastAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ConsumableSetOnRead: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ConsumableSetOnReadAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::DLLExport: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) DLLExportAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::DLLImport: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) DLLImportAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Deprecated: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; std::string message= ReadString(Record, Idx); New = new (Context) DeprecatedAttr(Range, Context, message, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Destructor: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; int priority = Record[Idx++]; New = new (Context) DestructorAttr(Range, Context, priority, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::DisableTailCalls: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) DisableTailCallsAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::EnableIf: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; Expr * cond = ReadExpr(F); std::string message= ReadString(Record, Idx); New = new (Context) EnableIfAttr(Range, Context, cond, message, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ExclusiveTrylockFunction: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; Expr * successValue = ReadExpr(F); unsigned argsSize = Record[Idx++]; SmallVector args; args.reserve(argsSize); for (unsigned i = argsSize; i; --i) args.push_back(ReadExpr(F)); New = new (Context) ExclusiveTrylockFunctionAttr(Range, Context, successValue, args.data(), argsSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::FallThrough: { bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) FallThroughAttr(Range, Context, Spelling); New->setImplicit(isImplicit); break; } case attr::FastCall: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) FastCallAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Final: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) FinalAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::FlagEnum: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) FlagEnumAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Flatten: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) FlattenAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Format: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; IdentifierInfo * type = GetIdentifierInfo(F, Record, Idx); int formatIdx = Record[Idx++]; int firstArg = Record[Idx++]; New = new (Context) FormatAttr(Range, Context, type, formatIdx, firstArg, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::FormatArg: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; int formatIdx = Record[Idx++]; New = new (Context) FormatArgAttr(Range, Context, formatIdx, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::GNUInline: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) GNUInlineAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::GuardedBy: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; Expr * arg = ReadExpr(F); New = new (Context) GuardedByAttr(Range, Context, arg, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::GuardedVar: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) GuardedVarAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Hot: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) HotAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::IBAction: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) IBActionAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::IBOutlet: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) IBOutletAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::IBOutletCollection: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; TypeSourceInfo * interface = GetTypeSourceInfo(F, Record, Idx); New = new (Context) IBOutletCollectionAttr(Range, Context, interface, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::InitPriority: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned priority = Record[Idx++]; New = new (Context) InitPriorityAttr(Range, Context, priority, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::InitSeg: { bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; std::string section= ReadString(Record, Idx); New = new (Context) InitSegAttr(Range, Context, section, Spelling); New->setImplicit(isImplicit); break; } case attr::IntelOclBicc: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) IntelOclBiccAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::InternalLinkage: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) InternalLinkageAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::LockReturned: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; Expr * arg = ReadExpr(F); New = new (Context) LockReturnedAttr(Range, Context, arg, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::LocksExcluded: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned argsSize = Record[Idx++]; SmallVector args; args.reserve(argsSize); for (unsigned i = argsSize; i; --i) args.push_back(ReadExpr(F)); New = new (Context) LocksExcludedAttr(Range, Context, args.data(), argsSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::LoopHint: { bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; LoopHintAttr::OptionType option(static_cast(Record[Idx++])); LoopHintAttr::LoopHintState state(static_cast(Record[Idx++])); Expr * value = ReadExpr(F); New = new (Context) LoopHintAttr(Range, Context, option, state, value, Spelling); New->setImplicit(isImplicit); break; } case attr::MSABI: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) MSABIAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::MSInheritance: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; bool bestCase = Record[Idx++]; New = new (Context) MSInheritanceAttr(Range, Context, bestCase, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::MSNoVTable: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) MSNoVTableAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::MSP430Interrupt: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned number = Record[Idx++]; New = new (Context) MSP430InterruptAttr(Range, Context, number, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::MSStruct: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) MSStructAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::MSVtorDisp: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned vdm = Record[Idx++]; New = new (Context) MSVtorDispAttr(Range, Context, vdm, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::MaxFieldAlignment: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned alignment = Record[Idx++]; New = new (Context) MaxFieldAlignmentAttr(Range, Context, alignment, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::MayAlias: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) MayAliasAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::MinSize: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) MinSizeAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Mips16: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) Mips16Attr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::MipsInterrupt: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; MipsInterruptAttr::InterruptType interrupt(static_cast(Record[Idx++])); New = new (Context) MipsInterruptAttr(Range, Context, interrupt, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Mode: { bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; IdentifierInfo * mode = GetIdentifierInfo(F, Record, Idx); New = new (Context) ModeAttr(Range, Context, mode, Spelling); New->setImplicit(isImplicit); break; } case attr::NSConsumed: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NSConsumedAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NSConsumesSelf: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NSConsumesSelfAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NSReturnsAutoreleased: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NSReturnsAutoreleasedAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NSReturnsNotRetained: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NSReturnsNotRetainedAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NSReturnsRetained: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NSReturnsRetainedAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Naked: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NakedAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NoAlias: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NoAliasAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NoCommon: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NoCommonAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NoDebug: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NoDebugAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NoDuplicate: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NoDuplicateAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NoInline: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NoInlineAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NoInstrumentFunction: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NoInstrumentFunctionAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NoMips16: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NoMips16Attr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NoReturn: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NoReturnAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NoSanitize: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned sanitizersSize = Record[Idx++]; SmallVector sanitizers; sanitizers.reserve(sanitizersSize); for (unsigned i = sanitizersSize; i; --i) sanitizers.push_back(ReadString(Record, Idx)); New = new (Context) NoSanitizeAttr(Range, Context, sanitizers.data(), sanitizersSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NoSplitStack: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NoSplitStackAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NoThreadSafetyAnalysis: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NoThreadSafetyAnalysisAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NoThrow: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NoThrowAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NonNull: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned argsSize = Record[Idx++]; SmallVector args; args.reserve(argsSize); for (unsigned i = argsSize; i; --i) args.push_back(Record[Idx++]); New = new (Context) NonNullAttr(Range, Context, args.data(), argsSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::NotTailCalled: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) NotTailCalledAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::OMPThreadPrivateDecl: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) OMPThreadPrivateDeclAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ObjCBoxable: { bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ObjCBoxableAttr(Range, Context, Spelling); New->setImplicit(isImplicit); break; } case attr::ObjCBridge: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; IdentifierInfo * bridgedType = GetIdentifierInfo(F, Record, Idx); New = new (Context) ObjCBridgeAttr(Range, Context, bridgedType, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ObjCBridgeMutable: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; IdentifierInfo * bridgedType = GetIdentifierInfo(F, Record, Idx); New = new (Context) ObjCBridgeMutableAttr(Range, Context, bridgedType, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ObjCBridgeRelated: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; IdentifierInfo * relatedClass = GetIdentifierInfo(F, Record, Idx); IdentifierInfo * classMethod = GetIdentifierInfo(F, Record, Idx); IdentifierInfo * instanceMethod = GetIdentifierInfo(F, Record, Idx); New = new (Context) ObjCBridgeRelatedAttr(Range, Context, relatedClass, classMethod, instanceMethod, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ObjCDesignatedInitializer: { bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ObjCDesignatedInitializerAttr(Range, Context, Spelling); New->setImplicit(isImplicit); break; } case attr::ObjCException: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ObjCExceptionAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ObjCExplicitProtocolImpl: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ObjCExplicitProtocolImplAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ObjCIndependentClass: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ObjCIndependentClassAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ObjCMethodFamily: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; ObjCMethodFamilyAttr::FamilyKind family(static_cast(Record[Idx++])); New = new (Context) ObjCMethodFamilyAttr(Range, Context, family, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ObjCNSObject: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ObjCNSObjectAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ObjCPreciseLifetime: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ObjCPreciseLifetimeAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ObjCRequiresPropertyDefs: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ObjCRequiresPropertyDefsAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ObjCRequiresSuper: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ObjCRequiresSuperAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ObjCReturnsInnerPointer: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ObjCReturnsInnerPointerAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ObjCRootClass: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ObjCRootClassAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ObjCRuntimeName: { bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; std::string metadataName= ReadString(Record, Idx); New = new (Context) ObjCRuntimeNameAttr(Range, Context, metadataName, Spelling); New->setImplicit(isImplicit); break; } case attr::OpenCLImageAccess: { bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) OpenCLImageAccessAttr(Range, Context, Spelling); New->setImplicit(isImplicit); break; } case attr::OpenCLKernel: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) OpenCLKernelAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::OptimizeNone: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) OptimizeNoneAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Overloadable: { bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) OverloadableAttr(Range, Context, Spelling); New->setImplicit(isImplicit); break; } case attr::Override: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) OverrideAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Ownership: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; IdentifierInfo * module = GetIdentifierInfo(F, Record, Idx); unsigned argsSize = Record[Idx++]; SmallVector args; args.reserve(argsSize); for (unsigned i = argsSize; i; --i) args.push_back(Record[Idx++]); New = new (Context) OwnershipAttr(Range, Context, module, args.data(), argsSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Packed: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) PackedAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ParamTypestate: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; ParamTypestateAttr::ConsumedState paramState(static_cast(Record[Idx++])); New = new (Context) ParamTypestateAttr(Range, Context, paramState, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Pascal: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) PascalAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::PassObjectSize: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; int type = Record[Idx++]; New = new (Context) PassObjectSizeAttr(Range, Context, type, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Pcs: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; PcsAttr::PCSType pCS(static_cast(Record[Idx++])); New = new (Context) PcsAttr(Range, Context, pCS, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::PtGuardedBy: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; Expr * arg = ReadExpr(F); New = new (Context) PtGuardedByAttr(Range, Context, arg, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::PtGuardedVar: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) PtGuardedVarAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Pure: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) PureAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ReleaseCapability: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned argsSize = Record[Idx++]; SmallVector args; args.reserve(argsSize); for (unsigned i = argsSize; i; --i) args.push_back(ReadExpr(F)); New = new (Context) ReleaseCapabilityAttr(Range, Context, args.data(), argsSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ReqdWorkGroupSize: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned xDim = Record[Idx++]; unsigned yDim = Record[Idx++]; unsigned zDim = Record[Idx++]; New = new (Context) ReqdWorkGroupSizeAttr(Range, Context, xDim, yDim, zDim, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::RequiresCapability: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned argsSize = Record[Idx++]; SmallVector args; args.reserve(argsSize); for (unsigned i = argsSize; i; --i) args.push_back(ReadExpr(F)); New = new (Context) RequiresCapabilityAttr(Range, Context, args.data(), argsSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Restrict: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) RestrictAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ReturnTypestate: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; ReturnTypestateAttr::ConsumedState state(static_cast(Record[Idx++])); New = new (Context) ReturnTypestateAttr(Range, Context, state, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ReturnsNonNull: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ReturnsNonNullAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ReturnsTwice: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ReturnsTwiceAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ScopedLockable: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ScopedLockableAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Section: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; std::string name= ReadString(Record, Idx); New = new (Context) SectionAttr(Range, Context, name, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::SelectAny: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) SelectAnyAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Sentinel: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; int sentinel = Record[Idx++]; int nullPos = Record[Idx++]; New = new (Context) SentinelAttr(Range, Context, sentinel, nullPos, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::SetTypestate: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; SetTypestateAttr::ConsumedState newState(static_cast(Record[Idx++])); New = new (Context) SetTypestateAttr(Range, Context, newState, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::SharedTrylockFunction: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; Expr * successValue = ReadExpr(F); unsigned argsSize = Record[Idx++]; SmallVector args; args.reserve(argsSize); for (unsigned i = argsSize; i; --i) args.push_back(ReadExpr(F)); New = new (Context) SharedTrylockFunctionAttr(Range, Context, successValue, args.data(), argsSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::StdCall: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) StdCallAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::SysVABI: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) SysVABIAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::TLSModel: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; std::string model= ReadString(Record, Idx); New = new (Context) TLSModelAttr(Range, Context, model, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Target: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; std::string featuresStr= ReadString(Record, Idx); New = new (Context) TargetAttr(Range, Context, featuresStr, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::TestTypestate: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; TestTypestateAttr::ConsumedState testState(static_cast(Record[Idx++])); New = new (Context) TestTypestateAttr(Range, Context, testState, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::ThisCall: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ThisCallAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Thread: { bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) ThreadAttr(Range, Context, Spelling); New->setImplicit(isImplicit); break; } case attr::TransparentUnion: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) TransparentUnionAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::TryAcquireCapability: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; Expr * successValue = ReadExpr(F); unsigned argsSize = Record[Idx++]; SmallVector args; args.reserve(argsSize); for (unsigned i = argsSize; i; --i) args.push_back(ReadExpr(F)); New = new (Context) TryAcquireCapabilityAttr(Range, Context, successValue, args.data(), argsSize, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::TypeTagForDatatype: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; IdentifierInfo * argumentKind = GetIdentifierInfo(F, Record, Idx); TypeSourceInfo * matchingCType = GetTypeSourceInfo(F, Record, Idx); bool layoutCompatible = Record[Idx++]; bool mustBeNull = Record[Idx++]; New = new (Context) TypeTagForDatatypeAttr(Range, Context, argumentKind, matchingCType, layoutCompatible, mustBeNull, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::TypeVisibility: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; TypeVisibilityAttr::VisibilityType visibility(static_cast(Record[Idx++])); New = new (Context) TypeVisibilityAttr(Range, Context, visibility, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Unavailable: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; std::string message= ReadString(Record, Idx); UnavailableAttr::ImplicitReason implicitReason(static_cast(Record[Idx++])); New = new (Context) UnavailableAttr(Range, Context, message, implicitReason, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Unused: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) UnusedAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Used: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) UsedAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Uuid: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; std::string guid= ReadString(Record, Idx); New = new (Context) UuidAttr(Range, Context, guid, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::VecReturn: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) VecReturnAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::VecTypeHint: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; TypeSourceInfo * typeHint = GetTypeSourceInfo(F, Record, Idx); New = new (Context) VecTypeHintAttr(Range, Context, typeHint, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::VectorCall: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) VectorCallAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Visibility: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; VisibilityAttr::VisibilityType visibility(static_cast(Record[Idx++])); New = new (Context) VisibilityAttr(Range, Context, visibility, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::WarnUnused: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) WarnUnusedAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::WarnUnusedResult: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) WarnUnusedResultAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::Weak: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) WeakAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::WeakImport: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) WeakImportAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::WeakRef: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; std::string aliasee= ReadString(Record, Idx); New = new (Context) WeakRefAttr(Range, Context, aliasee, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::WorkGroupSizeHint: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; unsigned xDim = Record[Idx++]; unsigned yDim = Record[Idx++]; unsigned zDim = Record[Idx++]; New = new (Context) WorkGroupSizeHintAttr(Range, Context, xDim, yDim, zDim, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } case attr::X86ForceAlignArgPointer: { bool isInherited = Record[Idx++]; bool isImplicit = Record[Idx++]; unsigned Spelling = Record[Idx++]; New = new (Context) X86ForceAlignArgPointerAttr(Range, Context, Spelling); cast(New)->setInherited(isInherited); New->setImplicit(isImplicit); break; } }