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android / platform / prebuilts / clang / host / darwin-x86 / 22930b242a863903e7a7f0d277a8f323a138f1a2 / . / clang-r437112 / include / clang / AST / AttrTextNodeDump.inc
blob: cae5d00b4469ac577c0c38e3cfc08aa70908c37c [file] [log] [blame]
/*===- TableGen'erated file -------------------------------------*- C++ -*-===*\
|* *|
|* Attribute text node dumper *|
|* *|
|* Automatically generated file, do not edit! *|
|* *|
\*===----------------------------------------------------------------------===*/
void VisitAMDGPUNumSGPRAttr(const AMDGPUNumSGPRAttr *A) {
const auto *SA = cast<AMDGPUNumSGPRAttr>(A); (void)SA;
OS << " " << SA->getNumSGPR();
}
void VisitAMDGPUNumVGPRAttr(const AMDGPUNumVGPRAttr *A) {
const auto *SA = cast<AMDGPUNumVGPRAttr>(A); (void)SA;
OS << " " << SA->getNumVGPR();
}
void VisitARMInterruptAttr(const ARMInterruptAttr *A) {
const auto *SA = cast<ARMInterruptAttr>(A); (void)SA;
switch(SA->getInterrupt()) {
case ARMInterruptAttr::IRQ:
OS << " IRQ";
break;
case ARMInterruptAttr::FIQ:
OS << " FIQ";
break;
case ARMInterruptAttr::SWI:
OS << " SWI";
break;
case ARMInterruptAttr::ABORT:
OS << " ABORT";
break;
case ARMInterruptAttr::UNDEF:
OS << " UNDEF";
break;
case ARMInterruptAttr::Generic:
OS << " Generic";
break;
}
}
void VisitAbiTagAttr(const AbiTagAttr *A) {
const auto *SA = cast<AbiTagAttr>(A); (void)SA;
for (const auto &Val : SA->tags())
OS << " " << Val;
}
void VisitAcquireCapabilityAttr(const AcquireCapabilityAttr *A) {
const auto *SA = cast<AcquireCapabilityAttr>(A); (void)SA;
OS << " " << A->getSpelling();
}
void VisitAcquireHandleAttr(const AcquireHandleAttr *A) {
const auto *SA = cast<AcquireHandleAttr>(A); (void)SA;
OS << " \"" << SA->getHandleType() << "\"";
}
void VisitAddressSpaceAttr(const AddressSpaceAttr *A) {
const auto *SA = cast<AddressSpaceAttr>(A); (void)SA;
OS << " " << SA->getAddressSpace();
}
void VisitAliasAttr(const AliasAttr *A) {
const auto *SA = cast<AliasAttr>(A); (void)SA;
OS << " \"" << SA->getAliasee() << "\"";
}
void VisitAlignedAttr(const AlignedAttr *A) {
const auto *SA = cast<AlignedAttr>(A); (void)SA;
OS << " " << A->getSpelling();
if (!SA->isAlignmentExpr())
dumpType(SA->getAlignmentType()->getType());
}
void VisitAllocAlignAttr(const AllocAlignAttr *A) {
const auto *SA = cast<AllocAlignAttr>(A); (void)SA;
OS << " " << SA->getParamIndex().getSourceIndex();
}
void VisitAllocSizeAttr(const AllocSizeAttr *A) {
const auto *SA = cast<AllocSizeAttr>(A); (void)SA;
OS << " " << SA->getElemSizeParam().getSourceIndex();
if (SA->getNumElemsParam().isValid())
OS << " " << SA->getNumElemsParam().getSourceIndex();
}
void VisitAlwaysInlineAttr(const AlwaysInlineAttr *A) {
OS << " " << A->getSpelling();
}
void VisitAnnotateAttr(const AnnotateAttr *A) {
const auto *SA = cast<AnnotateAttr>(A); (void)SA;
OS << " \"" << SA->getAnnotation() << "\"";
}
void VisitArgumentWithTypeTagAttr(const ArgumentWithTypeTagAttr *A) {
const auto *SA = cast<ArgumentWithTypeTagAttr>(A); (void)SA;
OS << " " << A->getSpelling();
if (SA->getArgumentKind())
OS << " " << SA->getArgumentKind()->getName();
OS << " " << SA->getArgumentIdx().getSourceIndex();
OS << " " << SA->getTypeTagIdx().getSourceIndex();
if (SA->getIsPointer()) OS << " IsPointer";
}
void VisitArmBuiltinAliasAttr(const ArmBuiltinAliasAttr *A) {
const auto *SA = cast<ArmBuiltinAliasAttr>(A); (void)SA;
if (SA->getBuiltinName())
OS << " " << SA->getBuiltinName()->getName();
}
void VisitAsmLabelAttr(const AsmLabelAttr *A) {
const auto *SA = cast<AsmLabelAttr>(A); (void)SA;
OS << " \"" << SA->getLabel() << "\"";
if (SA->getIsLiteralLabel()) OS << " IsLiteralLabel";
}
void VisitAssertCapabilityAttr(const AssertCapabilityAttr *A) {
const auto *SA = cast<AssertCapabilityAttr>(A); (void)SA;
OS << " " << A->getSpelling();
}
void VisitAssumptionAttr(const AssumptionAttr *A) {
const auto *SA = cast<AssumptionAttr>(A); (void)SA;
OS << " \"" << SA->getAssumption() << "\"";
}
void VisitAvailabilityAttr(const AvailabilityAttr *A) {
const auto *SA = cast<AvailabilityAttr>(A); (void)SA;
if (SA->getPlatform())
OS << " " << SA->getPlatform()->getName();
OS << " " << SA->getIntroduced();
OS << " " << SA->getDeprecated();
OS << " " << SA->getObsoleted();
if (SA->getUnavailable()) OS << " Unavailable";
OS << " \"" << SA->getMessage() << "\"";
if (SA->getStrict()) OS << " Strict";
OS << " \"" << SA->getReplacement() << "\"";
OS << " " << SA->getPriority();
}
void VisitBTFTagAttr(const BTFTagAttr *A) {
const auto *SA = cast<BTFTagAttr>(A); (void)SA;
OS << " \"" << SA->getBTFTag() << "\"";
}
void VisitBlocksAttr(const BlocksAttr *A) {
const auto *SA = cast<BlocksAttr>(A); (void)SA;
switch(SA->getType()) {
case BlocksAttr::ByRef:
OS << " ByRef";
break;
}
}
void VisitBuiltinAliasAttr(const BuiltinAliasAttr *A) {
const auto *SA = cast<BuiltinAliasAttr>(A); (void)SA;
OS << " " << A->getSpelling();
if (SA->getBuiltinName())
OS << " " << SA->getBuiltinName()->getName();
}
void VisitCFGuardAttr(const CFGuardAttr *A) {
const auto *SA = cast<CFGuardAttr>(A); (void)SA;
switch(SA->getGuard()) {
case CFGuardAttr::nocf:
OS << " nocf";
break;
}
}
void VisitCPUDispatchAttr(const CPUDispatchAttr *A) {
const auto *SA = cast<CPUDispatchAttr>(A); (void)SA;
for (const auto &Val : SA->cpus())
OS << " " << Val;
}
void VisitCPUSpecificAttr(const CPUSpecificAttr *A) {
const auto *SA = cast<CPUSpecificAttr>(A); (void)SA;
for (const auto &Val : SA->cpus())
OS << " " << Val;
}
void VisitCallableWhenAttr(const CallableWhenAttr *A) {
const auto *SA = cast<CallableWhenAttr>(A); (void)SA;
for (CallableWhenAttr::callableStates_iterator I = SA->callableStates_begin(), E = SA->callableStates_end(); I != E; ++I) {
switch(*I) {
case CallableWhenAttr::Unknown:
OS << " Unknown";
break;
case CallableWhenAttr::Consumed:
OS << " Consumed";
break;
case CallableWhenAttr::Unconsumed:
OS << " Unconsumed";
break;
}
}
}
void VisitCallbackAttr(const CallbackAttr *A) {
const auto *SA = cast<CallbackAttr>(A); (void)SA;
for (const auto &Val : SA->encoding())
OS << " " << Val;
}
void VisitCapabilityAttr(const CapabilityAttr *A) {
const auto *SA = cast<CapabilityAttr>(A); (void)SA;
OS << " " << A->getSpelling();
OS << " \"" << SA->getName() << "\"";
}
void VisitCleanupAttr(const CleanupAttr *A) {
const auto *SA = cast<CleanupAttr>(A); (void)SA;
OS << " ";
dumpBareDeclRef(SA->getFunctionDecl());
}
void VisitCodeSegAttr(const CodeSegAttr *A) {
const auto *SA = cast<CodeSegAttr>(A); (void)SA;
OS << " \"" << SA->getName() << "\"";
}
void VisitConstInitAttr(const ConstInitAttr *A) {
OS << " " << A->getSpelling();
}
void VisitConstructorAttr(const ConstructorAttr *A) {
const auto *SA = cast<ConstructorAttr>(A); (void)SA;
OS << " " << SA->getPriority();
}
void VisitConsumableAttr(const ConsumableAttr *A) {
const auto *SA = cast<ConsumableAttr>(A); (void)SA;
switch(SA->getDefaultState()) {
case ConsumableAttr::Unknown:
OS << " Unknown";
break;
case ConsumableAttr::Consumed:
OS << " Consumed";
break;
case ConsumableAttr::Unconsumed:
OS << " Unconsumed";
break;
}
}
void VisitDeprecatedAttr(const DeprecatedAttr *A) {
const auto *SA = cast<DeprecatedAttr>(A); (void)SA;
OS << " \"" << SA->getMessage() << "\"";
OS << " \"" << SA->getReplacement() << "\"";
}
void VisitDestructorAttr(const DestructorAttr *A) {
const auto *SA = cast<DestructorAttr>(A); (void)SA;
OS << " " << SA->getPriority();
}
void VisitDiagnoseIfAttr(const DiagnoseIfAttr *A) {
const auto *SA = cast<DiagnoseIfAttr>(A); (void)SA;
OS << " \"" << SA->getMessage() << "\"";
switch(SA->getDiagnosticType()) {
case DiagnoseIfAttr::DT_Error:
OS << " DT_Error";
break;
case DiagnoseIfAttr::DT_Warning:
OS << " DT_Warning";
break;
}
if (SA->getArgDependent()) OS << " ArgDependent";
OS << " ";
dumpBareDeclRef(SA->getParent());
}
void VisitEnableIfAttr(const EnableIfAttr *A) {
const auto *SA = cast<EnableIfAttr>(A); (void)SA;
OS << " \"" << SA->getMessage() << "\"";
}
void VisitEnforceTCBAttr(const EnforceTCBAttr *A) {
const auto *SA = cast<EnforceTCBAttr>(A); (void)SA;
OS << " \"" << SA->getTCBName() << "\"";
}
void VisitEnforceTCBLeafAttr(const EnforceTCBLeafAttr *A) {
const auto *SA = cast<EnforceTCBLeafAttr>(A); (void)SA;
OS << " \"" << SA->getTCBName() << "\"";
}
void VisitEnumExtensibilityAttr(const EnumExtensibilityAttr *A) {
const auto *SA = cast<EnumExtensibilityAttr>(A); (void)SA;
switch(SA->getExtensibility()) {
case EnumExtensibilityAttr::Closed:
OS << " Closed";
break;
case EnumExtensibilityAttr::Open:
OS << " Open";
break;
}
}
void VisitErrorAttr(const ErrorAttr *A) {
const auto *SA = cast<ErrorAttr>(A); (void)SA;
OS << " " << A->getSpelling();
OS << " \"" << SA->getUserDiagnostic() << "\"";
}
void VisitExternalSourceSymbolAttr(const ExternalSourceSymbolAttr *A) {
const auto *SA = cast<ExternalSourceSymbolAttr>(A); (void)SA;
OS << " \"" << SA->getLanguage() << "\"";
OS << " \"" << SA->getDefinedIn() << "\"";
if (SA->getGeneratedDeclaration()) OS << " GeneratedDeclaration";
}
void VisitFinalAttr(const FinalAttr *A) {
OS << " " << A->getSpelling();
}
void VisitFormatAttr(const FormatAttr *A) {
const auto *SA = cast<FormatAttr>(A); (void)SA;
if (SA->getType())
OS << " " << SA->getType()->getName();
OS << " " << SA->getFormatIdx();
OS << " " << SA->getFirstArg();
}
void VisitFormatArgAttr(const FormatArgAttr *A) {
const auto *SA = cast<FormatArgAttr>(A); (void)SA;
OS << " " << SA->getFormatIdx().getSourceIndex();
}
void VisitIBOutletCollectionAttr(const IBOutletCollectionAttr *A) {
const auto *SA = cast<IBOutletCollectionAttr>(A); (void)SA;
if (SA->getInterfaceLoc()) OS << " " << SA->getInterface().getAsString();
}
void VisitIFuncAttr(const IFuncAttr *A) {
const auto *SA = cast<IFuncAttr>(A); (void)SA;
OS << " \"" << SA->getResolver() << "\"";
}
void VisitInitPriorityAttr(const InitPriorityAttr *A) {
const auto *SA = cast<InitPriorityAttr>(A); (void)SA;
OS << " " << SA->getPriority();
}
void VisitInitSegAttr(const InitSegAttr *A) {
const auto *SA = cast<InitSegAttr>(A); (void)SA;
OS << " \"" << SA->getSection() << "\"";
}
void VisitLayoutVersionAttr(const LayoutVersionAttr *A) {
const auto *SA = cast<LayoutVersionAttr>(A); (void)SA;
OS << " " << SA->getVersion();
}
void VisitLoopHintAttr(const LoopHintAttr *A) {
const auto *SA = cast<LoopHintAttr>(A); (void)SA;
OS << " " << A->getSpelling();
switch(SA->getOption()) {
case LoopHintAttr::Vectorize:
OS << " Vectorize";
break;
case LoopHintAttr::VectorizeWidth:
OS << " VectorizeWidth";
break;
case LoopHintAttr::Interleave:
OS << " Interleave";
break;
case LoopHintAttr::InterleaveCount:
OS << " InterleaveCount";
break;
case LoopHintAttr::Unroll:
OS << " Unroll";
break;
case LoopHintAttr::UnrollCount:
OS << " UnrollCount";
break;
case LoopHintAttr::UnrollAndJam:
OS << " UnrollAndJam";
break;
case LoopHintAttr::UnrollAndJamCount:
OS << " UnrollAndJamCount";
break;
case LoopHintAttr::PipelineDisabled:
OS << " PipelineDisabled";
break;
case LoopHintAttr::PipelineInitiationInterval:
OS << " PipelineInitiationInterval";
break;
case LoopHintAttr::Distribute:
OS << " Distribute";
break;
case LoopHintAttr::VectorizePredicate:
OS << " VectorizePredicate";
break;
}
switch(SA->getState()) {
case LoopHintAttr::Enable:
OS << " Enable";
break;
case LoopHintAttr::Disable:
OS << " Disable";
break;
case LoopHintAttr::Numeric:
OS << " Numeric";
break;
case LoopHintAttr::FixedWidth:
OS << " FixedWidth";
break;
case LoopHintAttr::ScalableWidth:
OS << " ScalableWidth";
break;
case LoopHintAttr::AssumeSafety:
OS << " AssumeSafety";
break;
case LoopHintAttr::Full:
OS << " Full";
break;
}
}
void VisitM68kInterruptAttr(const M68kInterruptAttr *A) {
const auto *SA = cast<M68kInterruptAttr>(A); (void)SA;
OS << " " << SA->getNumber();
}
void VisitMSInheritanceAttr(const MSInheritanceAttr *A) {
const auto *SA = cast<MSInheritanceAttr>(A); (void)SA;
OS << " " << A->getSpelling();
if (SA->getBestCase()) OS << " BestCase";
}
void VisitMSP430InterruptAttr(const MSP430InterruptAttr *A) {
const auto *SA = cast<MSP430InterruptAttr>(A); (void)SA;
OS << " " << SA->getNumber();
}
void VisitMSVtorDispAttr(const MSVtorDispAttr *A) {
const auto *SA = cast<MSVtorDispAttr>(A); (void)SA;
OS << " " << SA->getVdm();
}
void VisitMaxFieldAlignmentAttr(const MaxFieldAlignmentAttr *A) {
const auto *SA = cast<MaxFieldAlignmentAttr>(A); (void)SA;
OS << " " << SA->getAlignment();
}
void VisitMinVectorWidthAttr(const MinVectorWidthAttr *A) {
const auto *SA = cast<MinVectorWidthAttr>(A); (void)SA;
OS << " " << SA->getVectorWidth();
}
void VisitMipsInterruptAttr(const MipsInterruptAttr *A) {
const auto *SA = cast<MipsInterruptAttr>(A); (void)SA;
switch(SA->getInterrupt()) {
case MipsInterruptAttr::sw0:
OS << " sw0";
break;
case MipsInterruptAttr::sw1:
OS << " sw1";
break;
case MipsInterruptAttr::hw0:
OS << " hw0";
break;
case MipsInterruptAttr::hw1:
OS << " hw1";
break;
case MipsInterruptAttr::hw2:
OS << " hw2";
break;
case MipsInterruptAttr::hw3:
OS << " hw3";
break;
case MipsInterruptAttr::hw4:
OS << " hw4";
break;
case MipsInterruptAttr::hw5:
OS << " hw5";
break;
case MipsInterruptAttr::eic:
OS << " eic";
break;
}
}
void VisitMipsLongCallAttr(const MipsLongCallAttr *A) {
OS << " " << A->getSpelling();
}
void VisitMipsShortCallAttr(const MipsShortCallAttr *A) {
OS << " " << A->getSpelling();
}
void VisitModeAttr(const ModeAttr *A) {
const auto *SA = cast<ModeAttr>(A); (void)SA;
if (SA->getMode())
OS << " " << SA->getMode()->getName();
}
void VisitNSErrorDomainAttr(const NSErrorDomainAttr *A) {
const auto *SA = cast<NSErrorDomainAttr>(A); (void)SA;
OS << " ";
dumpBareDeclRef(SA->getErrorDomain());
}
void VisitNoBuiltinAttr(const NoBuiltinAttr *A) {
const auto *SA = cast<NoBuiltinAttr>(A); (void)SA;
for (const auto &Val : SA->builtinNames())
OS << " " << Val;
}
void VisitNoSanitizeAttr(const NoSanitizeAttr *A) {
const auto *SA = cast<NoSanitizeAttr>(A); (void)SA;
for (const auto &Val : SA->sanitizers())
OS << " " << Val;
}
void VisitNonNullAttr(const NonNullAttr *A) {
const auto *SA = cast<NonNullAttr>(A); (void)SA;
for (const auto &Val : SA->args())
OS << " " << Val.getSourceIndex();
}
void VisitOMPAllocateDeclAttr(const OMPAllocateDeclAttr *A) {
const auto *SA = cast<OMPAllocateDeclAttr>(A); (void)SA;
switch(SA->getAllocatorType()) {
case OMPAllocateDeclAttr::OMPNullMemAlloc:
OS << " OMPNullMemAlloc";
break;
case OMPAllocateDeclAttr::OMPDefaultMemAlloc:
OS << " OMPDefaultMemAlloc";
break;
case OMPAllocateDeclAttr::OMPLargeCapMemAlloc:
OS << " OMPLargeCapMemAlloc";
break;
case OMPAllocateDeclAttr::OMPConstMemAlloc:
OS << " OMPConstMemAlloc";
break;
case OMPAllocateDeclAttr::OMPHighBWMemAlloc:
OS << " OMPHighBWMemAlloc";
break;
case OMPAllocateDeclAttr::OMPLowLatMemAlloc:
OS << " OMPLowLatMemAlloc";
break;
case OMPAllocateDeclAttr::OMPCGroupMemAlloc:
OS << " OMPCGroupMemAlloc";
break;
case OMPAllocateDeclAttr::OMPPTeamMemAlloc:
OS << " OMPPTeamMemAlloc";
break;
case OMPAllocateDeclAttr::OMPThreadMemAlloc:
OS << " OMPThreadMemAlloc";
break;
case OMPAllocateDeclAttr::OMPUserDefinedMemAlloc:
OS << " OMPUserDefinedMemAlloc";
break;
}
}
void VisitOMPCaptureKindAttr(const OMPCaptureKindAttr *A) {
const auto *SA = cast<OMPCaptureKindAttr>(A); (void)SA;
OS << " " << SA->getCaptureKindVal();
}
void VisitOMPDeclareSimdDeclAttr(const OMPDeclareSimdDeclAttr *A) {
const auto *SA = cast<OMPDeclareSimdDeclAttr>(A); (void)SA;
switch(SA->getBranchState()) {
case OMPDeclareSimdDeclAttr::BS_Undefined:
OS << " BS_Undefined";
break;
case OMPDeclareSimdDeclAttr::BS_Inbranch:
OS << " BS_Inbranch";
break;
case OMPDeclareSimdDeclAttr::BS_Notinbranch:
OS << " BS_Notinbranch";
break;
}
for (const auto &Val : SA->modifiers())
OS << " " << Val;
}
void VisitOMPDeclareTargetDeclAttr(const OMPDeclareTargetDeclAttr *A) {
const auto *SA = cast<OMPDeclareTargetDeclAttr>(A); (void)SA;
switch(SA->getMapType()) {
case OMPDeclareTargetDeclAttr::MT_To:
OS << " MT_To";
break;
case OMPDeclareTargetDeclAttr::MT_Link:
OS << " MT_Link";
break;
}
switch(SA->getDevType()) {
case OMPDeclareTargetDeclAttr::DT_Host:
OS << " DT_Host";
break;
case OMPDeclareTargetDeclAttr::DT_NoHost:
OS << " DT_NoHost";
break;
case OMPDeclareTargetDeclAttr::DT_Any:
OS << " DT_Any";
break;
}
OS << " " << SA->getLevel();
}
void VisitOMPDeclareVariantAttr(const OMPDeclareVariantAttr *A) {
const auto *SA = cast<OMPDeclareVariantAttr>(A); (void)SA;
OS << " " << SA->getTraitInfos();
}
void VisitObjCBridgeAttr(const ObjCBridgeAttr *A) {
const auto *SA = cast<ObjCBridgeAttr>(A); (void)SA;
if (SA->getBridgedType())
OS << " " << SA->getBridgedType()->getName();
}
void VisitObjCBridgeMutableAttr(const ObjCBridgeMutableAttr *A) {
const auto *SA = cast<ObjCBridgeMutableAttr>(A); (void)SA;
if (SA->getBridgedType())
OS << " " << SA->getBridgedType()->getName();
}
void VisitObjCBridgeRelatedAttr(const ObjCBridgeRelatedAttr *A) {
const auto *SA = cast<ObjCBridgeRelatedAttr>(A); (void)SA;
if (SA->getRelatedClass())
OS << " " << SA->getRelatedClass()->getName();
if (SA->getClassMethod())
OS << " " << SA->getClassMethod()->getName();
if (SA->getInstanceMethod())
OS << " " << SA->getInstanceMethod()->getName();
}
void VisitObjCGCAttr(const ObjCGCAttr *A) {
const auto *SA = cast<ObjCGCAttr>(A); (void)SA;
if (SA->getKind())
OS << " " << SA->getKind()->getName();
}
void VisitObjCMethodFamilyAttr(const ObjCMethodFamilyAttr *A) {
const auto *SA = cast<ObjCMethodFamilyAttr>(A); (void)SA;
switch(SA->getFamily()) {
case ObjCMethodFamilyAttr::OMF_None:
OS << " OMF_None";
break;
case ObjCMethodFamilyAttr::OMF_alloc:
OS << " OMF_alloc";
break;
case ObjCMethodFamilyAttr::OMF_copy:
OS << " OMF_copy";
break;
case ObjCMethodFamilyAttr::OMF_init:
OS << " OMF_init";
break;
case ObjCMethodFamilyAttr::OMF_mutableCopy:
OS << " OMF_mutableCopy";
break;
case ObjCMethodFamilyAttr::OMF_new:
OS << " OMF_new";
break;
}
}
void VisitObjCOwnershipAttr(const ObjCOwnershipAttr *A) {
const auto *SA = cast<ObjCOwnershipAttr>(A); (void)SA;
if (SA->getKind())
OS << " " << SA->getKind()->getName();
}
void VisitObjCRuntimeNameAttr(const ObjCRuntimeNameAttr *A) {
const auto *SA = cast<ObjCRuntimeNameAttr>(A); (void)SA;
OS << " \"" << SA->getMetadataName() << "\"";
}
void VisitOpenCLAccessAttr(const OpenCLAccessAttr *A) {
OS << " " << A->getSpelling();
}
void VisitOpenCLConstantAddressSpaceAttr(const OpenCLConstantAddressSpaceAttr *A) {
OS << " " << A->getSpelling();
}
void VisitOpenCLGenericAddressSpaceAttr(const OpenCLGenericAddressSpaceAttr *A) {
OS << " " << A->getSpelling();
}
void VisitOpenCLGlobalAddressSpaceAttr(const OpenCLGlobalAddressSpaceAttr *A) {
OS << " " << A->getSpelling();
}
void VisitOpenCLIntelReqdSubGroupSizeAttr(const OpenCLIntelReqdSubGroupSizeAttr *A) {
const auto *SA = cast<OpenCLIntelReqdSubGroupSizeAttr>(A); (void)SA;
OS << " " << SA->getSubGroupSize();
}
void VisitOpenCLLocalAddressSpaceAttr(const OpenCLLocalAddressSpaceAttr *A) {
OS << " " << A->getSpelling();
}
void VisitOpenCLPrivateAddressSpaceAttr(const OpenCLPrivateAddressSpaceAttr *A) {
OS << " " << A->getSpelling();
}
void VisitOpenCLUnrollHintAttr(const OpenCLUnrollHintAttr *A) {
const auto *SA = cast<OpenCLUnrollHintAttr>(A); (void)SA;
OS << " " << SA->getUnrollHint();
}
void VisitOwnerAttr(const OwnerAttr *A) {
const auto *SA = cast<OwnerAttr>(A); (void)SA;
if (SA->getDerefTypeLoc()) OS << " " << SA->getDerefType().getAsString();
}
void VisitOwnershipAttr(const OwnershipAttr *A) {
const auto *SA = cast<OwnershipAttr>(A); (void)SA;
OS << " " << A->getSpelling();
if (SA->getModule())
OS << " " << SA->getModule()->getName();
for (const auto &Val : SA->args())
OS << " " << Val.getSourceIndex();
}
void VisitParamTypestateAttr(const ParamTypestateAttr *A) {
const auto *SA = cast<ParamTypestateAttr>(A); (void)SA;
switch(SA->getParamState()) {
case ParamTypestateAttr::Unknown:
OS << " Unknown";
break;
case ParamTypestateAttr::Consumed:
OS << " Consumed";
break;
case ParamTypestateAttr::Unconsumed:
OS << " Unconsumed";
break;
}
}
void VisitPassObjectSizeAttr(const PassObjectSizeAttr *A) {
const auto *SA = cast<PassObjectSizeAttr>(A); (void)SA;
OS << " " << A->getSpelling();
OS << " " << SA->getType();
}
void VisitPatchableFunctionEntryAttr(const PatchableFunctionEntryAttr *A) {
const auto *SA = cast<PatchableFunctionEntryAttr>(A); (void)SA;
OS << " " << SA->getCount();
OS << " " << SA->getOffset();
}
void VisitPcsAttr(const PcsAttr *A) {
const auto *SA = cast<PcsAttr>(A); (void)SA;
switch(SA->getPCS()) {
case PcsAttr::AAPCS:
OS << " AAPCS";
break;
case PcsAttr::AAPCS_VFP:
OS << " AAPCS_VFP";
break;
}
}
void VisitPointerAttr(const PointerAttr *A) {
const auto *SA = cast<PointerAttr>(A); (void)SA;
if (SA->getDerefTypeLoc()) OS << " " << SA->getDerefType().getAsString();
}
void VisitPragmaClangBSSSectionAttr(const PragmaClangBSSSectionAttr *A) {
const auto *SA = cast<PragmaClangBSSSectionAttr>(A); (void)SA;
OS << " \"" << SA->getName() << "\"";
}
void VisitPragmaClangDataSectionAttr(const PragmaClangDataSectionAttr *A) {
const auto *SA = cast<PragmaClangDataSectionAttr>(A); (void)SA;
OS << " \"" << SA->getName() << "\"";
}
void VisitPragmaClangRelroSectionAttr(const PragmaClangRelroSectionAttr *A) {
const auto *SA = cast<PragmaClangRelroSectionAttr>(A); (void)SA;
OS << " \"" << SA->getName() << "\"";
}
void VisitPragmaClangRodataSectionAttr(const PragmaClangRodataSectionAttr *A) {
const auto *SA = cast<PragmaClangRodataSectionAttr>(A); (void)SA;
OS << " \"" << SA->getName() << "\"";
}
void VisitPragmaClangTextSectionAttr(const PragmaClangTextSectionAttr *A) {
const auto *SA = cast<PragmaClangTextSectionAttr>(A); (void)SA;
OS << " \"" << SA->getName() << "\"";
}
void VisitPreferredNameAttr(const PreferredNameAttr *A) {
const auto *SA = cast<PreferredNameAttr>(A); (void)SA;
OS << " " << SA->getTypedefType().getAsString();
}
void VisitRISCVInterruptAttr(const RISCVInterruptAttr *A) {
const auto *SA = cast<RISCVInterruptAttr>(A); (void)SA;
switch(SA->getInterrupt()) {
case RISCVInterruptAttr::user:
OS << " user";
break;
case RISCVInterruptAttr::supervisor:
OS << " supervisor";
break;
case RISCVInterruptAttr::machine:
OS << " machine";
break;
}
}
void VisitReleaseCapabilityAttr(const ReleaseCapabilityAttr *A) {
const auto *SA = cast<ReleaseCapabilityAttr>(A); (void)SA;
OS << " " << A->getSpelling();
}
void VisitReleaseHandleAttr(const ReleaseHandleAttr *A) {
const auto *SA = cast<ReleaseHandleAttr>(A); (void)SA;
OS << " \"" << SA->getHandleType() << "\"";
}
void VisitReqdWorkGroupSizeAttr(const ReqdWorkGroupSizeAttr *A) {
const auto *SA = cast<ReqdWorkGroupSizeAttr>(A); (void)SA;
OS << " " << SA->getXDim();
OS << " " << SA->getYDim();
OS << " " << SA->getZDim();
}
void VisitRequiresCapabilityAttr(const RequiresCapabilityAttr *A) {
const auto *SA = cast<RequiresCapabilityAttr>(A); (void)SA;
OS << " " << A->getSpelling();
}
void VisitRestrictAttr(const RestrictAttr *A) {
OS << " " << A->getSpelling();
}
void VisitReturnTypestateAttr(const ReturnTypestateAttr *A) {
const auto *SA = cast<ReturnTypestateAttr>(A); (void)SA;
switch(SA->getState()) {
case ReturnTypestateAttr::Unknown:
OS << " Unknown";
break;
case ReturnTypestateAttr::Consumed:
OS << " Consumed";
break;
case ReturnTypestateAttr::Unconsumed:
OS << " Unconsumed";
break;
}
}
void VisitSectionAttr(const SectionAttr *A) {
const auto *SA = cast<SectionAttr>(A); (void)SA;
OS << " " << A->getSpelling();
OS << " \"" << SA->getName() << "\"";
}
void VisitSentinelAttr(const SentinelAttr *A) {
const auto *SA = cast<SentinelAttr>(A); (void)SA;
OS << " " << SA->getSentinel();
OS << " " << SA->getNullPos();
}
void VisitSetTypestateAttr(const SetTypestateAttr *A) {
const auto *SA = cast<SetTypestateAttr>(A); (void)SA;
switch(SA->getNewState()) {
case SetTypestateAttr::Unknown:
OS << " Unknown";
break;
case SetTypestateAttr::Consumed:
OS << " Consumed";
break;
case SetTypestateAttr::Unconsumed:
OS << " Unconsumed";
break;
}
}
void VisitSuppressAttr(const SuppressAttr *A) {
const auto *SA = cast<SuppressAttr>(A); (void)SA;
for (const auto &Val : SA->diagnosticIdentifiers())
OS << " " << Val;
}
void VisitSwiftAsyncAttr(const SwiftAsyncAttr *A) {
const auto *SA = cast<SwiftAsyncAttr>(A); (void)SA;
switch(SA->getKind()) {
case SwiftAsyncAttr::None:
OS << " None";
break;
case SwiftAsyncAttr::SwiftPrivate:
OS << " SwiftPrivate";
break;
case SwiftAsyncAttr::NotSwiftPrivate:
OS << " NotSwiftPrivate";
break;
}
if (SA->getCompletionHandlerIndex().isValid())
OS << " " << SA->getCompletionHandlerIndex().getSourceIndex();
}
void VisitSwiftAsyncErrorAttr(const SwiftAsyncErrorAttr *A) {
const auto *SA = cast<SwiftAsyncErrorAttr>(A); (void)SA;
switch(SA->getConvention()) {
case SwiftAsyncErrorAttr::None:
OS << " None";
break;
case SwiftAsyncErrorAttr::NonNullError:
OS << " NonNullError";
break;
case SwiftAsyncErrorAttr::ZeroArgument:
OS << " ZeroArgument";
break;
case SwiftAsyncErrorAttr::NonZeroArgument:
OS << " NonZeroArgument";
break;
}
OS << " " << SA->getHandlerParamIdx();
}
void VisitSwiftAsyncNameAttr(const SwiftAsyncNameAttr *A) {
const auto *SA = cast<SwiftAsyncNameAttr>(A); (void)SA;
OS << " \"" << SA->getName() << "\"";
}
void VisitSwiftAttrAttr(const SwiftAttrAttr *A) {
const auto *SA = cast<SwiftAttrAttr>(A); (void)SA;
OS << " \"" << SA->getAttribute() << "\"";
}
void VisitSwiftBridgeAttr(const SwiftBridgeAttr *A) {
const auto *SA = cast<SwiftBridgeAttr>(A); (void)SA;
OS << " \"" << SA->getSwiftType() << "\"";
}
void VisitSwiftErrorAttr(const SwiftErrorAttr *A) {
const auto *SA = cast<SwiftErrorAttr>(A); (void)SA;
switch(SA->getConvention()) {
case SwiftErrorAttr::None:
OS << " None";
break;
case SwiftErrorAttr::NonNullError:
OS << " NonNullError";
break;
case SwiftErrorAttr::NullResult:
OS << " NullResult";
break;
case SwiftErrorAttr::ZeroResult:
OS << " ZeroResult";
break;
case SwiftErrorAttr::NonZeroResult:
OS << " NonZeroResult";
break;
}
}
void VisitSwiftNameAttr(const SwiftNameAttr *A) {
const auto *SA = cast<SwiftNameAttr>(A); (void)SA;
OS << " \"" << SA->getName() << "\"";
}
void VisitSwiftNewTypeAttr(const SwiftNewTypeAttr *A) {
const auto *SA = cast<SwiftNewTypeAttr>(A); (void)SA;
OS << " " << A->getSpelling();
switch(SA->getNewtypeKind()) {
case SwiftNewTypeAttr::NK_Struct:
OS << " NK_Struct";
break;
case SwiftNewTypeAttr::NK_Enum:
OS << " NK_Enum";
break;
}
}
void VisitTLSModelAttr(const TLSModelAttr *A) {
const auto *SA = cast<TLSModelAttr>(A); (void)SA;
OS << " \"" << SA->getModel() << "\"";
}
void VisitTargetAttr(const TargetAttr *A) {
const auto *SA = cast<TargetAttr>(A); (void)SA;
OS << " \"" << SA->getFeaturesStr() << "\"";
}
void VisitTestTypestateAttr(const TestTypestateAttr *A) {
const auto *SA = cast<TestTypestateAttr>(A); (void)SA;
switch(SA->getTestState()) {
case TestTypestateAttr::Consumed:
OS << " Consumed";
break;
case TestTypestateAttr::Unconsumed:
OS << " Unconsumed";
break;
}
}
void VisitTryAcquireCapabilityAttr(const TryAcquireCapabilityAttr *A) {
const auto *SA = cast<TryAcquireCapabilityAttr>(A); (void)SA;
OS << " " << A->getSpelling();
}
void VisitTypeTagForDatatypeAttr(const TypeTagForDatatypeAttr *A) {
const auto *SA = cast<TypeTagForDatatypeAttr>(A); (void)SA;
if (SA->getArgumentKind())
OS << " " << SA->getArgumentKind()->getName();
OS << " " << SA->getMatchingCType().getAsString();
if (SA->getLayoutCompatible()) OS << " LayoutCompatible";
if (SA->getMustBeNull()) OS << " MustBeNull";
}
void VisitTypeVisibilityAttr(const TypeVisibilityAttr *A) {
const auto *SA = cast<TypeVisibilityAttr>(A); (void)SA;
switch(SA->getVisibility()) {
case TypeVisibilityAttr::Default:
OS << " Default";
break;
case TypeVisibilityAttr::Hidden:
OS << " Hidden";
break;
case TypeVisibilityAttr::Protected:
OS << " Protected";
break;
}
}
void VisitUnavailableAttr(const UnavailableAttr *A) {
const auto *SA = cast<UnavailableAttr>(A); (void)SA;
OS << " \"" << SA->getMessage() << "\"";
switch(SA->getImplicitReason()) {
case UnavailableAttr::IR_None:
OS << " IR_None";
break;
case UnavailableAttr::IR_ARCForbiddenType:
OS << " IR_ARCForbiddenType";
break;
case UnavailableAttr::IR_ForbiddenWeak:
OS << " IR_ForbiddenWeak";
break;
case UnavailableAttr::IR_ARCForbiddenConversion:
OS << " IR_ARCForbiddenConversion";
break;
case UnavailableAttr::IR_ARCInitReturnsUnrelated:
OS << " IR_ARCInitReturnsUnrelated";
break;
case UnavailableAttr::IR_ARCFieldWithOwnership:
OS << " IR_ARCFieldWithOwnership";
break;
}
}
void VisitUnusedAttr(const UnusedAttr *A) {
OS << " " << A->getSpelling();
}
void VisitUseHandleAttr(const UseHandleAttr *A) {
const auto *SA = cast<UseHandleAttr>(A); (void)SA;
OS << " \"" << SA->getHandleType() << "\"";
}
void VisitUuidAttr(const UuidAttr *A) {
const auto *SA = cast<UuidAttr>(A); (void)SA;
OS << " \"" << SA->getGuid() << "\"";
OS << " ";
dumpBareDeclRef(SA->getGuidDecl());
}
void VisitVecTypeHintAttr(const VecTypeHintAttr *A) {
const auto *SA = cast<VecTypeHintAttr>(A); (void)SA;
OS << " " << SA->getTypeHint().getAsString();
}
void VisitVisibilityAttr(const VisibilityAttr *A) {
const auto *SA = cast<VisibilityAttr>(A); (void)SA;
switch(SA->getVisibility()) {
case VisibilityAttr::Default:
OS << " Default";
break;
case VisibilityAttr::Hidden:
OS << " Hidden";
break;
case VisibilityAttr::Protected:
OS << " Protected";
break;
}
}
void VisitWarnUnusedResultAttr(const WarnUnusedResultAttr *A) {
const auto *SA = cast<WarnUnusedResultAttr>(A); (void)SA;
OS << " " << A->getSpelling();
OS << " \"" << SA->getMessage() << "\"";
}
void VisitWeakRefAttr(const WeakRefAttr *A) {
const auto *SA = cast<WeakRefAttr>(A); (void)SA;
OS << " \"" << SA->getAliasee() << "\"";
}
void VisitWebAssemblyExportNameAttr(const WebAssemblyExportNameAttr *A) {
const auto *SA = cast<WebAssemblyExportNameAttr>(A); (void)SA;
OS << " \"" << SA->getExportName() << "\"";
}
void VisitWebAssemblyImportModuleAttr(const WebAssemblyImportModuleAttr *A) {
const auto *SA = cast<WebAssemblyImportModuleAttr>(A); (void)SA;
OS << " \"" << SA->getImportModule() << "\"";
}
void VisitWebAssemblyImportNameAttr(const WebAssemblyImportNameAttr *A) {
const auto *SA = cast<WebAssemblyImportNameAttr>(A); (void)SA;
OS << " \"" << SA->getImportName() << "\"";
}
void VisitWorkGroupSizeHintAttr(const WorkGroupSizeHintAttr *A) {
const auto *SA = cast<WorkGroupSizeHintAttr>(A); (void)SA;
OS << " " << SA->getXDim();
OS << " " << SA->getYDim();
OS << " " << SA->getZDim();
}
void VisitXRayInstrumentAttr(const XRayInstrumentAttr *A) {
OS << " " << A->getSpelling();
}
void VisitXRayLogArgsAttr(const XRayLogArgsAttr *A) {
const auto *SA = cast<XRayLogArgsAttr>(A); (void)SA;
OS << " " << SA->getArgumentCount();
}