//===-- APINotesYAMLCompiler.cpp - API Notes YAML Format Reader -*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // The types defined locally are designed to represent the YAML state, which // adds an additional bit of state: e.g. a tri-state boolean attribute (yes, no, // not applied) becomes a tri-state boolean + present. As a result, while these // enumerations appear to be redefining constants from the attributes table // data, they are distinct. // #include "clang/APINotes/APINotesYAMLCompiler.h" #include "clang/APINotes/APINotesWriter.h" #include "clang/APINotes/Types.h" #include "clang/Basic/LLVM.h" #include "clang/Basic/Specifiers.h" #include "llvm/ADT/StringSet.h" #include "llvm/Support/SourceMgr.h" #include "llvm/Support/VersionTuple.h" #include "llvm/Support/YAMLTraits.h" #include #include #include using namespace clang; using namespace api_notes; namespace { enum class APIAvailability { Available = 0, None, NonSwift, }; } // namespace namespace llvm { namespace yaml { template <> struct ScalarEnumerationTraits { static void enumeration(IO &IO, APIAvailability &AA) { IO.enumCase(AA, "none", APIAvailability::None); IO.enumCase(AA, "nonswift", APIAvailability::NonSwift); IO.enumCase(AA, "available", APIAvailability::Available); } }; } // namespace yaml } // namespace llvm namespace { enum class MethodKind { Class, Instance, }; } // namespace namespace llvm { namespace yaml { template <> struct ScalarEnumerationTraits { static void enumeration(IO &IO, MethodKind &MK) { IO.enumCase(MK, "Class", MethodKind::Class); IO.enumCase(MK, "Instance", MethodKind::Instance); } }; } // namespace yaml } // namespace llvm namespace { struct Param { int Position; std::optional NoEscape = false; std::optional Lifetimebound = false; std::optional Nullability; std::optional RetainCountConvention; StringRef Type; }; typedef std::vector ParamsSeq; } // namespace LLVM_YAML_IS_SEQUENCE_VECTOR(Param) LLVM_YAML_IS_FLOW_SEQUENCE_VECTOR(NullabilityKind) namespace llvm { namespace yaml { template <> struct ScalarEnumerationTraits { static void enumeration(IO &IO, NullabilityKind &NK) { IO.enumCase(NK, "Nonnull", NullabilityKind::NonNull); IO.enumCase(NK, "Optional", NullabilityKind::Nullable); IO.enumCase(NK, "Unspecified", NullabilityKind::Unspecified); IO.enumCase(NK, "NullableResult", NullabilityKind::NullableResult); // TODO: Mapping this to it's own value would allow for better cross // checking. Also the default should be Unknown. IO.enumCase(NK, "Scalar", NullabilityKind::Unspecified); // Aliases for compatibility with existing APINotes. IO.enumCase(NK, "N", NullabilityKind::NonNull); IO.enumCase(NK, "O", NullabilityKind::Nullable); IO.enumCase(NK, "U", NullabilityKind::Unspecified); IO.enumCase(NK, "S", NullabilityKind::Unspecified); } }; template <> struct ScalarEnumerationTraits { static void enumeration(IO &IO, RetainCountConventionKind &RCCK) { IO.enumCase(RCCK, "none", RetainCountConventionKind::None); IO.enumCase(RCCK, "CFReturnsRetained", RetainCountConventionKind::CFReturnsRetained); IO.enumCase(RCCK, "CFReturnsNotRetained", RetainCountConventionKind::CFReturnsNotRetained); IO.enumCase(RCCK, "NSReturnsRetained", RetainCountConventionKind::NSReturnsRetained); IO.enumCase(RCCK, "NSReturnsNotRetained", RetainCountConventionKind::NSReturnsNotRetained); } }; template <> struct MappingTraits { static void mapping(IO &IO, Param &P) { IO.mapRequired("Position", P.Position); IO.mapOptional("Nullability", P.Nullability, std::nullopt); IO.mapOptional("RetainCountConvention", P.RetainCountConvention); IO.mapOptional("NoEscape", P.NoEscape); IO.mapOptional("Lifetimebound", P.Lifetimebound); IO.mapOptional("Type", P.Type, StringRef("")); } }; } // namespace yaml } // namespace llvm namespace { typedef std::vector NullabilitySeq; struct AvailabilityItem { APIAvailability Mode = APIAvailability::Available; StringRef Msg; }; /// Old attribute deprecated in favor of SwiftName. enum class FactoryAsInitKind { /// Infer based on name and type (the default). Infer, /// Treat as a class method. AsClassMethod, /// Treat as an initializer. AsInitializer, }; struct Method { StringRef Selector; MethodKind Kind; ParamsSeq Params; NullabilitySeq Nullability; std::optional NullabilityOfRet; std::optional RetainCountConvention; AvailabilityItem Availability; std::optional SwiftPrivate; StringRef SwiftName; FactoryAsInitKind FactoryAsInit = FactoryAsInitKind::Infer; bool DesignatedInit = false; bool Required = false; StringRef ResultType; StringRef SwiftReturnOwnership; }; typedef std::vector MethodsSeq; } // namespace LLVM_YAML_IS_SEQUENCE_VECTOR(Method) namespace llvm { namespace yaml { template <> struct ScalarEnumerationTraits { static void enumeration(IO &IO, FactoryAsInitKind &FIK) { IO.enumCase(FIK, "A", FactoryAsInitKind::Infer); IO.enumCase(FIK, "C", FactoryAsInitKind::AsClassMethod); IO.enumCase(FIK, "I", FactoryAsInitKind::AsInitializer); } }; template <> struct MappingTraits { static void mapping(IO &IO, Method &M) { IO.mapRequired("Selector", M.Selector); IO.mapRequired("MethodKind", M.Kind); IO.mapOptional("Parameters", M.Params); IO.mapOptional("Nullability", M.Nullability); IO.mapOptional("NullabilityOfRet", M.NullabilityOfRet, std::nullopt); IO.mapOptional("RetainCountConvention", M.RetainCountConvention); IO.mapOptional("Availability", M.Availability.Mode, APIAvailability::Available); IO.mapOptional("AvailabilityMsg", M.Availability.Msg, StringRef("")); IO.mapOptional("SwiftPrivate", M.SwiftPrivate); IO.mapOptional("SwiftName", M.SwiftName, StringRef("")); IO.mapOptional("FactoryAsInit", M.FactoryAsInit, FactoryAsInitKind::Infer); IO.mapOptional("DesignatedInit", M.DesignatedInit, false); IO.mapOptional("Required", M.Required, false); IO.mapOptional("ResultType", M.ResultType, StringRef("")); IO.mapOptional("SwiftReturnOwnership", M.SwiftReturnOwnership, StringRef("")); } }; } // namespace yaml } // namespace llvm namespace { struct Property { StringRef Name; std::optional Kind; std::optional Nullability; AvailabilityItem Availability; std::optional SwiftPrivate; StringRef SwiftName; std::optional SwiftImportAsAccessors; StringRef Type; }; typedef std::vector PropertiesSeq; } // namespace LLVM_YAML_IS_SEQUENCE_VECTOR(Property) namespace llvm { namespace yaml { template <> struct MappingTraits { static void mapping(IO &IO, Property &P) { IO.mapRequired("Name", P.Name); IO.mapOptional("PropertyKind", P.Kind); IO.mapOptional("Nullability", P.Nullability, std::nullopt); IO.mapOptional("Availability", P.Availability.Mode, APIAvailability::Available); IO.mapOptional("AvailabilityMsg", P.Availability.Msg, StringRef("")); IO.mapOptional("SwiftPrivate", P.SwiftPrivate); IO.mapOptional("SwiftName", P.SwiftName, StringRef("")); IO.mapOptional("SwiftImportAsAccessors", P.SwiftImportAsAccessors); IO.mapOptional("Type", P.Type, StringRef("")); } }; } // namespace yaml } // namespace llvm namespace { struct Class { StringRef Name; bool AuditedForNullability = false; AvailabilityItem Availability; std::optional SwiftPrivate; StringRef SwiftName; std::optional SwiftBridge; std::optional NSErrorDomain; std::optional SwiftImportAsNonGeneric; std::optional SwiftObjCMembers; MethodsSeq Methods; PropertiesSeq Properties; }; typedef std::vector ClassesSeq; } // namespace LLVM_YAML_IS_SEQUENCE_VECTOR(Class) namespace llvm { namespace yaml { template <> struct MappingTraits { static void mapping(IO &IO, Class &C) { IO.mapRequired("Name", C.Name); IO.mapOptional("AuditedForNullability", C.AuditedForNullability, false); IO.mapOptional("Availability", C.Availability.Mode, APIAvailability::Available); IO.mapOptional("AvailabilityMsg", C.Availability.Msg, StringRef("")); IO.mapOptional("SwiftPrivate", C.SwiftPrivate); IO.mapOptional("SwiftName", C.SwiftName, StringRef("")); IO.mapOptional("SwiftBridge", C.SwiftBridge); IO.mapOptional("NSErrorDomain", C.NSErrorDomain); IO.mapOptional("SwiftImportAsNonGeneric", C.SwiftImportAsNonGeneric); IO.mapOptional("SwiftObjCMembers", C.SwiftObjCMembers); IO.mapOptional("Methods", C.Methods); IO.mapOptional("Properties", C.Properties); } }; } // namespace yaml } // namespace llvm namespace { struct Function { StringRef Name; ParamsSeq Params; NullabilitySeq Nullability; std::optional NullabilityOfRet; std::optional RetainCountConvention; AvailabilityItem Availability; std::optional SwiftPrivate; StringRef SwiftName; StringRef Type; StringRef ResultType; StringRef SwiftReturnOwnership; }; typedef std::vector FunctionsSeq; } // namespace LLVM_YAML_IS_SEQUENCE_VECTOR(Function) namespace llvm { namespace yaml { template <> struct MappingTraits { static void mapping(IO &IO, Function &F) { IO.mapRequired("Name", F.Name); IO.mapOptional("Parameters", F.Params); IO.mapOptional("Nullability", F.Nullability); IO.mapOptional("NullabilityOfRet", F.NullabilityOfRet, std::nullopt); IO.mapOptional("RetainCountConvention", F.RetainCountConvention); IO.mapOptional("Availability", F.Availability.Mode, APIAvailability::Available); IO.mapOptional("AvailabilityMsg", F.Availability.Msg, StringRef("")); IO.mapOptional("SwiftPrivate", F.SwiftPrivate); IO.mapOptional("SwiftName", F.SwiftName, StringRef("")); IO.mapOptional("ResultType", F.ResultType, StringRef("")); IO.mapOptional("SwiftReturnOwnership", F.SwiftReturnOwnership, StringRef("")); } }; } // namespace yaml } // namespace llvm namespace { struct GlobalVariable { StringRef Name; std::optional Nullability; AvailabilityItem Availability; std::optional SwiftPrivate; StringRef SwiftName; StringRef Type; }; typedef std::vector GlobalVariablesSeq; } // namespace LLVM_YAML_IS_SEQUENCE_VECTOR(GlobalVariable) namespace llvm { namespace yaml { template <> struct MappingTraits { static void mapping(IO &IO, GlobalVariable &GV) { IO.mapRequired("Name", GV.Name); IO.mapOptional("Nullability", GV.Nullability, std::nullopt); IO.mapOptional("Availability", GV.Availability.Mode, APIAvailability::Available); IO.mapOptional("AvailabilityMsg", GV.Availability.Msg, StringRef("")); IO.mapOptional("SwiftPrivate", GV.SwiftPrivate); IO.mapOptional("SwiftName", GV.SwiftName, StringRef("")); IO.mapOptional("Type", GV.Type, StringRef("")); } }; } // namespace yaml } // namespace llvm namespace { struct EnumConstant { StringRef Name; AvailabilityItem Availability; std::optional SwiftPrivate; StringRef SwiftName; }; typedef std::vector EnumConstantsSeq; } // namespace LLVM_YAML_IS_SEQUENCE_VECTOR(EnumConstant) namespace llvm { namespace yaml { template <> struct MappingTraits { static void mapping(IO &IO, EnumConstant &EC) { IO.mapRequired("Name", EC.Name); IO.mapOptional("Availability", EC.Availability.Mode, APIAvailability::Available); IO.mapOptional("AvailabilityMsg", EC.Availability.Msg, StringRef("")); IO.mapOptional("SwiftPrivate", EC.SwiftPrivate); IO.mapOptional("SwiftName", EC.SwiftName, StringRef("")); } }; } // namespace yaml } // namespace llvm namespace { /// Syntactic sugar for EnumExtensibility and FlagEnum enum class EnumConvenienceAliasKind { /// EnumExtensibility: none, FlagEnum: false None, /// EnumExtensibility: open, FlagEnum: false CFEnum, /// EnumExtensibility: open, FlagEnum: true CFOptions, /// EnumExtensibility: closed, FlagEnum: false CFClosedEnum }; } // namespace namespace llvm { namespace yaml { template <> struct ScalarEnumerationTraits { static void enumeration(IO &IO, EnumConvenienceAliasKind &ECAK) { IO.enumCase(ECAK, "none", EnumConvenienceAliasKind::None); IO.enumCase(ECAK, "CFEnum", EnumConvenienceAliasKind::CFEnum); IO.enumCase(ECAK, "NSEnum", EnumConvenienceAliasKind::CFEnum); IO.enumCase(ECAK, "CFOptions", EnumConvenienceAliasKind::CFOptions); IO.enumCase(ECAK, "NSOptions", EnumConvenienceAliasKind::CFOptions); IO.enumCase(ECAK, "CFClosedEnum", EnumConvenienceAliasKind::CFClosedEnum); IO.enumCase(ECAK, "NSClosedEnum", EnumConvenienceAliasKind::CFClosedEnum); } }; } // namespace yaml } // namespace llvm namespace { struct Field { StringRef Name; std::optional Nullability; AvailabilityItem Availability; std::optional SwiftPrivate; StringRef SwiftName; StringRef Type; }; typedef std::vector FieldsSeq; } // namespace LLVM_YAML_IS_SEQUENCE_VECTOR(Field) namespace llvm { namespace yaml { template <> struct MappingTraits { static void mapping(IO &IO, Field &F) { IO.mapRequired("Name", F.Name); IO.mapOptional("Nullability", F.Nullability, std::nullopt); IO.mapOptional("Availability", F.Availability.Mode, APIAvailability::Available); IO.mapOptional("AvailabilityMsg", F.Availability.Msg, StringRef("")); IO.mapOptional("SwiftPrivate", F.SwiftPrivate); IO.mapOptional("SwiftName", F.SwiftName, StringRef("")); IO.mapOptional("Type", F.Type, StringRef("")); } }; } // namespace yaml } // namespace llvm namespace { struct Tag; typedef std::vector TagsSeq; struct Tag { StringRef Name; AvailabilityItem Availability; StringRef SwiftName; std::optional SwiftPrivate; std::optional SwiftBridge; std::optional NSErrorDomain; std::optional SwiftImportAs; std::optional SwiftRetainOp; std::optional SwiftReleaseOp; std::optional SwiftDefaultOwnership; std::optional SwiftConformance; std::optional EnumExtensibility; std::optional FlagEnum; std::optional EnumConvenienceKind; std::optional SwiftCopyable; std::optional SwiftEscapable; FunctionsSeq Methods; FieldsSeq Fields; /// Tags that are declared within the current tag. Only the tags that have /// corresponding API Notes will be listed. TagsSeq Tags; }; } // namespace LLVM_YAML_IS_SEQUENCE_VECTOR(Tag) namespace llvm { namespace yaml { template <> struct ScalarEnumerationTraits { static void enumeration(IO &IO, EnumExtensibilityKind &EEK) { IO.enumCase(EEK, "none", EnumExtensibilityKind::None); IO.enumCase(EEK, "open", EnumExtensibilityKind::Open); IO.enumCase(EEK, "closed", EnumExtensibilityKind::Closed); } }; template <> struct MappingTraits { static void mapping(IO &IO, Tag &T) { IO.mapRequired("Name", T.Name); IO.mapOptional("Availability", T.Availability.Mode, APIAvailability::Available); IO.mapOptional("AvailabilityMsg", T.Availability.Msg, StringRef("")); IO.mapOptional("SwiftPrivate", T.SwiftPrivate); IO.mapOptional("SwiftName", T.SwiftName, StringRef("")); IO.mapOptional("SwiftBridge", T.SwiftBridge); IO.mapOptional("NSErrorDomain", T.NSErrorDomain); IO.mapOptional("SwiftImportAs", T.SwiftImportAs); IO.mapOptional("SwiftReleaseOp", T.SwiftReleaseOp); IO.mapOptional("SwiftRetainOp", T.SwiftRetainOp); IO.mapOptional("SwiftDefaultOwnership", T.SwiftDefaultOwnership); IO.mapOptional("SwiftConformsTo", T.SwiftConformance); IO.mapOptional("EnumExtensibility", T.EnumExtensibility); IO.mapOptional("FlagEnum", T.FlagEnum); IO.mapOptional("EnumKind", T.EnumConvenienceKind); IO.mapOptional("SwiftCopyable", T.SwiftCopyable); IO.mapOptional("SwiftEscapable", T.SwiftEscapable); IO.mapOptional("Methods", T.Methods); IO.mapOptional("Fields", T.Fields); IO.mapOptional("Tags", T.Tags); } }; } // namespace yaml } // namespace llvm namespace { struct Typedef { StringRef Name; AvailabilityItem Availability; StringRef SwiftName; std::optional SwiftPrivate; std::optional SwiftBridge; std::optional NSErrorDomain; std::optional SwiftType; }; typedef std::vector TypedefsSeq; } // namespace LLVM_YAML_IS_SEQUENCE_VECTOR(Typedef) namespace llvm { namespace yaml { template <> struct ScalarEnumerationTraits { static void enumeration(IO &IO, SwiftNewTypeKind &SWK) { IO.enumCase(SWK, "none", SwiftNewTypeKind::None); IO.enumCase(SWK, "struct", SwiftNewTypeKind::Struct); IO.enumCase(SWK, "enum", SwiftNewTypeKind::Enum); } }; template <> struct MappingTraits { static void mapping(IO &IO, Typedef &T) { IO.mapRequired("Name", T.Name); IO.mapOptional("Availability", T.Availability.Mode, APIAvailability::Available); IO.mapOptional("AvailabilityMsg", T.Availability.Msg, StringRef("")); IO.mapOptional("SwiftPrivate", T.SwiftPrivate); IO.mapOptional("SwiftName", T.SwiftName, StringRef("")); IO.mapOptional("SwiftBridge", T.SwiftBridge); IO.mapOptional("NSErrorDomain", T.NSErrorDomain); IO.mapOptional("SwiftWrapper", T.SwiftType); } }; } // namespace yaml } // namespace llvm namespace { struct Namespace; typedef std::vector NamespacesSeq; struct TopLevelItems { ClassesSeq Classes; ClassesSeq Protocols; FunctionsSeq Functions; GlobalVariablesSeq Globals; EnumConstantsSeq EnumConstants; TagsSeq Tags; TypedefsSeq Typedefs; NamespacesSeq Namespaces; }; } // namespace namespace llvm { namespace yaml { static void mapTopLevelItems(IO &IO, TopLevelItems &TLI) { IO.mapOptional("Classes", TLI.Classes); IO.mapOptional("Protocols", TLI.Protocols); IO.mapOptional("Functions", TLI.Functions); IO.mapOptional("Globals", TLI.Globals); IO.mapOptional("Enumerators", TLI.EnumConstants); IO.mapOptional("Tags", TLI.Tags); IO.mapOptional("Typedefs", TLI.Typedefs); IO.mapOptional("Namespaces", TLI.Namespaces); } } // namespace yaml } // namespace llvm namespace { struct Namespace { StringRef Name; AvailabilityItem Availability; StringRef SwiftName; std::optional SwiftPrivate; TopLevelItems Items; }; } // namespace LLVM_YAML_IS_SEQUENCE_VECTOR(Namespace) namespace llvm { namespace yaml { template <> struct MappingTraits { static void mapping(IO &IO, Namespace &T) { IO.mapRequired("Name", T.Name); IO.mapOptional("Availability", T.Availability.Mode, APIAvailability::Available); IO.mapOptional("AvailabilityMsg", T.Availability.Msg, StringRef("")); IO.mapOptional("SwiftPrivate", T.SwiftPrivate); IO.mapOptional("SwiftName", T.SwiftName, StringRef("")); mapTopLevelItems(IO, T.Items); } }; } // namespace yaml } // namespace llvm namespace { struct Versioned { VersionTuple Version; TopLevelItems Items; }; typedef std::vector VersionedSeq; } // namespace LLVM_YAML_IS_SEQUENCE_VECTOR(Versioned) namespace llvm { namespace yaml { template <> struct MappingTraits { static void mapping(IO &IO, Versioned &V) { IO.mapRequired("Version", V.Version); mapTopLevelItems(IO, V.Items); } }; } // namespace yaml } // namespace llvm namespace { struct Module { StringRef Name; AvailabilityItem Availability; TopLevelItems TopLevel; VersionedSeq SwiftVersions; std::optional SwiftInferImportAsMember; #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP) LLVM_DUMP_METHOD void dump() /*const*/; #endif }; } // namespace namespace llvm { namespace yaml { template <> struct MappingTraits { static void mapping(IO &IO, Module &M) { IO.mapRequired("Name", M.Name); IO.mapOptional("Availability", M.Availability.Mode, APIAvailability::Available); IO.mapOptional("AvailabilityMsg", M.Availability.Msg, StringRef("")); IO.mapOptional("SwiftInferImportAsMember", M.SwiftInferImportAsMember); mapTopLevelItems(IO, M.TopLevel); IO.mapOptional("SwiftVersions", M.SwiftVersions); } }; } // namespace yaml } // namespace llvm #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP) LLVM_DUMP_METHOD void Module::dump() { llvm::yaml::Output OS(llvm::errs()); OS << *this; } #endif namespace { bool parseAPINotes(StringRef YI, Module &M, llvm::SourceMgr::DiagHandlerTy Diag, void *DiagContext) { llvm::yaml::Input IS(YI, nullptr, Diag, DiagContext); IS >> M; return static_cast(IS.error()); } } // namespace bool clang::api_notes::parseAndDumpAPINotes(StringRef YI, llvm::raw_ostream &OS) { Module M; if (parseAPINotes(YI, M, nullptr, nullptr)) return true; llvm::yaml::Output YOS(OS); YOS << M; return false; } namespace { using namespace api_notes; class YAMLConverter { const Module &M; APINotesWriter Writer; llvm::raw_ostream &OS; llvm::SourceMgr::DiagHandlerTy DiagHandler; void *DiagHandlerCtxt; bool ErrorOccured; /// Emit a diagnostic bool emitError(llvm::Twine Message) { DiagHandler( llvm::SMDiagnostic("", llvm::SourceMgr::DK_Error, Message.str()), DiagHandlerCtxt); ErrorOccured = true; return true; } public: YAMLConverter(const Module &TheModule, const FileEntry *SourceFile, llvm::raw_ostream &OS, llvm::SourceMgr::DiagHandlerTy DiagHandler, void *DiagHandlerCtxt) : M(TheModule), Writer(TheModule.Name, SourceFile), OS(OS), DiagHandler(DiagHandler), DiagHandlerCtxt(DiagHandlerCtxt), ErrorOccured(false) {} void convertAvailability(const AvailabilityItem &Availability, CommonEntityInfo &CEI, llvm::StringRef APIName) { // Populate the unavailability information. CEI.Unavailable = (Availability.Mode == APIAvailability::None); CEI.UnavailableInSwift = (Availability.Mode == APIAvailability::NonSwift); if (CEI.Unavailable || CEI.UnavailableInSwift) { CEI.UnavailableMsg = std::string(Availability.Msg); } else { if (!Availability.Msg.empty()) emitError(llvm::Twine("availability message for available API '") + APIName + "' will not be used"); } } void convertParams(const ParamsSeq &Params, FunctionInfo &OutInfo, std::optional &thisOrSelf) { for (const auto &P : Params) { ParamInfo PI; if (P.Nullability) PI.setNullabilityAudited(*P.Nullability); PI.setNoEscape(P.NoEscape); PI.setLifetimebound(P.Lifetimebound); PI.setType(std::string(P.Type)); PI.setRetainCountConvention(P.RetainCountConvention); if (static_cast(OutInfo.Params.size()) <= P.Position) OutInfo.Params.resize(P.Position + 1); if (P.Position == -1) thisOrSelf = PI; else if (P.Position >= 0) OutInfo.Params[P.Position] |= PI; else emitError("invalid parameter position " + llvm::itostr(P.Position)); } } void convertNullability(const NullabilitySeq &Nullability, std::optional ReturnNullability, FunctionInfo &OutInfo, llvm::StringRef APIName) { if (Nullability.size() > FunctionInfo::getMaxNullabilityIndex()) { emitError(llvm::Twine("nullability info for '") + APIName + "' does not fit"); return; } bool audited = false; unsigned int idx = 1; for (const auto &N : Nullability) OutInfo.addTypeInfo(idx++, N); audited = Nullability.size() > 0 || ReturnNullability; if (audited) OutInfo.addTypeInfo(0, ReturnNullability.value_or(NullabilityKind::NonNull)); if (!audited) return; OutInfo.NullabilityAudited = audited; OutInfo.NumAdjustedNullable = idx; } /// Convert the common parts of an entity from YAML. template void convertCommonEntity(const T &Common, CommonEntityInfo &Info, StringRef APIName) { convertAvailability(Common.Availability, Info, APIName); Info.setSwiftPrivate(Common.SwiftPrivate); Info.SwiftName = std::string(Common.SwiftName); } /// Convert the common parts of a type entity from YAML. template void convertCommonType(const T &Common, CommonTypeInfo &Info, StringRef APIName) { convertCommonEntity(Common, Info, APIName); if (Common.SwiftBridge) Info.setSwiftBridge(std::string(*Common.SwiftBridge)); Info.setNSErrorDomain(Common.NSErrorDomain); } // Translate from Method into ObjCMethodInfo and write it out. void convertMethod(const Method &M, ContextID ClassID, StringRef ClassName, VersionTuple SwiftVersion) { ObjCMethodInfo MI; convertCommonEntity(M, MI, M.Selector); // Check if the selector ends with ':' to determine if it takes arguments. bool takesArguments = M.Selector.ends_with(":"); // Split the selector into pieces. llvm::SmallVector Args; M.Selector.split(Args, ":", /*MaxSplit*/ -1, /*KeepEmpty*/ false); if (!takesArguments && Args.size() > 1) { emitError("selector '" + M.Selector + "' is missing a ':' at the end"); return; } // Construct ObjCSelectorRef. api_notes::ObjCSelectorRef Selector; Selector.NumArgs = !takesArguments ? 0 : Args.size(); Selector.Identifiers = Args; // Translate the initializer info. MI.DesignatedInit = M.DesignatedInit; MI.RequiredInit = M.Required; if (M.FactoryAsInit != FactoryAsInitKind::Infer) emitError("'FactoryAsInit' is no longer valid; use 'SwiftName' instead"); MI.ResultType = std::string(M.ResultType); MI.SwiftReturnOwnership = std::string(M.SwiftReturnOwnership); // Translate parameter information. convertParams(M.Params, MI, MI.Self); // Translate nullability info. convertNullability(M.Nullability, M.NullabilityOfRet, MI, M.Selector); MI.setRetainCountConvention(M.RetainCountConvention); // Write it. Writer.addObjCMethod(ClassID, Selector, M.Kind == MethodKind::Instance, MI, SwiftVersion); } template void convertVariable(const T &Entity, VariableInfo &VI) { convertAvailability(Entity.Availability, VI, Entity.Name); VI.setSwiftPrivate(Entity.SwiftPrivate); VI.SwiftName = std::string(Entity.SwiftName); if (Entity.Nullability) VI.setNullabilityAudited(*Entity.Nullability); VI.setType(std::string(Entity.Type)); } void convertContext(std::optional ParentContextID, const Class &C, ContextKind Kind, VersionTuple SwiftVersion) { // Write the class. ContextInfo CI; convertCommonType(C, CI, C.Name); if (C.AuditedForNullability) CI.setDefaultNullability(NullabilityKind::NonNull); if (C.SwiftImportAsNonGeneric) CI.setSwiftImportAsNonGeneric(*C.SwiftImportAsNonGeneric); if (C.SwiftObjCMembers) CI.setSwiftObjCMembers(*C.SwiftObjCMembers); ContextID CtxID = Writer.addContext(ParentContextID, C.Name, Kind, CI, SwiftVersion); // Write all methods. llvm::StringMap> KnownMethods; for (const auto &method : C.Methods) { // Check for duplicate method definitions. bool IsInstanceMethod = method.Kind == MethodKind::Instance; bool &Known = IsInstanceMethod ? KnownMethods[method.Selector].first : KnownMethods[method.Selector].second; if (Known) { emitError(llvm::Twine("duplicate definition of method '") + (IsInstanceMethod ? "-" : "+") + "[" + C.Name + " " + method.Selector + "]'"); continue; } Known = true; convertMethod(method, CtxID, C.Name, SwiftVersion); } // Write all properties. llvm::StringSet<> KnownInstanceProperties; llvm::StringSet<> KnownClassProperties; for (const auto &Property : C.Properties) { // Check for duplicate property definitions. if ((!Property.Kind || *Property.Kind == MethodKind::Instance) && !KnownInstanceProperties.insert(Property.Name).second) { emitError(llvm::Twine("duplicate definition of instance property '") + C.Name + "." + Property.Name + "'"); continue; } if ((!Property.Kind || *Property.Kind == MethodKind::Class) && !KnownClassProperties.insert(Property.Name).second) { emitError(llvm::Twine("duplicate definition of class property '") + C.Name + "." + Property.Name + "'"); continue; } // Translate from Property into ObjCPropertyInfo. ObjCPropertyInfo PI; convertVariable(Property, PI); if (Property.SwiftImportAsAccessors) PI.setSwiftImportAsAccessors(*Property.SwiftImportAsAccessors); // Add both instance and class properties with this name. if (Property.Kind) { Writer.addObjCProperty(CtxID, Property.Name, *Property.Kind == MethodKind::Instance, PI, SwiftVersion); } else { Writer.addObjCProperty(CtxID, Property.Name, true, PI, SwiftVersion); Writer.addObjCProperty(CtxID, Property.Name, false, PI, SwiftVersion); } } } void convertNamespaceContext(std::optional ParentContextID, const Namespace &TheNamespace, VersionTuple SwiftVersion) { // Write the namespace. ContextInfo CI; convertCommonEntity(TheNamespace, CI, TheNamespace.Name); ContextID CtxID = Writer.addContext(ParentContextID, TheNamespace.Name, ContextKind::Namespace, CI, SwiftVersion); convertTopLevelItems(Context(CtxID, ContextKind::Namespace), TheNamespace.Items, SwiftVersion); } template void convertFunction(const Function &Function, FuncOrMethodInfo &FI) { convertAvailability(Function.Availability, FI, Function.Name); FI.setSwiftPrivate(Function.SwiftPrivate); FI.SwiftName = std::string(Function.SwiftName); std::optional This; convertParams(Function.Params, FI, This); if constexpr (std::is_same_v) FI.This = This; else if (This) emitError("implicit instance parameter is only permitted on C++ and " "Objective-C methods"); convertNullability(Function.Nullability, Function.NullabilityOfRet, FI, Function.Name); FI.ResultType = std::string(Function.ResultType); FI.SwiftReturnOwnership = std::string(Function.SwiftReturnOwnership); FI.setRetainCountConvention(Function.RetainCountConvention); } void convertTagContext(std::optional ParentContext, const Tag &T, VersionTuple SwiftVersion) { TagInfo TI; std::optional ParentContextID = ParentContext ? std::optional(ParentContext->id) : std::nullopt; convertCommonType(T, TI, T.Name); if ((T.SwiftRetainOp || T.SwiftReleaseOp) && !T.SwiftImportAs) { emitError(llvm::Twine("should declare SwiftImportAs to use " "SwiftRetainOp and SwiftReleaseOp (for ") + T.Name + ")"); return; } if (T.SwiftReleaseOp.has_value() != T.SwiftRetainOp.has_value()) { emitError(llvm::Twine("should declare both SwiftReleaseOp and " "SwiftRetainOp (for ") + T.Name + ")"); return; } if (T.SwiftImportAs) TI.SwiftImportAs = T.SwiftImportAs; if (T.SwiftRetainOp) TI.SwiftRetainOp = T.SwiftRetainOp; if (T.SwiftReleaseOp) TI.SwiftReleaseOp = T.SwiftReleaseOp; if (T.SwiftConformance) TI.SwiftConformance = T.SwiftConformance; if (T.SwiftDefaultOwnership) TI.SwiftDefaultOwnership = T.SwiftDefaultOwnership; if (T.SwiftCopyable) TI.setSwiftCopyable(T.SwiftCopyable); if (T.SwiftEscapable) TI.setSwiftEscapable(T.SwiftEscapable); if (T.EnumConvenienceKind) { if (T.EnumExtensibility) { emitError( llvm::Twine("cannot mix EnumKind and EnumExtensibility (for ") + T.Name + ")"); return; } if (T.FlagEnum) { emitError(llvm::Twine("cannot mix EnumKind and FlagEnum (for ") + T.Name + ")"); return; } switch (*T.EnumConvenienceKind) { case EnumConvenienceAliasKind::None: TI.EnumExtensibility = EnumExtensibilityKind::None; TI.setFlagEnum(false); break; case EnumConvenienceAliasKind::CFEnum: TI.EnumExtensibility = EnumExtensibilityKind::Open; TI.setFlagEnum(false); break; case EnumConvenienceAliasKind::CFOptions: TI.EnumExtensibility = EnumExtensibilityKind::Open; TI.setFlagEnum(true); break; case EnumConvenienceAliasKind::CFClosedEnum: TI.EnumExtensibility = EnumExtensibilityKind::Closed; TI.setFlagEnum(false); break; } } else { TI.EnumExtensibility = T.EnumExtensibility; TI.setFlagEnum(T.FlagEnum); } Writer.addTag(ParentContext, T.Name, TI, SwiftVersion); ContextInfo CI; auto TagCtxID = Writer.addContext(ParentContextID, T.Name, ContextKind::Tag, CI, SwiftVersion); Context TagCtx(TagCtxID, ContextKind::Tag); for (const auto &Field : T.Fields) { FieldInfo FI; convertVariable(Field, FI); Writer.addField(TagCtxID, Field.Name, FI, SwiftVersion); } for (const auto &CXXMethod : T.Methods) { CXXMethodInfo MI; convertFunction(CXXMethod, MI); Writer.addCXXMethod(TagCtxID, CXXMethod.Name, MI, SwiftVersion); } // Convert nested tags. for (const auto &Tag : T.Tags) convertTagContext(TagCtx, Tag, SwiftVersion); } void convertTopLevelItems(std::optional Ctx, const TopLevelItems &TLItems, VersionTuple SwiftVersion) { std::optional CtxID = Ctx ? std::optional(Ctx->id) : std::nullopt; // Write all classes. llvm::StringSet<> KnownClasses; for (const auto &Class : TLItems.Classes) { // Check for duplicate class definitions. if (!KnownClasses.insert(Class.Name).second) { emitError(llvm::Twine("multiple definitions of class '") + Class.Name + "'"); continue; } convertContext(CtxID, Class, ContextKind::ObjCClass, SwiftVersion); } // Write all protocols. llvm::StringSet<> KnownProtocols; for (const auto &Protocol : TLItems.Protocols) { // Check for duplicate protocol definitions. if (!KnownProtocols.insert(Protocol.Name).second) { emitError(llvm::Twine("multiple definitions of protocol '") + Protocol.Name + "'"); continue; } convertContext(CtxID, Protocol, ContextKind::ObjCProtocol, SwiftVersion); } // Write all namespaces. llvm::StringSet<> KnownNamespaces; for (const auto &Namespace : TLItems.Namespaces) { // Check for duplicate namespace definitions. if (!KnownNamespaces.insert(Namespace.Name).second) { emitError(llvm::Twine("multiple definitions of namespace '") + Namespace.Name + "'"); continue; } convertNamespaceContext(CtxID, Namespace, SwiftVersion); } // Write all global variables. llvm::StringSet<> KnownGlobals; for (const auto &Global : TLItems.Globals) { // Check for duplicate global variables. if (!KnownGlobals.insert(Global.Name).second) { emitError(llvm::Twine("multiple definitions of global variable '") + Global.Name + "'"); continue; } GlobalVariableInfo GVI; convertVariable(Global, GVI); Writer.addGlobalVariable(Ctx, Global.Name, GVI, SwiftVersion); } // Write all global functions. llvm::StringSet<> KnownFunctions; for (const auto &Function : TLItems.Functions) { // Check for duplicate global functions. if (!KnownFunctions.insert(Function.Name).second) { emitError(llvm::Twine("multiple definitions of global function '") + Function.Name + "'"); continue; } GlobalFunctionInfo GFI; convertFunction(Function, GFI); Writer.addGlobalFunction(Ctx, Function.Name, GFI, SwiftVersion); } // Write all enumerators. llvm::StringSet<> KnownEnumConstants; for (const auto &EnumConstant : TLItems.EnumConstants) { // Check for duplicate enumerators if (!KnownEnumConstants.insert(EnumConstant.Name).second) { emitError(llvm::Twine("multiple definitions of enumerator '") + EnumConstant.Name + "'"); continue; } EnumConstantInfo ECI; convertAvailability(EnumConstant.Availability, ECI, EnumConstant.Name); ECI.setSwiftPrivate(EnumConstant.SwiftPrivate); ECI.SwiftName = std::string(EnumConstant.SwiftName); Writer.addEnumConstant(EnumConstant.Name, ECI, SwiftVersion); } // Write all tags. llvm::StringSet<> KnownTags; for (const auto &Tag : TLItems.Tags) { // Check for duplicate tag definitions. if (!KnownTags.insert(Tag.Name).second) { emitError(llvm::Twine("multiple definitions of tag '") + Tag.Name + "'"); continue; } convertTagContext(Ctx, Tag, SwiftVersion); } // Write all typedefs. llvm::StringSet<> KnownTypedefs; for (const auto &Typedef : TLItems.Typedefs) { // Check for duplicate typedef definitions. if (!KnownTypedefs.insert(Typedef.Name).second) { emitError(llvm::Twine("multiple definitions of typedef '") + Typedef.Name + "'"); continue; } TypedefInfo TInfo; convertCommonType(Typedef, TInfo, Typedef.Name); TInfo.SwiftWrapper = Typedef.SwiftType; Writer.addTypedef(Ctx, Typedef.Name, TInfo, SwiftVersion); } } bool convertModule() { // Write the top-level items. convertTopLevelItems(/* context */ std::nullopt, M.TopLevel, VersionTuple()); // Convert the versioned information. for (const auto &Versioned : M.SwiftVersions) convertTopLevelItems(/* context */ std::nullopt, Versioned.Items, Versioned.Version); if (!ErrorOccured) Writer.writeToStream(OS); return ErrorOccured; } }; } // namespace static bool compile(const Module &M, const FileEntry *SourceFile, llvm::raw_ostream &OS, llvm::SourceMgr::DiagHandlerTy DiagHandler, void *DiagHandlerCtxt) { YAMLConverter C(M, SourceFile, OS, DiagHandler, DiagHandlerCtxt); return C.convertModule(); } /// Simple diagnostic handler that prints diagnostics to standard error. static void printDiagnostic(const llvm::SMDiagnostic &Diag, void *Context) { Diag.print(nullptr, llvm::errs()); } bool api_notes::compileAPINotes(StringRef YAMLInput, const FileEntry *SourceFile, llvm::raw_ostream &OS, llvm::SourceMgr::DiagHandlerTy DiagHandler, void *DiagHandlerCtxt) { Module TheModule; if (!DiagHandler) DiagHandler = &printDiagnostic; if (parseAPINotes(YAMLInput, TheModule, DiagHandler, DiagHandlerCtxt)) return true; return compile(TheModule, SourceFile, OS, DiagHandler, DiagHandlerCtxt); }