//===- ASTReader.h - AST File 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 // //===----------------------------------------------------------------------===// // // This file defines the ASTReader class, which reads AST files. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_SERIALIZATION_ASTREADER_H #define LLVM_CLANG_SERIALIZATION_ASTREADER_H #include "clang/AST/Type.h" #include "clang/Basic/Diagnostic.h" #include "clang/Basic/DiagnosticOptions.h" #include "clang/Basic/IdentifierTable.h" #include "clang/Basic/OpenCLOptions.h" #include "clang/Basic/SourceLocation.h" #include "clang/Basic/Version.h" #include "clang/Lex/ExternalPreprocessorSource.h" #include "clang/Lex/HeaderSearch.h" #include "clang/Lex/PreprocessingRecord.h" #include "clang/Lex/PreprocessorOptions.h" #include "clang/Sema/ExternalSemaSource.h" #include "clang/Sema/IdentifierResolver.h" #include "clang/Sema/Sema.h" #include "clang/Serialization/ASTBitCodes.h" #include "clang/Serialization/ContinuousRangeMap.h" #include "clang/Serialization/ModuleFile.h" #include "clang/Serialization/ModuleFileExtension.h" #include "clang/Serialization/ModuleManager.h" #include "clang/Serialization/SourceLocationEncoding.h" #include "llvm/ADT/ArrayRef.h" #include "llvm/ADT/DenseMap.h" #include "llvm/ADT/DenseSet.h" #include "llvm/ADT/IntrusiveRefCntPtr.h" #include "llvm/ADT/MapVector.h" #include "llvm/ADT/PagedVector.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/SetVector.h" #include "llvm/ADT/SmallPtrSet.h" #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/StringMap.h" #include "llvm/ADT/StringRef.h" #include "llvm/ADT/iterator.h" #include "llvm/ADT/iterator_range.h" #include "llvm/Bitstream/BitstreamReader.h" #include "llvm/Support/MemoryBuffer.h" #include "llvm/Support/Timer.h" #include "llvm/Support/VersionTuple.h" #include #include #include #include #include #include #include #include #include #include #include namespace clang { class ASTConsumer; class ASTContext; class ASTDeserializationListener; class ASTReader; class ASTRecordReader; class CXXTemporary; class Decl; class DeclarationName; class DeclaratorDecl; class DeclContext; class EnumDecl; class Expr; class FieldDecl; class FileEntry; class FileManager; class FileSystemOptions; class FunctionDecl; class GlobalModuleIndex; struct HeaderFileInfo; class HeaderSearchOptions; class LangOptions; class MacroInfo; class InMemoryModuleCache; class NamedDecl; class NamespaceDecl; class ObjCCategoryDecl; class ObjCInterfaceDecl; class PCHContainerReader; class Preprocessor; class PreprocessorOptions; class Sema; class SourceManager; class Stmt; class SwitchCase; class TargetOptions; class Token; class TypedefNameDecl; class ValueDecl; class VarDecl; /// Abstract interface for callback invocations by the ASTReader. /// /// While reading an AST file, the ASTReader will call the methods of the /// listener to pass on specific information. Some of the listener methods can /// return true to indicate to the ASTReader that the information (and /// consequently the AST file) is invalid. class ASTReaderListener { public: virtual ~ASTReaderListener(); /// Receives the full Clang version information. /// /// \returns true to indicate that the version is invalid. Subclasses should /// generally defer to this implementation. virtual bool ReadFullVersionInformation(StringRef FullVersion) { return FullVersion != getClangFullRepositoryVersion(); } virtual void ReadModuleName(StringRef ModuleName) {} virtual void ReadModuleMapFile(StringRef ModuleMapPath) {} /// Receives the language options. /// /// \returns true to indicate the options are invalid or false otherwise. virtual bool ReadLanguageOptions(const LangOptions &LangOpts, bool Complain, bool AllowCompatibleDifferences) { return false; } /// Receives the target options. /// /// \returns true to indicate the target options are invalid, or false /// otherwise. virtual bool ReadTargetOptions(const TargetOptions &TargetOpts, bool Complain, bool AllowCompatibleDifferences) { return false; } /// Receives the diagnostic options. /// /// \returns true to indicate the diagnostic options are invalid, or false /// otherwise. virtual bool ReadDiagnosticOptions(IntrusiveRefCntPtr DiagOpts, bool Complain) { return false; } /// Receives the file system options. /// /// \returns true to indicate the file system options are invalid, or false /// otherwise. virtual bool ReadFileSystemOptions(const FileSystemOptions &FSOpts, bool Complain) { return false; } /// Receives the header search options. /// /// \param HSOpts The read header search options. The following fields are /// missing and are reported in ReadHeaderSearchPaths(): /// UserEntries, SystemHeaderPrefixes, VFSOverlayFiles. /// /// \returns true to indicate the header search options are invalid, or false /// otherwise. virtual bool ReadHeaderSearchOptions(const HeaderSearchOptions &HSOpts, StringRef SpecificModuleCachePath, bool Complain) { return false; } /// Receives the header search paths. /// /// \param HSOpts The read header search paths. Only the following fields are /// initialized: UserEntries, SystemHeaderPrefixes, /// VFSOverlayFiles. The rest is reported in /// ReadHeaderSearchOptions(). /// /// \returns true to indicate the header search paths are invalid, or false /// otherwise. virtual bool ReadHeaderSearchPaths(const HeaderSearchOptions &HSOpts, bool Complain) { return false; } /// Receives the preprocessor options. /// /// \param SuggestedPredefines Can be filled in with the set of predefines /// that are suggested by the preprocessor options. Typically only used when /// loading a precompiled header. /// /// \returns true to indicate the preprocessor options are invalid, or false /// otherwise. virtual bool ReadPreprocessorOptions(const PreprocessorOptions &PPOpts, bool ReadMacros, bool Complain, std::string &SuggestedPredefines) { return false; } /// Receives __COUNTER__ value. virtual void ReadCounter(const serialization::ModuleFile &M, unsigned Value) {} /// This is called for each AST file loaded. virtual void visitModuleFile(StringRef Filename, serialization::ModuleKind Kind) {} /// Returns true if this \c ASTReaderListener wants to receive the /// input files of the AST file via \c visitInputFile, false otherwise. virtual bool needsInputFileVisitation() { return false; } /// Returns true if this \c ASTReaderListener wants to receive the /// system input files of the AST file via \c visitInputFile, false otherwise. virtual bool needsSystemInputFileVisitation() { return false; } /// if \c needsInputFileVisitation returns true, this is called for /// each non-system input file of the AST File. If /// \c needsSystemInputFileVisitation is true, then it is called for all /// system input files as well. /// /// \returns true to continue receiving the next input file, false to stop. virtual bool visitInputFile(StringRef Filename, bool isSystem, bool isOverridden, bool isExplicitModule) { return true; } /// Returns true if this \c ASTReaderListener wants to receive the /// imports of the AST file via \c visitImport, false otherwise. virtual bool needsImportVisitation() const { return false; } /// If needsImportVisitation returns \c true, this is called for each /// AST file imported by this AST file. virtual void visitImport(StringRef ModuleName, StringRef Filename) {} /// Indicates that a particular module file extension has been read. virtual void readModuleFileExtension( const ModuleFileExtensionMetadata &Metadata) {} }; /// Simple wrapper class for chaining listeners. class ChainedASTReaderListener : public ASTReaderListener { std::unique_ptr First; std::unique_ptr Second; public: /// Takes ownership of \p First and \p Second. ChainedASTReaderListener(std::unique_ptr First, std::unique_ptr Second) : First(std::move(First)), Second(std::move(Second)) {} std::unique_ptr takeFirst() { return std::move(First); } std::unique_ptr takeSecond() { return std::move(Second); } bool ReadFullVersionInformation(StringRef FullVersion) override; void ReadModuleName(StringRef ModuleName) override; void ReadModuleMapFile(StringRef ModuleMapPath) override; bool ReadLanguageOptions(const LangOptions &LangOpts, bool Complain, bool AllowCompatibleDifferences) override; bool ReadTargetOptions(const TargetOptions &TargetOpts, bool Complain, bool AllowCompatibleDifferences) override; bool ReadDiagnosticOptions(IntrusiveRefCntPtr DiagOpts, bool Complain) override; bool ReadFileSystemOptions(const FileSystemOptions &FSOpts, bool Complain) override; bool ReadHeaderSearchOptions(const HeaderSearchOptions &HSOpts, StringRef SpecificModuleCachePath, bool Complain) override; bool ReadPreprocessorOptions(const PreprocessorOptions &PPOpts, bool ReadMacros, bool Complain, std::string &SuggestedPredefines) override; void ReadCounter(const serialization::ModuleFile &M, unsigned Value) override; bool needsInputFileVisitation() override; bool needsSystemInputFileVisitation() override; void visitModuleFile(StringRef Filename, serialization::ModuleKind Kind) override; bool visitInputFile(StringRef Filename, bool isSystem, bool isOverridden, bool isExplicitModule) override; void readModuleFileExtension( const ModuleFileExtensionMetadata &Metadata) override; }; /// ASTReaderListener implementation to validate the information of /// the PCH file against an initialized Preprocessor. class PCHValidator : public ASTReaderListener { Preprocessor &PP; ASTReader &Reader; public: PCHValidator(Preprocessor &PP, ASTReader &Reader) : PP(PP), Reader(Reader) {} bool ReadLanguageOptions(const LangOptions &LangOpts, bool Complain, bool AllowCompatibleDifferences) override; bool ReadTargetOptions(const TargetOptions &TargetOpts, bool Complain, bool AllowCompatibleDifferences) override; bool ReadDiagnosticOptions(IntrusiveRefCntPtr DiagOpts, bool Complain) override; bool ReadPreprocessorOptions(const PreprocessorOptions &PPOpts, bool ReadMacros, bool Complain, std::string &SuggestedPredefines) override; bool ReadHeaderSearchOptions(const HeaderSearchOptions &HSOpts, StringRef SpecificModuleCachePath, bool Complain) override; void ReadCounter(const serialization::ModuleFile &M, unsigned Value) override; }; /// ASTReaderListenter implementation to set SuggestedPredefines of /// ASTReader which is required to use a pch file. This is the replacement /// of PCHValidator or SimplePCHValidator when using a pch file without /// validating it. class SimpleASTReaderListener : public ASTReaderListener { Preprocessor &PP; public: SimpleASTReaderListener(Preprocessor &PP) : PP(PP) {} bool ReadPreprocessorOptions(const PreprocessorOptions &PPOpts, bool ReadMacros, bool Complain, std::string &SuggestedPredefines) override; }; namespace serialization { class ReadMethodPoolVisitor; namespace reader { class ASTIdentifierLookupTrait; /// The on-disk hash table(s) used for DeclContext name lookup. struct DeclContextLookupTable; } // namespace reader } // namespace serialization /// Reads an AST files chain containing the contents of a translation /// unit. /// /// The ASTReader class reads bitstreams (produced by the ASTWriter /// class) containing the serialized representation of a given /// abstract syntax tree and its supporting data structures. An /// instance of the ASTReader can be attached to an ASTContext object, /// which will provide access to the contents of the AST files. /// /// The AST reader provides lazy de-serialization of declarations, as /// required when traversing the AST. Only those AST nodes that are /// actually required will be de-serialized. class ASTReader : public ExternalPreprocessorSource, public ExternalPreprocessingRecordSource, public ExternalHeaderFileInfoSource, public ExternalSemaSource, public IdentifierInfoLookup, public ExternalSLocEntrySource { public: /// Types of AST files. friend class ASTDeclReader; friend class ASTIdentifierIterator; friend class ASTRecordReader; friend class ASTUnit; // ASTUnit needs to remap source locations. friend class ASTWriter; friend class PCHValidator; friend class serialization::reader::ASTIdentifierLookupTrait; friend class serialization::ReadMethodPoolVisitor; friend class TypeLocReader; using RecordData = SmallVector; using RecordDataImpl = SmallVectorImpl; /// The result of reading the control block of an AST file, which /// can fail for various reasons. enum ASTReadResult { /// The control block was read successfully. Aside from failures, /// the AST file is safe to read into the current context. Success, /// The AST file itself appears corrupted. Failure, /// The AST file was missing. Missing, /// The AST file is out-of-date relative to its input files, /// and needs to be regenerated. OutOfDate, /// The AST file was written by a different version of Clang. VersionMismatch, /// The AST file was written with a different language/target /// configuration. ConfigurationMismatch, /// The AST file has errors. HadErrors }; using ModuleFile = serialization::ModuleFile; using ModuleKind = serialization::ModuleKind; using ModuleManager = serialization::ModuleManager; using ModuleIterator = ModuleManager::ModuleIterator; using ModuleConstIterator = ModuleManager::ModuleConstIterator; using ModuleReverseIterator = ModuleManager::ModuleReverseIterator; private: using LocSeq = SourceLocationSequence; /// The receiver of some callbacks invoked by ASTReader. std::unique_ptr Listener; /// The receiver of deserialization events. ASTDeserializationListener *DeserializationListener = nullptr; bool OwnsDeserializationListener = false; SourceManager &SourceMgr; FileManager &FileMgr; const PCHContainerReader &PCHContainerRdr; DiagnosticsEngine &Diags; /// The semantic analysis object that will be processing the /// AST files and the translation unit that uses it. Sema *SemaObj = nullptr; /// The preprocessor that will be loading the source file. Preprocessor &PP; /// The AST context into which we'll read the AST files. ASTContext *ContextObj = nullptr; /// The AST consumer. ASTConsumer *Consumer = nullptr; /// The module manager which manages modules and their dependencies ModuleManager ModuleMgr; /// A dummy identifier resolver used to merge TU-scope declarations in /// C, for the cases where we don't have a Sema object to provide a real /// identifier resolver. IdentifierResolver DummyIdResolver; /// A mapping from extension block names to module file extensions. llvm::StringMap> ModuleFileExtensions; /// A timer used to track the time spent deserializing. std::unique_ptr ReadTimer; /// The location where the module file will be considered as /// imported from. For non-module AST types it should be invalid. SourceLocation CurrentImportLoc; /// The module kind that is currently deserializing. std::optional CurrentDeserializingModuleKind; /// The global module index, if loaded. std::unique_ptr GlobalIndex; /// A map of global bit offsets to the module that stores entities /// at those bit offsets. ContinuousRangeMap GlobalBitOffsetsMap; /// A map of negated SLocEntryIDs to the modules containing them. ContinuousRangeMap GlobalSLocEntryMap; using GlobalSLocOffsetMapType = ContinuousRangeMap; /// A map of reversed (SourceManager::MaxLoadedOffset - SLocOffset) /// SourceLocation offsets to the modules containing them. GlobalSLocOffsetMapType GlobalSLocOffsetMap; /// Types that have already been loaded from the chain. /// /// When the pointer at index I is non-NULL, the type with /// ID = (I + 1) << FastQual::Width has already been loaded llvm::PagedVector TypesLoaded; using GlobalTypeMapType = ContinuousRangeMap; /// Mapping from global type IDs to the module in which the /// type resides along with the offset that should be added to the /// global type ID to produce a local ID. GlobalTypeMapType GlobalTypeMap; /// Declarations that have already been loaded from the chain. /// /// When the pointer at index I is non-NULL, the declaration with ID /// = I + 1 has already been loaded. llvm::PagedVector DeclsLoaded; using GlobalDeclMapType = ContinuousRangeMap; /// Mapping from global declaration IDs to the module in which the /// declaration resides. GlobalDeclMapType GlobalDeclMap; using FileOffset = std::pair; using FileOffsetsTy = SmallVector; using DeclUpdateOffsetsMap = llvm::DenseMap; /// Declarations that have modifications residing in a later file /// in the chain. DeclUpdateOffsetsMap DeclUpdateOffsets; struct PendingUpdateRecord { Decl *D; serialization::GlobalDeclID ID; // Whether the declaration was just deserialized. bool JustLoaded; PendingUpdateRecord(serialization::GlobalDeclID ID, Decl *D, bool JustLoaded) : D(D), ID(ID), JustLoaded(JustLoaded) {} }; /// Declaration updates for already-loaded declarations that we need /// to apply once we finish processing an import. llvm::SmallVector PendingUpdateRecords; enum class PendingFakeDefinitionKind { NotFake, Fake, FakeLoaded }; /// The DefinitionData pointers that we faked up for class definitions /// that we needed but hadn't loaded yet. llvm::DenseMap PendingFakeDefinitionData; /// Exception specification updates that have been loaded but not yet /// propagated across the relevant redeclaration chain. The map key is the /// canonical declaration (used only for deduplication) and the value is a /// declaration that has an exception specification. llvm::SmallMapVector PendingExceptionSpecUpdates; /// Deduced return type updates that have been loaded but not yet propagated /// across the relevant redeclaration chain. The map key is the canonical /// declaration and the value is the deduced return type. llvm::SmallMapVector PendingDeducedTypeUpdates; /// Functions has undededuced return type and we wish we can find the deduced /// return type by iterating the redecls in other modules. llvm::SmallVector PendingUndeducedFunctionDecls; /// Declarations that have been imported and have typedef names for /// linkage purposes. llvm::DenseMap, NamedDecl *> ImportedTypedefNamesForLinkage; /// Mergeable declaration contexts that have anonymous declarations /// within them, and those anonymous declarations. llvm::DenseMap> AnonymousDeclarationsForMerging; /// Map from numbering information for lambdas to the corresponding lambdas. llvm::DenseMap, NamedDecl *> LambdaDeclarationsForMerging; /// Key used to identify LifetimeExtendedTemporaryDecl for merging, /// containing the lifetime-extending declaration and the mangling number. using LETemporaryKey = std::pair; /// Map of already deserialiazed temporaries. llvm::DenseMap LETemporaryForMerging; struct FileDeclsInfo { ModuleFile *Mod = nullptr; ArrayRef Decls; FileDeclsInfo() = default; FileDeclsInfo(ModuleFile *Mod, ArrayRef Decls) : Mod(Mod), Decls(Decls) {} }; /// Map from a FileID to the file-level declarations that it contains. llvm::DenseMap FileDeclIDs; /// An array of lexical contents of a declaration context, as a sequence of /// Decl::Kind, DeclID pairs. using LexicalContents = ArrayRef; /// Map from a DeclContext to its lexical contents. llvm::DenseMap> LexicalDecls; /// Map from the TU to its lexical contents from each module file. std::vector> TULexicalDecls; /// Map from a DeclContext to its lookup tables. llvm::DenseMap Lookups; // Updates for visible decls can occur for other contexts than just the // TU, and when we read those update records, the actual context may not // be available yet, so have this pending map using the ID as a key. It // will be realized when the context is actually loaded. struct PendingVisibleUpdate { ModuleFile *Mod; const unsigned char *Data; }; using DeclContextVisibleUpdates = SmallVector; /// Updates to the visible declarations of declaration contexts that /// haven't been loaded yet. llvm::DenseMap PendingVisibleUpdates; /// The set of C++ or Objective-C classes that have forward /// declarations that have not yet been linked to their definitions. llvm::SmallPtrSet PendingDefinitions; using PendingBodiesMap = llvm::MapVector, SmallVector, 4>>; /// Functions or methods that have bodies that will be attached. PendingBodiesMap PendingBodies; /// Definitions for which we have added merged definitions but not yet /// performed deduplication. llvm::SetVector PendingMergedDefinitionsToDeduplicate; /// Read the record that describes the lexical contents of a DC. bool ReadLexicalDeclContextStorage(ModuleFile &M, llvm::BitstreamCursor &Cursor, uint64_t Offset, DeclContext *DC); /// Read the record that describes the visible contents of a DC. bool ReadVisibleDeclContextStorage(ModuleFile &M, llvm::BitstreamCursor &Cursor, uint64_t Offset, serialization::DeclID ID); /// A vector containing identifiers that have already been /// loaded. /// /// If the pointer at index I is non-NULL, then it refers to the /// IdentifierInfo for the identifier with ID=I+1 that has already /// been loaded. std::vector IdentifiersLoaded; using GlobalIdentifierMapType = ContinuousRangeMap; /// Mapping from global identifier IDs to the module in which the /// identifier resides along with the offset that should be added to the /// global identifier ID to produce a local ID. GlobalIdentifierMapType GlobalIdentifierMap; /// A vector containing macros that have already been /// loaded. /// /// If the pointer at index I is non-NULL, then it refers to the /// MacroInfo for the identifier with ID=I+1 that has already /// been loaded. std::vector MacrosLoaded; using LoadedMacroInfo = std::pair; /// A set of #undef directives that we have loaded; used to /// deduplicate the same #undef information coming from multiple module /// files. llvm::DenseSet LoadedUndefs; using GlobalMacroMapType = ContinuousRangeMap; /// Mapping from global macro IDs to the module in which the /// macro resides along with the offset that should be added to the /// global macro ID to produce a local ID. GlobalMacroMapType GlobalMacroMap; /// A vector containing submodules that have already been loaded. /// /// This vector is indexed by the Submodule ID (-1). NULL submodule entries /// indicate that the particular submodule ID has not yet been loaded. SmallVector SubmodulesLoaded; using GlobalSubmoduleMapType = ContinuousRangeMap; /// Mapping from global submodule IDs to the module file in which the /// submodule resides along with the offset that should be added to the /// global submodule ID to produce a local ID. GlobalSubmoduleMapType GlobalSubmoduleMap; /// A set of hidden declarations. using HiddenNames = SmallVector; using HiddenNamesMapType = llvm::DenseMap; /// A mapping from each of the hidden submodules to the deserialized /// declarations in that submodule that could be made visible. HiddenNamesMapType HiddenNamesMap; /// A module import, export, or conflict that hasn't yet been resolved. struct UnresolvedModuleRef { /// The file in which this module resides. ModuleFile *File; /// The module that is importing or exporting. Module *Mod; /// The kind of module reference. enum { Import, Export, Conflict, Affecting } Kind; /// The local ID of the module that is being exported. unsigned ID; /// Whether this is a wildcard export. unsigned IsWildcard : 1; /// String data. StringRef String; }; /// The set of module imports and exports that still need to be /// resolved. SmallVector UnresolvedModuleRefs; /// A vector containing selectors that have already been loaded. /// /// This vector is indexed by the Selector ID (-1). NULL selector /// entries indicate that the particular selector ID has not yet /// been loaded. SmallVector SelectorsLoaded; using GlobalSelectorMapType = ContinuousRangeMap; /// Mapping from global selector IDs to the module in which the /// global selector ID to produce a local ID. GlobalSelectorMapType GlobalSelectorMap; /// The generation number of the last time we loaded data from the /// global method pool for this selector. llvm::DenseMap SelectorGeneration; /// Whether a selector is out of date. We mark a selector as out of date /// if we load another module after the method pool entry was pulled in. llvm::DenseMap SelectorOutOfDate; struct PendingMacroInfo { ModuleFile *M; /// Offset relative to ModuleFile::MacroOffsetsBase. uint32_t MacroDirectivesOffset; PendingMacroInfo(ModuleFile *M, uint32_t MacroDirectivesOffset) : M(M), MacroDirectivesOffset(MacroDirectivesOffset) {} }; using PendingMacroIDsMap = llvm::MapVector>; /// Mapping from identifiers that have a macro history to the global /// IDs have not yet been deserialized to the global IDs of those macros. PendingMacroIDsMap PendingMacroIDs; using GlobalPreprocessedEntityMapType = ContinuousRangeMap; /// Mapping from global preprocessing entity IDs to the module in /// which the preprocessed entity resides along with the offset that should be /// added to the global preprocessing entity ID to produce a local ID. GlobalPreprocessedEntityMapType GlobalPreprocessedEntityMap; using GlobalSkippedRangeMapType = ContinuousRangeMap; /// Mapping from global skipped range base IDs to the module in which /// the skipped ranges reside. GlobalSkippedRangeMapType GlobalSkippedRangeMap; /// \name CodeGen-relevant special data /// Fields containing data that is relevant to CodeGen. //@{ /// The IDs of all declarations that fulfill the criteria of /// "interesting" decls. /// /// This contains the data loaded from all EAGERLY_DESERIALIZED_DECLS blocks /// in the chain. The referenced declarations are deserialized and passed to /// the consumer eagerly. SmallVector EagerlyDeserializedDecls; /// The IDs of all tentative definitions stored in the chain. /// /// Sema keeps track of all tentative definitions in a TU because it has to /// complete them and pass them on to CodeGen. Thus, tentative definitions in /// the PCH chain must be eagerly deserialized. SmallVector TentativeDefinitions; /// The IDs of all CXXRecordDecls stored in the chain whose VTables are /// used. /// /// CodeGen has to emit VTables for these records, so they have to be eagerly /// deserialized. SmallVector VTableUses; /// A snapshot of the pending instantiations in the chain. /// /// This record tracks the instantiations that Sema has to perform at the /// end of the TU. It consists of a pair of values for every pending /// instantiation where the first value is the ID of the decl and the second /// is the instantiation location. SmallVector PendingInstantiations; //@} /// \name DiagnosticsEngine-relevant special data /// Fields containing data that is used for generating diagnostics //@{ /// A snapshot of Sema's unused file-scoped variable tracking, for /// generating warnings. SmallVector UnusedFileScopedDecls; /// A list of all the delegating constructors we've seen, to diagnose /// cycles. SmallVector DelegatingCtorDecls; /// Method selectors used in a @selector expression. Used for /// implementation of -Wselector. SmallVector ReferencedSelectorsData; /// A snapshot of Sema's weak undeclared identifier tracking, for /// generating warnings. SmallVector WeakUndeclaredIdentifiers; /// The IDs of type aliases for ext_vectors that exist in the chain. /// /// Used by Sema for finding sugared names for ext_vectors in diagnostics. SmallVector ExtVectorDecls; //@} /// \name Sema-relevant special data /// Fields containing data that is used for semantic analysis //@{ /// The IDs of all potentially unused typedef names in the chain. /// /// Sema tracks these to emit warnings. SmallVector UnusedLocalTypedefNameCandidates; /// Our current depth in #pragma cuda force_host_device begin/end /// macros. unsigned ForceCUDAHostDeviceDepth = 0; /// The IDs of the declarations Sema stores directly. /// /// Sema tracks a few important decls, such as namespace std, directly. SmallVector SemaDeclRefs; /// The IDs of the types ASTContext stores directly. /// /// The AST context tracks a few important types, such as va_list, directly. SmallVector SpecialTypes; /// The IDs of CUDA-specific declarations ASTContext stores directly. /// /// The AST context tracks a few important decls, currently cudaConfigureCall, /// directly. SmallVector CUDASpecialDeclRefs; /// The floating point pragma option settings. SmallVector FPPragmaOptions; /// The pragma clang optimize location (if the pragma state is "off"). SourceLocation OptimizeOffPragmaLocation; /// The PragmaMSStructKind pragma ms_struct state if set, or -1. int PragmaMSStructState = -1; /// The PragmaMSPointersToMembersKind pragma pointers_to_members state. int PragmaMSPointersToMembersState = -1; SourceLocation PointersToMembersPragmaLocation; /// The pragma float_control state. std::optional FpPragmaCurrentValue; SourceLocation FpPragmaCurrentLocation; struct FpPragmaStackEntry { FPOptionsOverride Value; SourceLocation Location; SourceLocation PushLocation; StringRef SlotLabel; }; llvm::SmallVector FpPragmaStack; llvm::SmallVector FpPragmaStrings; /// The pragma align/pack state. std::optional PragmaAlignPackCurrentValue; SourceLocation PragmaAlignPackCurrentLocation; struct PragmaAlignPackStackEntry { Sema::AlignPackInfo Value; SourceLocation Location; SourceLocation PushLocation; StringRef SlotLabel; }; llvm::SmallVector PragmaAlignPackStack; llvm::SmallVector PragmaAlignPackStrings; /// The OpenCL extension settings. OpenCLOptions OpenCLExtensions; /// Extensions required by an OpenCL type. llvm::DenseMap> OpenCLTypeExtMap; /// Extensions required by an OpenCL declaration. llvm::DenseMap> OpenCLDeclExtMap; /// A list of the namespaces we've seen. SmallVector KnownNamespaces; /// A list of undefined decls with internal linkage followed by the /// SourceLocation of a matching ODR-use. SmallVector UndefinedButUsed; /// Delete expressions to analyze at the end of translation unit. SmallVector DelayedDeleteExprs; // A list of late parsed template function data with their module files. SmallVector>, 4> LateParsedTemplates; /// The IDs of all decls to be checked for deferred diags. /// /// Sema tracks these to emit deferred diags. llvm::SmallSetVector DeclsToCheckForDeferredDiags; private: struct ImportedSubmodule { serialization::SubmoduleID ID; SourceLocation ImportLoc; ImportedSubmodule(serialization::SubmoduleID ID, SourceLocation ImportLoc) : ID(ID), ImportLoc(ImportLoc) {} }; /// A list of modules that were imported by precompiled headers or /// any other non-module AST file and have not yet been made visible. If a /// module is made visible in the ASTReader, it will be transfered to /// \c PendingImportedModulesSema. SmallVector PendingImportedModules; /// A list of modules that were imported by precompiled headers or /// any other non-module AST file and have not yet been made visible for Sema. SmallVector PendingImportedModulesSema; //@} /// The system include root to be used when loading the /// precompiled header. std::string isysroot; /// Whether to disable the normal validation performed on precompiled /// headers and module files when they are loaded. DisableValidationForModuleKind DisableValidationKind; /// Whether to accept an AST file with compiler errors. bool AllowASTWithCompilerErrors; /// Whether to accept an AST file that has a different configuration /// from the current compiler instance. bool AllowConfigurationMismatch; /// Whether validate system input files. bool ValidateSystemInputs; /// Whether validate headers and module maps using hash based on contents. bool ValidateASTInputFilesContent; /// Whether we are allowed to use the global module index. bool UseGlobalIndex; /// Whether we have tried loading the global module index yet. bool TriedLoadingGlobalIndex = false; ///Whether we are currently processing update records. bool ProcessingUpdateRecords = false; using SwitchCaseMapTy = llvm::DenseMap; /// Mapping from switch-case IDs in the chain to switch-case statements /// /// Statements usually don't have IDs, but switch cases need them, so that the /// switch statement can refer to them. SwitchCaseMapTy SwitchCaseStmts; SwitchCaseMapTy *CurrSwitchCaseStmts; /// The number of source location entries de-serialized from /// the PCH file. unsigned NumSLocEntriesRead = 0; /// The number of source location entries in the chain. unsigned TotalNumSLocEntries = 0; /// The number of statements (and expressions) de-serialized /// from the chain. unsigned NumStatementsRead = 0; /// The total number of statements (and expressions) stored /// in the chain. unsigned TotalNumStatements = 0; /// The number of macros de-serialized from the chain. unsigned NumMacrosRead = 0; /// The total number of macros stored in the chain. unsigned TotalNumMacros = 0; /// The number of lookups into identifier tables. unsigned NumIdentifierLookups = 0; /// The number of lookups into identifier tables that succeed. unsigned NumIdentifierLookupHits = 0; /// The number of selectors that have been read. unsigned NumSelectorsRead = 0; /// The number of method pool entries that have been read. unsigned NumMethodPoolEntriesRead = 0; /// The number of times we have looked up a selector in the method /// pool. unsigned NumMethodPoolLookups = 0; /// The number of times we have looked up a selector in the method /// pool and found something. unsigned NumMethodPoolHits = 0; /// The number of times we have looked up a selector in the method /// pool within a specific module. unsigned NumMethodPoolTableLookups = 0; /// The number of times we have looked up a selector in the method /// pool within a specific module and found something. unsigned NumMethodPoolTableHits = 0; /// The total number of method pool entries in the selector table. unsigned TotalNumMethodPoolEntries = 0; /// Number of lexical decl contexts read/total. unsigned NumLexicalDeclContextsRead = 0, TotalLexicalDeclContexts = 0; /// Number of visible decl contexts read/total. unsigned NumVisibleDeclContextsRead = 0, TotalVisibleDeclContexts = 0; /// Total size of modules, in bits, currently loaded uint64_t TotalModulesSizeInBits = 0; /// Number of Decl/types that are currently deserializing. unsigned NumCurrentElementsDeserializing = 0; /// Set true while we are in the process of passing deserialized /// "interesting" decls to consumer inside FinishedDeserializing(). /// This is used as a guard to avoid recursively repeating the process of /// passing decls to consumer. bool PassingDeclsToConsumer = false; /// The set of identifiers that were read while the AST reader was /// (recursively) loading declarations. /// /// The declarations on the identifier chain for these identifiers will be /// loaded once the recursive loading has completed. llvm::MapVector> PendingIdentifierInfos; /// The set of lookup results that we have faked in order to support /// merging of partially deserialized decls but that we have not yet removed. llvm::SmallMapVector, 16> PendingFakeLookupResults; /// The generation number of each identifier, which keeps track of /// the last time we loaded information about this identifier. llvm::DenseMap IdentifierGeneration; class InterestingDecl { Decl *D; bool DeclHasPendingBody; public: InterestingDecl(Decl *D, bool HasBody) : D(D), DeclHasPendingBody(HasBody) {} Decl *getDecl() { return D; } /// Whether the declaration has a pending body. bool hasPendingBody() { return DeclHasPendingBody; } }; /// Contains declarations and definitions that could be /// "interesting" to the ASTConsumer, when we get that AST consumer. /// /// "Interesting" declarations are those that have data that may /// need to be emitted, such as inline function definitions or /// Objective-C protocols. std::deque PotentiallyInterestingDecls; /// The list of deduced function types that we have not yet read, because /// they might contain a deduced return type that refers to a local type /// declared within the function. SmallVector, 16> PendingDeducedFunctionTypes; /// The list of deduced variable types that we have not yet read, because /// they might contain a deduced type that refers to a local type declared /// within the variable. SmallVector, 16> PendingDeducedVarTypes; /// The list of redeclaration chains that still need to be /// reconstructed, and the local offset to the corresponding list /// of redeclarations. SmallVector, 16> PendingDeclChains; /// The list of canonical declarations whose redeclaration chains /// need to be marked as incomplete once we're done deserializing things. SmallVector PendingIncompleteDeclChains; /// The Decl IDs for the Sema/Lexical DeclContext of a Decl that has /// been loaded but its DeclContext was not set yet. struct PendingDeclContextInfo { Decl *D; serialization::GlobalDeclID SemaDC; serialization::GlobalDeclID LexicalDC; }; /// The set of Decls that have been loaded but their DeclContexts are /// not set yet. /// /// The DeclContexts for these Decls will be set once recursive loading has /// been completed. std::deque PendingDeclContextInfos; template using DuplicateObjCDecls = std::pair; /// When resolving duplicate ivars from Objective-C extensions we don't error /// out immediately but check if can merge identical extensions. Not checking /// extensions for equality immediately because ivar deserialization isn't /// over yet at that point. llvm::SmallMapVector, llvm::SmallVector, 4>, 2> PendingObjCExtensionIvarRedeclarations; /// Members that have been added to classes, for which the class has not yet /// been notified. CXXRecordDecl::addedMember will be called for each of /// these once recursive deserialization is complete. SmallVector, 4> PendingAddedClassMembers; /// The set of NamedDecls that have been loaded, but are members of a /// context that has been merged into another context where the corresponding /// declaration is either missing or has not yet been loaded. /// /// We will check whether the corresponding declaration is in fact missing /// once recursing loading has been completed. llvm::SmallVector PendingOdrMergeChecks; using DataPointers = std::pair; using ObjCInterfaceDataPointers = std::pair; using ObjCProtocolDataPointers = std::pair; /// Record definitions in which we found an ODR violation. llvm::SmallDenseMap, 2> PendingOdrMergeFailures; /// C/ObjC record definitions in which we found an ODR violation. llvm::SmallDenseMap, 2> PendingRecordOdrMergeFailures; /// Function definitions in which we found an ODR violation. llvm::SmallDenseMap, 2> PendingFunctionOdrMergeFailures; /// Enum definitions in which we found an ODR violation. llvm::SmallDenseMap, 2> PendingEnumOdrMergeFailures; /// ObjCInterfaceDecl in which we found an ODR violation. llvm::SmallDenseMap, 2> PendingObjCInterfaceOdrMergeFailures; /// ObjCProtocolDecl in which we found an ODR violation. llvm::SmallDenseMap, 2> PendingObjCProtocolOdrMergeFailures; /// DeclContexts in which we have diagnosed an ODR violation. llvm::SmallPtrSet DiagnosedOdrMergeFailures; /// The set of Objective-C categories that have been deserialized /// since the last time the declaration chains were linked. llvm::SmallPtrSet CategoriesDeserialized; /// The set of Objective-C class definitions that have already been /// loaded, for which we will need to check for categories whenever a new /// module is loaded. SmallVector ObjCClassesLoaded; using KeyDeclsMap = llvm::DenseMap>; /// A mapping from canonical declarations to the set of global /// declaration IDs for key declaration that have been merged with that /// canonical declaration. A key declaration is a formerly-canonical /// declaration whose module did not import any other key declaration for that /// entity. These are the IDs that we use as keys when finding redecl chains. KeyDeclsMap KeyDecls; /// A mapping from DeclContexts to the semantic DeclContext that we /// are treating as the definition of the entity. This is used, for instance, /// when merging implicit instantiations of class templates across modules. llvm::DenseMap MergedDeclContexts; /// A mapping from canonical declarations of enums to their canonical /// definitions. Only populated when using modules in C++. llvm::DenseMap EnumDefinitions; /// A mapping from canonical declarations of records to their canonical /// definitions. Doesn't cover CXXRecordDecl. llvm::DenseMap RecordDefinitions; /// When reading a Stmt tree, Stmt operands are placed in this stack. SmallVector StmtStack; /// What kind of records we are reading. enum ReadingKind { Read_None, Read_Decl, Read_Type, Read_Stmt }; /// What kind of records we are reading. ReadingKind ReadingKind = Read_None; /// RAII object to change the reading kind. class ReadingKindTracker { ASTReader &Reader; enum ReadingKind PrevKind; public: ReadingKindTracker(enum ReadingKind newKind, ASTReader &reader) : Reader(reader), PrevKind(Reader.ReadingKind) { Reader.ReadingKind = newKind; } ReadingKindTracker(const ReadingKindTracker &) = delete; ReadingKindTracker &operator=(const ReadingKindTracker &) = delete; ~ReadingKindTracker() { Reader.ReadingKind = PrevKind; } }; /// RAII object to mark the start of processing updates. class ProcessingUpdatesRAIIObj { ASTReader &Reader; bool PrevState; public: ProcessingUpdatesRAIIObj(ASTReader &reader) : Reader(reader), PrevState(Reader.ProcessingUpdateRecords) { Reader.ProcessingUpdateRecords = true; } ProcessingUpdatesRAIIObj(const ProcessingUpdatesRAIIObj &) = delete; ProcessingUpdatesRAIIObj & operator=(const ProcessingUpdatesRAIIObj &) = delete; ~ProcessingUpdatesRAIIObj() { Reader.ProcessingUpdateRecords = PrevState; } }; /// Suggested contents of the predefines buffer, after this /// PCH file has been processed. /// /// In most cases, this string will be empty, because the predefines /// buffer computed to build the PCH file will be identical to the /// predefines buffer computed from the command line. However, when /// there are differences that the PCH reader can work around, this /// predefines buffer may contain additional definitions. std::string SuggestedPredefines; llvm::DenseMap DefinitionSource; bool shouldDisableValidationForFile(const serialization::ModuleFile &M) const; /// Reads a statement from the specified cursor. Stmt *ReadStmtFromStream(ModuleFile &F); /// Retrieve the stored information about an input file. serialization::InputFileInfo getInputFileInfo(ModuleFile &F, unsigned ID); /// Retrieve the file entry and 'overridden' bit for an input /// file in the given module file. serialization::InputFile getInputFile(ModuleFile &F, unsigned ID, bool Complain = true); public: void ResolveImportedPath(ModuleFile &M, std::string &Filename); static void ResolveImportedPath(std::string &Filename, StringRef Prefix); /// Returns the first key declaration for the given declaration. This /// is one that is formerly-canonical (or still canonical) and whose module /// did not import any other key declaration of the entity. Decl *getKeyDeclaration(Decl *D) { D = D->getCanonicalDecl(); if (D->isFromASTFile()) return D; auto I = KeyDecls.find(D); if (I == KeyDecls.end() || I->second.empty()) return D; return GetExistingDecl(I->second[0]); } const Decl *getKeyDeclaration(const Decl *D) { return getKeyDeclaration(const_cast(D)); } /// Run a callback on each imported key declaration of \p D. template void forEachImportedKeyDecl(const Decl *D, Fn Visit) { D = D->getCanonicalDecl(); if (D->isFromASTFile()) Visit(D); auto It = KeyDecls.find(const_cast(D)); if (It != KeyDecls.end()) for (auto ID : It->second) Visit(GetExistingDecl(ID)); } /// Get the loaded lookup tables for \p Primary, if any. const serialization::reader::DeclContextLookupTable * getLoadedLookupTables(DeclContext *Primary) const; private: struct ImportedModule { ModuleFile *Mod; ModuleFile *ImportedBy; SourceLocation ImportLoc; ImportedModule(ModuleFile *Mod, ModuleFile *ImportedBy, SourceLocation ImportLoc) : Mod(Mod), ImportedBy(ImportedBy), ImportLoc(ImportLoc) {} }; ASTReadResult ReadASTCore(StringRef FileName, ModuleKind Type, SourceLocation ImportLoc, ModuleFile *ImportedBy, SmallVectorImpl &Loaded, off_t ExpectedSize, time_t ExpectedModTime, ASTFileSignature ExpectedSignature, unsigned ClientLoadCapabilities); ASTReadResult ReadControlBlock(ModuleFile &F, SmallVectorImpl &Loaded, const ModuleFile *ImportedBy, unsigned ClientLoadCapabilities); static ASTReadResult ReadOptionsBlock( llvm::BitstreamCursor &Stream, unsigned ClientLoadCapabilities, bool AllowCompatibleConfigurationMismatch, ASTReaderListener &Listener, std::string &SuggestedPredefines); /// Read the unhashed control block. /// /// This has no effect on \c F.Stream, instead creating a fresh cursor from /// \c F.Data and reading ahead. ASTReadResult readUnhashedControlBlock(ModuleFile &F, bool WasImportedBy, unsigned ClientLoadCapabilities); static ASTReadResult readUnhashedControlBlockImpl(ModuleFile *F, llvm::StringRef StreamData, unsigned ClientLoadCapabilities, bool AllowCompatibleConfigurationMismatch, ASTReaderListener *Listener, bool ValidateDiagnosticOptions); llvm::Error ReadASTBlock(ModuleFile &F, unsigned ClientLoadCapabilities); llvm::Error ReadExtensionBlock(ModuleFile &F); void ReadModuleOffsetMap(ModuleFile &F) const; void ParseLineTable(ModuleFile &F, const RecordData &Record); llvm::Error ReadSourceManagerBlock(ModuleFile &F); SourceLocation getImportLocation(ModuleFile *F); ASTReadResult ReadModuleMapFileBlock(RecordData &Record, ModuleFile &F, const ModuleFile *ImportedBy, unsigned ClientLoadCapabilities); llvm::Error ReadSubmoduleBlock(ModuleFile &F, unsigned ClientLoadCapabilities); static bool ParseLanguageOptions(const RecordData &Record, bool Complain, ASTReaderListener &Listener, bool AllowCompatibleDifferences); static bool ParseTargetOptions(const RecordData &Record, bool Complain, ASTReaderListener &Listener, bool AllowCompatibleDifferences); static bool ParseDiagnosticOptions(const RecordData &Record, bool Complain, ASTReaderListener &Listener); static bool ParseFileSystemOptions(const RecordData &Record, bool Complain, ASTReaderListener &Listener); static bool ParseHeaderSearchOptions(const RecordData &Record, bool Complain, ASTReaderListener &Listener); static bool ParseHeaderSearchPaths(const RecordData &Record, bool Complain, ASTReaderListener &Listener); static bool ParsePreprocessorOptions(const RecordData &Record, bool Complain, ASTReaderListener &Listener, std::string &SuggestedPredefines); struct RecordLocation { ModuleFile *F; uint64_t Offset; RecordLocation(ModuleFile *M, uint64_t O) : F(M), Offset(O) {} }; QualType readTypeRecord(unsigned Index); RecordLocation TypeCursorForIndex(unsigned Index); void LoadedDecl(unsigned Index, Decl *D); Decl *ReadDeclRecord(serialization::DeclID ID); void markIncompleteDeclChain(Decl *D); /// Returns the most recent declaration of a declaration (which must be /// of a redeclarable kind) that is either local or has already been loaded /// merged into its redecl chain. Decl *getMostRecentExistingDecl(Decl *D); RecordLocation DeclCursorForID(serialization::DeclID ID, SourceLocation &Location); void loadDeclUpdateRecords(PendingUpdateRecord &Record); void loadPendingDeclChain(Decl *D, uint64_t LocalOffset); void loadObjCCategories(serialization::GlobalDeclID ID, ObjCInterfaceDecl *D, unsigned PreviousGeneration = 0); RecordLocation getLocalBitOffset(uint64_t GlobalOffset); uint64_t getGlobalBitOffset(ModuleFile &M, uint64_t LocalOffset); /// Returns the first preprocessed entity ID that begins or ends after /// \arg Loc. serialization::PreprocessedEntityID findPreprocessedEntity(SourceLocation Loc, bool EndsAfter) const; /// Find the next module that contains entities and return the ID /// of the first entry. /// /// \param SLocMapI points at a chunk of a module that contains no /// preprocessed entities or the entities it contains are not the /// ones we are looking for. serialization::PreprocessedEntityID findNextPreprocessedEntity( GlobalSLocOffsetMapType::const_iterator SLocMapI) const; /// Returns (ModuleFile, Local index) pair for \p GlobalIndex of a /// preprocessed entity. std::pair getModulePreprocessedEntity(unsigned GlobalIndex); /// Returns (begin, end) pair for the preprocessed entities of a /// particular module. llvm::iterator_range getModulePreprocessedEntities(ModuleFile &Mod) const; bool canRecoverFromOutOfDate(StringRef ModuleFileName, unsigned ClientLoadCapabilities); public: class ModuleDeclIterator : public llvm::iterator_adaptor_base< ModuleDeclIterator, const serialization::LocalDeclID *, std::random_access_iterator_tag, const Decl *, ptrdiff_t, const Decl *, const Decl *> { ASTReader *Reader = nullptr; ModuleFile *Mod = nullptr; public: ModuleDeclIterator() : iterator_adaptor_base(nullptr) {} ModuleDeclIterator(ASTReader *Reader, ModuleFile *Mod, const serialization::LocalDeclID *Pos) : iterator_adaptor_base(Pos), Reader(Reader), Mod(Mod) {} value_type operator*() const { return Reader->GetDecl(Reader->getGlobalDeclID(*Mod, *I)); } value_type operator->() const { return **this; } bool operator==(const ModuleDeclIterator &RHS) const { assert(Reader == RHS.Reader && Mod == RHS.Mod); return I == RHS.I; } }; llvm::iterator_range getModuleFileLevelDecls(ModuleFile &Mod); private: void PassInterestingDeclsToConsumer(); void PassInterestingDeclToConsumer(Decl *D); void finishPendingActions(); void diagnoseOdrViolations(); void pushExternalDeclIntoScope(NamedDecl *D, DeclarationName Name); void addPendingDeclContextInfo(Decl *D, serialization::GlobalDeclID SemaDC, serialization::GlobalDeclID LexicalDC) { assert(D); PendingDeclContextInfo Info = { D, SemaDC, LexicalDC }; PendingDeclContextInfos.push_back(Info); } /// Produce an error diagnostic and return true. /// /// This routine should only be used for fatal errors that have to /// do with non-routine failures (e.g., corrupted AST file). void Error(StringRef Msg) const; void Error(unsigned DiagID, StringRef Arg1 = StringRef(), StringRef Arg2 = StringRef(), StringRef Arg3 = StringRef()) const; void Error(llvm::Error &&Err) const; public: /// Load the AST file and validate its contents against the given /// Preprocessor. /// /// \param PP the preprocessor associated with the context in which this /// precompiled header will be loaded. /// /// \param Context the AST context that this precompiled header will be /// loaded into, if any. /// /// \param PCHContainerRdr the PCHContainerOperations to use for loading and /// creating modules. /// /// \param Extensions the list of module file extensions that can be loaded /// from the AST files. /// /// \param isysroot If non-NULL, the system include path specified by the /// user. This is only used with relocatable PCH files. If non-NULL, /// a relocatable PCH file will use the default path "/". /// /// \param DisableValidationKind If set, the AST reader will suppress most /// of its regular consistency checking, allowing the use of precompiled /// headers and module files that cannot be determined to be compatible. /// /// \param AllowASTWithCompilerErrors If true, the AST reader will accept an /// AST file the was created out of an AST with compiler errors, /// otherwise it will reject it. /// /// \param AllowConfigurationMismatch If true, the AST reader will not check /// for configuration differences between the AST file and the invocation. /// /// \param ValidateSystemInputs If true, the AST reader will validate /// system input files in addition to user input files. This is only /// meaningful if \p DisableValidation is false. /// /// \param UseGlobalIndex If true, the AST reader will try to load and use /// the global module index. /// /// \param ReadTimer If non-null, a timer used to track the time spent /// deserializing. ASTReader(Preprocessor &PP, InMemoryModuleCache &ModuleCache, ASTContext *Context, const PCHContainerReader &PCHContainerRdr, ArrayRef> Extensions, StringRef isysroot = "", DisableValidationForModuleKind DisableValidationKind = DisableValidationForModuleKind::None, bool AllowASTWithCompilerErrors = false, bool AllowConfigurationMismatch = false, bool ValidateSystemInputs = false, bool ValidateASTInputFilesContent = false, bool UseGlobalIndex = true, std::unique_ptr ReadTimer = {}); ASTReader(const ASTReader &) = delete; ASTReader &operator=(const ASTReader &) = delete; ~ASTReader() override; SourceManager &getSourceManager() const { return SourceMgr; } FileManager &getFileManager() const { return FileMgr; } DiagnosticsEngine &getDiags() const { return Diags; } /// Flags that indicate what kind of AST loading failures the client /// of the AST reader can directly handle. /// /// When a client states that it can handle a particular kind of failure, /// the AST reader will not emit errors when producing that kind of failure. enum LoadFailureCapabilities { /// The client can't handle any AST loading failures. ARR_None = 0, /// The client can handle an AST file that cannot load because it /// is missing. ARR_Missing = 0x1, /// The client can handle an AST file that cannot load because it /// is out-of-date relative to its input files. ARR_OutOfDate = 0x2, /// The client can handle an AST file that cannot load because it /// was built with a different version of Clang. ARR_VersionMismatch = 0x4, /// The client can handle an AST file that cannot load because it's /// compiled configuration doesn't match that of the context it was /// loaded into. ARR_ConfigurationMismatch = 0x8, /// If a module file is marked with errors treat it as out-of-date so the /// caller can rebuild it. ARR_TreatModuleWithErrorsAsOutOfDate = 0x10 }; /// Load the AST file designated by the given file name. /// /// \param FileName The name of the AST file to load. /// /// \param Type The kind of AST being loaded, e.g., PCH, module, main file, /// or preamble. /// /// \param ImportLoc the location where the module file will be considered as /// imported from. For non-module AST types it should be invalid. /// /// \param ClientLoadCapabilities The set of client load-failure /// capabilities, represented as a bitset of the enumerators of /// LoadFailureCapabilities. /// /// \param LoadedModuleFile The optional out-parameter refers to the new /// loaded modules. In case the module specified by FileName is already /// loaded, the module file pointer referred by NewLoadedModuleFile wouldn't /// change. Otherwise if the AST file get loaded successfully, /// NewLoadedModuleFile would refer to the address of the new loaded top level /// module. The state of NewLoadedModuleFile is unspecified if the AST file /// isn't loaded successfully. ASTReadResult ReadAST(StringRef FileName, ModuleKind Type, SourceLocation ImportLoc, unsigned ClientLoadCapabilities, ModuleFile **NewLoadedModuleFile = nullptr); /// Make the entities in the given module and any of its (non-explicit) /// submodules visible to name lookup. /// /// \param Mod The module whose names should be made visible. /// /// \param NameVisibility The level of visibility to give the names in the /// module. Visibility can only be increased over time. /// /// \param ImportLoc The location at which the import occurs. void makeModuleVisible(Module *Mod, Module::NameVisibilityKind NameVisibility, SourceLocation ImportLoc); /// Make the names within this set of hidden names visible. void makeNamesVisible(const HiddenNames &Names, Module *Owner); /// Note that MergedDef is a redefinition of the canonical definition /// Def, so Def should be visible whenever MergedDef is. void mergeDefinitionVisibility(NamedDecl *Def, NamedDecl *MergedDef); /// Take the AST callbacks listener. std::unique_ptr takeListener() { return std::move(Listener); } /// Set the AST callbacks listener. void setListener(std::unique_ptr Listener) { this->Listener = std::move(Listener); } /// Add an AST callback listener. /// /// Takes ownership of \p L. void addListener(std::unique_ptr L) { if (Listener) L = std::make_unique(std::move(L), std::move(Listener)); Listener = std::move(L); } /// RAII object to temporarily add an AST callback listener. class ListenerScope { ASTReader &Reader; bool Chained = false; public: ListenerScope(ASTReader &Reader, std::unique_ptr L) : Reader(Reader) { auto Old = Reader.takeListener(); if (Old) { Chained = true; L = std::make_unique(std::move(L), std::move(Old)); } Reader.setListener(std::move(L)); } ~ListenerScope() { auto New = Reader.takeListener(); if (Chained) Reader.setListener(static_cast(New.get()) ->takeSecond()); } }; /// Set the AST deserialization listener. void setDeserializationListener(ASTDeserializationListener *Listener, bool TakeOwnership = false); /// Get the AST deserialization listener. ASTDeserializationListener *getDeserializationListener() { return DeserializationListener; } /// Determine whether this AST reader has a global index. bool hasGlobalIndex() const { return (bool)GlobalIndex; } /// Return global module index. GlobalModuleIndex *getGlobalIndex() { return GlobalIndex.get(); } /// Reset reader for a reload try. void resetForReload() { TriedLoadingGlobalIndex = false; } /// Attempts to load the global index. /// /// \returns true if loading the global index has failed for any reason. bool loadGlobalIndex(); /// Determine whether we tried to load the global index, but failed, /// e.g., because it is out-of-date or does not exist. bool isGlobalIndexUnavailable() const; /// Initializes the ASTContext void InitializeContext(); /// Update the state of Sema after loading some additional modules. void UpdateSema(); /// Add in-memory (virtual file) buffer. void addInMemoryBuffer(StringRef &FileName, std::unique_ptr Buffer) { ModuleMgr.addInMemoryBuffer(FileName, std::move(Buffer)); } /// Finalizes the AST reader's state before writing an AST file to /// disk. /// /// This operation may undo temporary state in the AST that should not be /// emitted. void finalizeForWriting(); /// Retrieve the module manager. ModuleManager &getModuleManager() { return ModuleMgr; } /// Retrieve the preprocessor. Preprocessor &getPreprocessor() const { return PP; } /// Retrieve the name of the original source file name for the primary /// module file. StringRef getOriginalSourceFile() { return ModuleMgr.getPrimaryModule().OriginalSourceFileName; } /// Retrieve the name of the original source file name directly from /// the AST file, without actually loading the AST file. static std::string getOriginalSourceFile(const std::string &ASTFileName, FileManager &FileMgr, const PCHContainerReader &PCHContainerRdr, DiagnosticsEngine &Diags); /// Read the control block for the named AST file. /// /// \returns true if an error occurred, false otherwise. static bool readASTFileControlBlock(StringRef Filename, FileManager &FileMgr, const InMemoryModuleCache &ModuleCache, const PCHContainerReader &PCHContainerRdr, bool FindModuleFileExtensions, ASTReaderListener &Listener, bool ValidateDiagnosticOptions); /// Determine whether the given AST file is acceptable to load into a /// translation unit with the given language and target options. static bool isAcceptableASTFile(StringRef Filename, FileManager &FileMgr, const InMemoryModuleCache &ModuleCache, const PCHContainerReader &PCHContainerRdr, const LangOptions &LangOpts, const TargetOptions &TargetOpts, const PreprocessorOptions &PPOpts, StringRef ExistingModuleCachePath, bool RequireStrictOptionMatches = false); /// Returns the suggested contents of the predefines buffer, /// which contains a (typically-empty) subset of the predefines /// build prior to including the precompiled header. const std::string &getSuggestedPredefines() { return SuggestedPredefines; } /// Read a preallocated preprocessed entity from the external source. /// /// \returns null if an error occurred that prevented the preprocessed /// entity from being loaded. PreprocessedEntity *ReadPreprocessedEntity(unsigned Index) override; /// Returns a pair of [Begin, End) indices of preallocated /// preprocessed entities that \p Range encompasses. std::pair findPreprocessedEntitiesInRange(SourceRange Range) override; /// Optionally returns true or false if the preallocated preprocessed /// entity with index \p Index came from file \p FID. std::optional isPreprocessedEntityInFileID(unsigned Index, FileID FID) override; /// Read a preallocated skipped range from the external source. SourceRange ReadSkippedRange(unsigned Index) override; /// Read the header file information for the given file entry. HeaderFileInfo GetHeaderFileInfo(FileEntryRef FE) override; void ReadPragmaDiagnosticMappings(DiagnosticsEngine &Diag); /// Returns the number of source locations found in the chain. unsigned getTotalNumSLocs() const { return TotalNumSLocEntries; } /// Returns the number of identifiers found in the chain. unsigned getTotalNumIdentifiers() const { return static_cast(IdentifiersLoaded.size()); } /// Returns the number of macros found in the chain. unsigned getTotalNumMacros() const { return static_cast(MacrosLoaded.size()); } /// Returns the number of types found in the chain. unsigned getTotalNumTypes() const { return static_cast(TypesLoaded.size()); } /// Returns the number of declarations found in the chain. unsigned getTotalNumDecls() const { return static_cast(DeclsLoaded.size()); } /// Returns the number of submodules known. unsigned getTotalNumSubmodules() const { return static_cast(SubmodulesLoaded.size()); } /// Returns the number of selectors found in the chain. unsigned getTotalNumSelectors() const { return static_cast(SelectorsLoaded.size()); } /// Returns the number of preprocessed entities known to the AST /// reader. unsigned getTotalNumPreprocessedEntities() const { unsigned Result = 0; for (const auto &M : ModuleMgr) Result += M.NumPreprocessedEntities; return Result; } /// Resolve a type ID into a type, potentially building a new /// type. QualType GetType(serialization::TypeID ID); /// Resolve a local type ID within a given AST file into a type. QualType getLocalType(ModuleFile &F, unsigned LocalID); /// Map a local type ID within a given AST file into a global type ID. serialization::TypeID getGlobalTypeID(ModuleFile &F, unsigned LocalID) const; /// Read a type from the current position in the given record, which /// was read from the given AST file. QualType readType(ModuleFile &F, const RecordData &Record, unsigned &Idx) { if (Idx >= Record.size()) return {}; return getLocalType(F, Record[Idx++]); } /// Map from a local declaration ID within a given module to a /// global declaration ID. serialization::DeclID getGlobalDeclID(ModuleFile &F, serialization::LocalDeclID LocalID) const; /// Returns true if global DeclID \p ID originated from module \p M. bool isDeclIDFromModule(serialization::GlobalDeclID ID, ModuleFile &M) const; /// Retrieve the module file that owns the given declaration, or NULL /// if the declaration is not from a module file. ModuleFile *getOwningModuleFile(const Decl *D); /// Returns the source location for the decl \p ID. SourceLocation getSourceLocationForDeclID(serialization::GlobalDeclID ID); /// Resolve a declaration ID into a declaration, potentially /// building a new declaration. Decl *GetDecl(serialization::DeclID ID); Decl *GetExternalDecl(uint32_t ID) override; /// Resolve a declaration ID into a declaration. Return 0 if it's not /// been loaded yet. Decl *GetExistingDecl(serialization::DeclID ID); /// Reads a declaration with the given local ID in the given module. Decl *GetLocalDecl(ModuleFile &F, uint32_t LocalID) { return GetDecl(getGlobalDeclID(F, LocalID)); } /// Reads a declaration with the given local ID in the given module. /// /// \returns The requested declaration, casted to the given return type. template T *GetLocalDeclAs(ModuleFile &F, uint32_t LocalID) { return cast_or_null(GetLocalDecl(F, LocalID)); } /// Map a global declaration ID into the declaration ID used to /// refer to this declaration within the given module fule. /// /// \returns the global ID of the given declaration as known in the given /// module file. serialization::DeclID mapGlobalIDToModuleFileGlobalID(ModuleFile &M, serialization::DeclID GlobalID); /// Reads a declaration ID from the given position in a record in the /// given module. /// /// \returns The declaration ID read from the record, adjusted to a global ID. serialization::DeclID ReadDeclID(ModuleFile &F, const RecordData &Record, unsigned &Idx); /// Reads a declaration from the given position in a record in the /// given module. Decl *ReadDecl(ModuleFile &F, const RecordData &R, unsigned &I) { return GetDecl(ReadDeclID(F, R, I)); } /// Reads a declaration from the given position in a record in the /// given module. /// /// \returns The declaration read from this location, casted to the given /// result type. template T *ReadDeclAs(ModuleFile &F, const RecordData &R, unsigned &I) { return cast_or_null(GetDecl(ReadDeclID(F, R, I))); } /// If any redeclarations of \p D have been imported since it was /// last checked, this digs out those redeclarations and adds them to the /// redeclaration chain for \p D. void CompleteRedeclChain(const Decl *D) override; CXXBaseSpecifier *GetExternalCXXBaseSpecifiers(uint64_t Offset) override; /// Resolve the offset of a statement into a statement. /// /// This operation will read a new statement from the external /// source each time it is called, and is meant to be used via a /// LazyOffsetPtr (which is used by Decls for the body of functions, etc). Stmt *GetExternalDeclStmt(uint64_t Offset) override; /// ReadBlockAbbrevs - Enter a subblock of the specified BlockID with the /// specified cursor. Read the abbreviations that are at the top of the block /// and then leave the cursor pointing into the block. static llvm::Error ReadBlockAbbrevs(llvm::BitstreamCursor &Cursor, unsigned BlockID, uint64_t *StartOfBlockOffset = nullptr); /// Finds all the visible declarations with a given name. /// The current implementation of this method just loads the entire /// lookup table as unmaterialized references. bool FindExternalVisibleDeclsByName(const DeclContext *DC, DeclarationName Name) override; /// Read all of the declarations lexically stored in a /// declaration context. /// /// \param DC The declaration context whose declarations will be /// read. /// /// \param IsKindWeWant A predicate indicating which declaration kinds /// we are interested in. /// /// \param Decls Vector that will contain the declarations loaded /// from the external source. The caller is responsible for merging /// these declarations with any declarations already stored in the /// declaration context. void FindExternalLexicalDecls(const DeclContext *DC, llvm::function_ref IsKindWeWant, SmallVectorImpl &Decls) override; /// Get the decls that are contained in a file in the Offset/Length /// range. \p Length can be 0 to indicate a point at \p Offset instead of /// a range. void FindFileRegionDecls(FileID File, unsigned Offset, unsigned Length, SmallVectorImpl &Decls) override; /// Notify ASTReader that we started deserialization of /// a decl or type so until FinishedDeserializing is called there may be /// decls that are initializing. Must be paired with FinishedDeserializing. void StartedDeserializing() override; /// Notify ASTReader that we finished the deserialization of /// a decl or type. Must be paired with StartedDeserializing. void FinishedDeserializing() override; /// Function that will be invoked when we begin parsing a new /// translation unit involving this external AST source. /// /// This function will provide all of the external definitions to /// the ASTConsumer. void StartTranslationUnit(ASTConsumer *Consumer) override; /// Print some statistics about AST usage. void PrintStats() override; /// Dump information about the AST reader to standard error. void dump(); /// Return the amount of memory used by memory buffers, breaking down /// by heap-backed versus mmap'ed memory. void getMemoryBufferSizes(MemoryBufferSizes &sizes) const override; /// Initialize the semantic source with the Sema instance /// being used to perform semantic analysis on the abstract syntax /// tree. void InitializeSema(Sema &S) override; /// Inform the semantic consumer that Sema is no longer available. void ForgetSema() override { SemaObj = nullptr; } /// Retrieve the IdentifierInfo for the named identifier. /// /// This routine builds a new IdentifierInfo for the given identifier. If any /// declarations with this name are visible from translation unit scope, their /// declarations will be deserialized and introduced into the declaration /// chain of the identifier. IdentifierInfo *get(StringRef Name) override; /// Retrieve an iterator into the set of all identifiers /// in all loaded AST files. IdentifierIterator *getIdentifiers() override; /// Load the contents of the global method pool for a given /// selector. void ReadMethodPool(Selector Sel) override; /// Load the contents of the global method pool for a given /// selector if necessary. void updateOutOfDateSelector(Selector Sel) override; /// Load the set of namespaces that are known to the external source, /// which will be used during typo correction. void ReadKnownNamespaces( SmallVectorImpl &Namespaces) override; void ReadUndefinedButUsed( llvm::MapVector &Undefined) override; void ReadMismatchingDeleteExpressions(llvm::MapVector< FieldDecl *, llvm::SmallVector, 4>> & Exprs) override; void ReadTentativeDefinitions( SmallVectorImpl &TentativeDefs) override; void ReadUnusedFileScopedDecls( SmallVectorImpl &Decls) override; void ReadDelegatingConstructors( SmallVectorImpl &Decls) override; void ReadExtVectorDecls(SmallVectorImpl &Decls) override; void ReadUnusedLocalTypedefNameCandidates( llvm::SmallSetVector &Decls) override; void ReadDeclsToCheckForDeferredDiags( llvm::SmallSetVector &Decls) override; void ReadReferencedSelectors( SmallVectorImpl> &Sels) override; void ReadWeakUndeclaredIdentifiers( SmallVectorImpl> &WeakIDs) override; void ReadUsedVTables(SmallVectorImpl &VTables) override; void ReadPendingInstantiations( SmallVectorImpl> &Pending) override; void ReadLateParsedTemplates( llvm::MapVector> &LPTMap) override; void AssignedLambdaNumbering(const CXXRecordDecl *Lambda) override; /// Load a selector from disk, registering its ID if it exists. void LoadSelector(Selector Sel); void SetIdentifierInfo(unsigned ID, IdentifierInfo *II); void SetGloballyVisibleDecls(IdentifierInfo *II, const SmallVectorImpl &DeclIDs, SmallVectorImpl *Decls = nullptr); /// Report a diagnostic. DiagnosticBuilder Diag(unsigned DiagID) const; /// Report a diagnostic. DiagnosticBuilder Diag(SourceLocation Loc, unsigned DiagID) const; IdentifierInfo *DecodeIdentifierInfo(serialization::IdentifierID ID); IdentifierInfo *readIdentifier(ModuleFile &M, const RecordData &Record, unsigned &Idx) { return DecodeIdentifierInfo(getGlobalIdentifierID(M, Record[Idx++])); } IdentifierInfo *GetIdentifier(serialization::IdentifierID ID) override { // Note that we are loading an identifier. Deserializing AnIdentifier(this); return DecodeIdentifierInfo(ID); } IdentifierInfo *getLocalIdentifier(ModuleFile &M, unsigned LocalID); serialization::IdentifierID getGlobalIdentifierID(ModuleFile &M, unsigned LocalID); void resolvePendingMacro(IdentifierInfo *II, const PendingMacroInfo &PMInfo); /// Retrieve the macro with the given ID. MacroInfo *getMacro(serialization::MacroID ID); /// Retrieve the global macro ID corresponding to the given local /// ID within the given module file. serialization::MacroID getGlobalMacroID(ModuleFile &M, unsigned LocalID); /// Read the source location entry with index ID. bool ReadSLocEntry(int ID) override; /// Get the index ID for the loaded SourceLocation offset. int getSLocEntryID(SourceLocation::UIntTy SLocOffset) override; /// Try to read the offset of the SLocEntry at the given index in the given /// module file. llvm::Expected readSLocOffset(ModuleFile *F, unsigned Index); /// Retrieve the module import location and module name for the /// given source manager entry ID. std::pair getModuleImportLoc(int ID) override; /// Retrieve the global submodule ID given a module and its local ID /// number. serialization::SubmoduleID getGlobalSubmoduleID(ModuleFile &M, unsigned LocalID); /// Retrieve the submodule that corresponds to a global submodule ID. /// Module *getSubmodule(serialization::SubmoduleID GlobalID); /// Retrieve the module that corresponds to the given module ID. /// /// Note: overrides method in ExternalASTSource Module *getModule(unsigned ID) override; /// Retrieve the module file with a given local ID within the specified /// ModuleFile. ModuleFile *getLocalModuleFile(ModuleFile &M, unsigned ID); /// Get an ID for the given module file. unsigned getModuleFileID(ModuleFile *M); /// Return a descriptor for the corresponding module. std::optional getSourceDescriptor(unsigned ID) override; ExtKind hasExternalDefinitions(const Decl *D) override; /// Retrieve a selector from the given module with its local ID /// number. Selector getLocalSelector(ModuleFile &M, unsigned LocalID); Selector DecodeSelector(serialization::SelectorID Idx); Selector GetExternalSelector(serialization::SelectorID ID) override; uint32_t GetNumExternalSelectors() override; Selector ReadSelector(ModuleFile &M, const RecordData &Record, unsigned &Idx) { return getLocalSelector(M, Record[Idx++]); } /// Retrieve the global selector ID that corresponds to this /// the local selector ID in a given module. serialization::SelectorID getGlobalSelectorID(ModuleFile &M, unsigned LocalID) const; /// Read the contents of a CXXCtorInitializer array. CXXCtorInitializer **GetExternalCXXCtorInitializers(uint64_t Offset) override; /// Read a AlignPackInfo from raw form. Sema::AlignPackInfo ReadAlignPackInfo(uint32_t Raw) const { return Sema::AlignPackInfo::getFromRawEncoding(Raw); } /// Read a source location from raw form and return it in its /// originating module file's source location space. SourceLocation ReadUntranslatedSourceLocation(SourceLocation::UIntTy Raw, LocSeq *Seq = nullptr) const { return SourceLocationEncoding::decode(Raw, Seq); } /// Read a source location from raw form. SourceLocation ReadSourceLocation(ModuleFile &ModuleFile, SourceLocation::UIntTy Raw, LocSeq *Seq = nullptr) const { SourceLocation Loc = ReadUntranslatedSourceLocation(Raw, Seq); return TranslateSourceLocation(ModuleFile, Loc); } /// Translate a source location from another module file's source /// location space into ours. SourceLocation TranslateSourceLocation(ModuleFile &ModuleFile, SourceLocation Loc) const { if (!ModuleFile.ModuleOffsetMap.empty()) ReadModuleOffsetMap(ModuleFile); assert(ModuleFile.SLocRemap.find(Loc.getOffset()) != ModuleFile.SLocRemap.end() && "Cannot find offset to remap."); SourceLocation::IntTy Remap = ModuleFile.SLocRemap.find(Loc.getOffset())->second; return Loc.getLocWithOffset(Remap); } /// Read a source location. SourceLocation ReadSourceLocation(ModuleFile &ModuleFile, const RecordDataImpl &Record, unsigned &Idx, LocSeq *Seq = nullptr) { return ReadSourceLocation(ModuleFile, Record[Idx++], Seq); } /// Read a FileID. FileID ReadFileID(ModuleFile &F, const RecordDataImpl &Record, unsigned &Idx) const { return TranslateFileID(F, FileID::get(Record[Idx++])); } /// Translate a FileID from another module file's FileID space into ours. FileID TranslateFileID(ModuleFile &F, FileID FID) const { assert(FID.ID >= 0 && "Reading non-local FileID."); return FileID::get(F.SLocEntryBaseID + FID.ID - 1); } /// Read a source range. SourceRange ReadSourceRange(ModuleFile &F, const RecordData &Record, unsigned &Idx, LocSeq *Seq = nullptr); // Read a string static std::string ReadString(const RecordDataImpl &Record, unsigned &Idx); // Skip a string static void SkipString(const RecordData &Record, unsigned &Idx) { Idx += Record[Idx] + 1; } // Read a path std::string ReadPath(ModuleFile &F, const RecordData &Record, unsigned &Idx); // Read a path std::string ReadPath(StringRef BaseDirectory, const RecordData &Record, unsigned &Idx); // Skip a path static void SkipPath(const RecordData &Record, unsigned &Idx) { SkipString(Record, Idx); } /// Read a version tuple. static VersionTuple ReadVersionTuple(const RecordData &Record, unsigned &Idx); CXXTemporary *ReadCXXTemporary(ModuleFile &F, const RecordData &Record, unsigned &Idx); /// Reads a statement. Stmt *ReadStmt(ModuleFile &F); /// Reads an expression. Expr *ReadExpr(ModuleFile &F); /// Reads a sub-statement operand during statement reading. Stmt *ReadSubStmt() { assert(ReadingKind == Read_Stmt && "Should be called only during statement reading!"); // Subexpressions are stored from last to first, so the next Stmt we need // is at the back of the stack. assert(!StmtStack.empty() && "Read too many sub-statements!"); return StmtStack.pop_back_val(); } /// Reads a sub-expression operand during statement reading. Expr *ReadSubExpr(); /// Reads a token out of a record. Token ReadToken(ModuleFile &M, const RecordDataImpl &Record, unsigned &Idx); /// Reads the macro record located at the given offset. MacroInfo *ReadMacroRecord(ModuleFile &F, uint64_t Offset); /// Determine the global preprocessed entity ID that corresponds to /// the given local ID within the given module. serialization::PreprocessedEntityID getGlobalPreprocessedEntityID(ModuleFile &M, unsigned LocalID) const; /// Add a macro to deserialize its macro directive history. /// /// \param II The name of the macro. /// \param M The module file. /// \param MacroDirectivesOffset Offset of the serialized macro directive /// history. void addPendingMacro(IdentifierInfo *II, ModuleFile *M, uint32_t MacroDirectivesOffset); /// Read the set of macros defined by this external macro source. void ReadDefinedMacros() override; /// Update an out-of-date identifier. void updateOutOfDateIdentifier(IdentifierInfo &II) override; /// Note that this identifier is up-to-date. void markIdentifierUpToDate(IdentifierInfo *II); /// Load all external visible decls in the given DeclContext. void completeVisibleDeclsMap(const DeclContext *DC) override; /// Retrieve the AST context that this AST reader supplements. ASTContext &getContext() { assert(ContextObj && "requested AST context when not loading AST"); return *ContextObj; } // Contains the IDs for declarations that were requested before we have // access to a Sema object. SmallVector PreloadedDeclIDs; /// Retrieve the semantic analysis object used to analyze the /// translation unit in which the precompiled header is being /// imported. Sema *getSema() { return SemaObj; } /// Get the identifier resolver used for name lookup / updates /// in the translation unit scope. We have one of these even if we don't /// have a Sema object. IdentifierResolver &getIdResolver(); /// Retrieve the identifier table associated with the /// preprocessor. IdentifierTable &getIdentifierTable(); /// Record that the given ID maps to the given switch-case /// statement. void RecordSwitchCaseID(SwitchCase *SC, unsigned ID); /// Retrieve the switch-case statement with the given ID. SwitchCase *getSwitchCaseWithID(unsigned ID); void ClearSwitchCaseIDs(); /// Cursors for comments blocks. SmallVector, 8> CommentsCursors; /// Loads comments ranges. void ReadComments() override; /// Visit all the input file infos of the given module file. void visitInputFileInfos( serialization::ModuleFile &MF, bool IncludeSystem, llvm::function_ref Visitor); /// Visit all the input files of the given module file. void visitInputFiles(serialization::ModuleFile &MF, bool IncludeSystem, bool Complain, llvm::function_ref Visitor); /// Visit all the top-level module maps loaded when building the given module /// file. void visitTopLevelModuleMaps(serialization::ModuleFile &MF, llvm::function_ref Visitor); bool isProcessingUpdateRecords() { return ProcessingUpdateRecords; } }; /// A simple helper class to unpack an integer to bits and consuming /// the bits in order. class BitsUnpacker { constexpr static uint32_t BitsIndexUpbound = 32; public: BitsUnpacker(uint32_t V) { updateValue(V); } BitsUnpacker(const BitsUnpacker &) = delete; BitsUnpacker(BitsUnpacker &&) = delete; BitsUnpacker operator=(const BitsUnpacker &) = delete; BitsUnpacker operator=(BitsUnpacker &&) = delete; ~BitsUnpacker() = default; void updateValue(uint32_t V) { Value = V; CurrentBitsIndex = 0; } void advance(uint32_t BitsWidth) { CurrentBitsIndex += BitsWidth; } bool getNextBit() { assert(isValid()); return Value & (1 << CurrentBitsIndex++); } uint32_t getNextBits(uint32_t Width) { assert(isValid()); assert(Width < BitsIndexUpbound); uint32_t Ret = (Value >> CurrentBitsIndex) & ((1 << Width) - 1); CurrentBitsIndex += Width; return Ret; } bool canGetNextNBits(uint32_t Width) const { return CurrentBitsIndex + Width < BitsIndexUpbound; } private: bool isValid() const { return CurrentBitsIndex < BitsIndexUpbound; } uint32_t Value; uint32_t CurrentBitsIndex = ~0; }; } // namespace clang #endif // LLVM_CLANG_SERIALIZATION_ASTREADER_H