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#pragma once
#ifdef __GNUC__
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
#endif
//===- 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/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 <cassert>
#include <cstddef>
#include <cstdint>
#include <ctime>
#include <deque>
#include <memory>
#include <optional>
#include <set>
#include <string>
#include <utility>
#include <vector>
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<DiagnosticOptions> 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 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<ASTReaderListener> First;
std::unique_ptr<ASTReaderListener> Second;
public:
/// Takes ownership of \p First and \p Second.
ChainedASTReaderListener(std::unique_ptr<ASTReaderListener> First,
std::unique_ptr<ASTReaderListener> Second)
: First(std::move(First)), Second(std::move(Second)) {}
std::unique_ptr<ASTReaderListener> takeFirst() { return std::move(First); }
std::unique_ptr<ASTReaderListener> 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<DiagnosticOptions> 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 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<DiagnosticOptions> DiagOpts,
bool Complain) override;
bool ReadPreprocessorOptions(const PreprocessorOptions &PPOpts, 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;
private:
void Error(const char *Msg);
};
/// 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 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<uint64_t, 64>;
using RecordDataImpl = SmallVectorImpl<uint64_t>;
/// 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<ASTReaderListener> 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<std::shared_ptr<ModuleFileExtension>> ModuleFileExtensions;
/// A timer used to track the time spent deserializing.
std::unique_ptr<llvm::Timer> 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<ModuleKind> CurrentDeserializingModuleKind;
/// The global module index, if loaded.
std::unique_ptr<GlobalModuleIndex> GlobalIndex;
/// A map of global bit offsets to the module that stores entities
/// at those bit offsets.
ContinuousRangeMap<uint64_t, ModuleFile*, 4> GlobalBitOffsetsMap;
/// A map of negated SLocEntryIDs to the modules containing them.
ContinuousRangeMap<unsigned, ModuleFile*, 64> GlobalSLocEntryMap;
using GlobalSLocOffsetMapType =
ContinuousRangeMap<unsigned, ModuleFile *, 64>;
/// 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
std::vector<QualType> TypesLoaded;
using GlobalTypeMapType =
ContinuousRangeMap<serialization::TypeID, ModuleFile *, 4>;
/// 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.
std::vector<Decl *> DeclsLoaded;
using GlobalDeclMapType =
ContinuousRangeMap<serialization::DeclID, ModuleFile *, 4>;
/// Mapping from global declaration IDs to the module in which the
/// declaration resides.
GlobalDeclMapType GlobalDeclMap;
using FileOffset = std::pair<ModuleFile *, uint64_t>;
using FileOffsetsTy = SmallVector<FileOffset, 2>;
using DeclUpdateOffsetsMap =
llvm::DenseMap<serialization::DeclID, FileOffsetsTy>;
/// 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<PendingUpdateRecord, 16> 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<void *, PendingFakeDefinitionKind> 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<Decl *, FunctionDecl *, 4> 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<FunctionDecl *, QualType, 4> PendingDeducedTypeUpdates;
/// Declarations that have been imported and have typedef names for
/// linkage purposes.
llvm::DenseMap<std::pair<DeclContext *, IdentifierInfo *>, NamedDecl *>
ImportedTypedefNamesForLinkage;
/// Mergeable declaration contexts that have anonymous declarations
/// within them, and those anonymous declarations.
llvm::DenseMap<Decl*, llvm::SmallVector<NamedDecl*, 2>>
AnonymousDeclarationsForMerging;
/// Key used to identify LifetimeExtendedTemporaryDecl for merging,
/// containing the lifetime-extending declaration and the mangling number.
using LETemporaryKey = std::pair<Decl *, unsigned>;
/// Map of already deserialiazed temporaries.
llvm::DenseMap<LETemporaryKey, LifetimeExtendedTemporaryDecl *>
LETemporaryForMerging;
struct FileDeclsInfo {
ModuleFile *Mod = nullptr;
ArrayRef<serialization::LocalDeclID> Decls;
FileDeclsInfo() = default;
FileDeclsInfo(ModuleFile *Mod, ArrayRef<serialization::LocalDeclID> Decls)
: Mod(Mod), Decls(Decls) {}
};
/// Map from a FileID to the file-level declarations that it contains.
llvm::DenseMap<FileID, FileDeclsInfo> FileDeclIDs;
/// An array of lexical contents of a declaration context, as a sequence of
/// Decl::Kind, DeclID pairs.
using LexicalContents = ArrayRef<llvm::support::unaligned_uint32_t>;
/// Map from a DeclContext to its lexical contents.
llvm::DenseMap<const DeclContext*, std::pair<ModuleFile*, LexicalContents>>
LexicalDecls;
/// Map from the TU to its lexical contents from each module file.
std::vector<std::pair<ModuleFile*, LexicalContents>> TULexicalDecls;
/// Map from a DeclContext to its lookup tables.
llvm::DenseMap<const DeclContext *,
serialization::reader::DeclContextLookupTable> 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<PendingVisibleUpdate, 1>;
/// Updates to the visible declarations of declaration contexts that
/// haven't been loaded yet.
llvm::DenseMap<serialization::DeclID, DeclContextVisibleUpdates>
PendingVisibleUpdates;
/// The set of C++ or Objective-C classes that have forward
/// declarations that have not yet been linked to their definitions.
llvm::SmallPtrSet<Decl *, 4> PendingDefinitions;
using PendingBodiesMap =
llvm::MapVector<Decl *, uint64_t,
llvm::SmallDenseMap<Decl *, unsigned, 4>,
SmallVector<std::pair<Decl *, uint64_t>, 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<NamedDecl *> 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<IdentifierInfo *> IdentifiersLoaded;
using GlobalIdentifierMapType =
ContinuousRangeMap<serialization::IdentID, ModuleFile *, 4>;
/// 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<MacroInfo *> MacrosLoaded;
using LoadedMacroInfo =
std::pair<IdentifierInfo *, serialization::SubmoduleID>;
/// A set of #undef directives that we have loaded; used to
/// deduplicate the same #undef information coming from multiple module
/// files.
llvm::DenseSet<LoadedMacroInfo> LoadedUndefs;
using GlobalMacroMapType =
ContinuousRangeMap<serialization::MacroID, ModuleFile *, 4>;
/// 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<Module *, 2> SubmodulesLoaded;
using GlobalSubmoduleMapType =
ContinuousRangeMap<serialization::SubmoduleID, ModuleFile *, 4>;
/// 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<Decl *, 2>;
using HiddenNamesMapType = llvm::DenseMap<Module *, HiddenNames>;
/// 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<UnresolvedModuleRef, 2> 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<Selector, 16> SelectorsLoaded;
using GlobalSelectorMapType =
ContinuousRangeMap<serialization::SelectorID, ModuleFile *, 4>;
/// 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<Selector, unsigned> 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<Selector, bool> 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<IdentifierInfo *, SmallVector<PendingMacroInfo, 2>>;
/// 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<unsigned, ModuleFile *, 4>;
/// 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<unsigned, ModuleFile *, 4>;
/// 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<serialization::DeclID, 16> 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<serialization::DeclID, 16> 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<serialization::DeclID, 64> 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<serialization::DeclID, 64> 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<serialization::DeclID, 16> UnusedFileScopedDecls;
/// A list of all the delegating constructors we've seen, to diagnose
/// cycles.
SmallVector<serialization::DeclID, 4> DelegatingCtorDecls;
/// Method selectors used in a @selector expression. Used for
/// implementation of -Wselector.
SmallVector<serialization::SelectorID, 64> ReferencedSelectorsData;
/// A snapshot of Sema's weak undeclared identifier tracking, for
/// generating warnings.
SmallVector<serialization::IdentifierID, 64> 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<serialization::DeclID, 4> 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<serialization::DeclID, 16> 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<serialization::DeclID, 4> SemaDeclRefs;
/// The IDs of the types ASTContext stores directly.
///
/// The AST context tracks a few important types, such as va_list, directly.
SmallVector<serialization::TypeID, 16> SpecialTypes;
/// The IDs of CUDA-specific declarations ASTContext stores directly.
///
/// The AST context tracks a few important decls, currently cudaConfigureCall,
/// directly.
SmallVector<serialization::DeclID, 2> CUDASpecialDeclRefs;
/// The floating point pragma option settings.
SmallVector<uint64_t, 1> 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<FPOptionsOverride> FpPragmaCurrentValue;
SourceLocation FpPragmaCurrentLocation;
struct FpPragmaStackEntry {
FPOptionsOverride Value;
SourceLocation Location;
SourceLocation PushLocation;
StringRef SlotLabel;
};
llvm::SmallVector<FpPragmaStackEntry, 2> FpPragmaStack;
llvm::SmallVector<std::string, 2> FpPragmaStrings;
/// The pragma align/pack state.
std::optional<Sema::AlignPackInfo> PragmaAlignPackCurrentValue;
SourceLocation PragmaAlignPackCurrentLocation;
struct PragmaAlignPackStackEntry {
Sema::AlignPackInfo Value;
SourceLocation Location;
SourceLocation PushLocation;
StringRef SlotLabel;
};
llvm::SmallVector<PragmaAlignPackStackEntry, 2> PragmaAlignPackStack;
llvm::SmallVector<std::string, 2> PragmaAlignPackStrings;
/// The OpenCL extension settings.
OpenCLOptions OpenCLExtensions;
/// Extensions required by an OpenCL type.
llvm::DenseMap<const Type *, std::set<std::string>> OpenCLTypeExtMap;
/// Extensions required by an OpenCL declaration.
llvm::DenseMap<const Decl *, std::set<std::string>> OpenCLDeclExtMap;
/// A list of the namespaces we've seen.
SmallVector<serialization::DeclID, 4> KnownNamespaces;
/// A list of undefined decls with internal linkage followed by the
/// SourceLocation of a matching ODR-use.
SmallVector<serialization::DeclID, 8> UndefinedButUsed;
/// Delete expressions to analyze at the end of translation unit.
SmallVector<uint64_t, 8> DelayedDeleteExprs;
// A list of late parsed template function data with their module files.
SmallVector<std::pair<ModuleFile *, SmallVector<uint64_t, 1>>, 4>
LateParsedTemplates;
/// The IDs of all decls to be checked for deferred diags.
///
/// Sema tracks these to emit deferred diags.
llvm::SmallSetVector<serialization::DeclID, 4> DeclsToCheckForDeferredDiags;
public:
struct ImportedSubmodule {
serialization::SubmoduleID ID;
SourceLocation ImportLoc;
ImportedSubmodule(serialization::SubmoduleID ID, SourceLocation ImportLoc)
: ID(ID), ImportLoc(ImportLoc) {}
};
private:
/// A list of modules that were imported by precompiled headers or
/// any other non-module AST file.
SmallVector<ImportedSubmodule, 2> ImportedModules;
//@}
/// 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<unsigned, SwitchCase *>;
/// 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<IdentifierInfo *, SmallVector<uint32_t, 4>>
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<IdentifierInfo *, SmallVector<NamedDecl*, 2>, 16>
PendingFakeLookupResults;
/// The generation number of each identifier, which keeps track of
/// the last time we loaded information about this identifier.
llvm::DenseMap<IdentifierInfo *, unsigned> 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<InterestingDecl> 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<std::pair<FunctionDecl *, serialization::TypeID>, 16>
PendingFunctionTypes;
/// The list of redeclaration chains that still need to be
/// reconstructed, and the local offset to the corresponding list
/// of redeclarations.
SmallVector<std::pair<Decl *, uint64_t>, 16> PendingDeclChains;
/// The list of canonical declarations whose redeclaration chains
/// need to be marked as incomplete once we're done deserializing things.
SmallVector<Decl *, 16> 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<PendingDeclContextInfo> PendingDeclContextInfos;
template <typename DeclTy>
using DuplicateObjCDecls = std::pair<DeclTy *, DeclTy *>;
/// 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<DuplicateObjCDecls<ObjCCategoryDecl>,
llvm::SmallVector<DuplicateObjCDecls<ObjCIvarDecl>, 4>,
2>
PendingObjCExtensionIvarRedeclarations;
/// 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<NamedDecl *, 16> PendingOdrMergeChecks;
using DataPointers =
std::pair<CXXRecordDecl *, struct CXXRecordDecl::DefinitionData *>;
using ObjCInterfaceDataPointers =
std::pair<ObjCInterfaceDecl *,
struct ObjCInterfaceDecl::DefinitionData *>;
using ObjCProtocolDataPointers =
std::pair<ObjCProtocolDecl *, struct ObjCProtocolDecl::DefinitionData *>;
/// Record definitions in which we found an ODR violation.
llvm::SmallDenseMap<CXXRecordDecl *, llvm::SmallVector<DataPointers, 2>, 2>
PendingOdrMergeFailures;
/// C/ObjC record definitions in which we found an ODR violation.
llvm::SmallDenseMap<RecordDecl *, llvm::SmallVector<RecordDecl *, 2>, 2>
PendingRecordOdrMergeFailures;
/// Function definitions in which we found an ODR violation.
llvm::SmallDenseMap<FunctionDecl *, llvm::SmallVector<FunctionDecl *, 2>, 2>
PendingFunctionOdrMergeFailures;
/// Enum definitions in which we found an ODR violation.
llvm::SmallDenseMap<EnumDecl *, llvm::SmallVector<EnumDecl *, 2>, 2>
PendingEnumOdrMergeFailures;
/// ObjCInterfaceDecl in which we found an ODR violation.
llvm::SmallDenseMap<ObjCInterfaceDecl *,
llvm::SmallVector<ObjCInterfaceDataPointers, 2>, 2>
PendingObjCInterfaceOdrMergeFailures;
/// ObjCProtocolDecl in which we found an ODR violation.
llvm::SmallDenseMap<ObjCProtocolDecl *,
llvm::SmallVector<ObjCProtocolDataPointers, 2>, 2>
PendingObjCProtocolOdrMergeFailures;
/// DeclContexts in which we have diagnosed an ODR violation.
llvm::SmallPtrSet<DeclContext*, 2> DiagnosedOdrMergeFailures;
/// The set of Objective-C categories that have been deserialized
/// since the last time the declaration chains were linked.
llvm::SmallPtrSet<ObjCCategoryDecl *, 16> 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<ObjCInterfaceDecl *, 16> ObjCClassesLoaded;
using KeyDeclsMap =
llvm::DenseMap<Decl *, SmallVector<serialization::DeclID, 2>>;
/// 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<DeclContext *, DeclContext *> MergedDeclContexts;
/// A mapping from canonical declarations of enums to their canonical
/// definitions. Only populated when using modules in C++.
llvm::DenseMap<EnumDecl *, EnumDecl *> EnumDefinitions;
/// A mapping from canonical declarations of records to their canonical
/// definitions. Doesn't cover CXXRecordDecl.
llvm::DenseMap<RecordDecl *, RecordDecl *> RecordDefinitions;
/// When reading a Stmt tree, Stmt operands are placed in this stack.
SmallVector<Stmt *, 16> 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<const Decl *, bool> 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<Decl*>(D));
}
/// Run a callback on each imported key declaration of \p D.
template <typename Fn>
void forEachImportedKeyDecl(const Decl *D, Fn Visit) {
D = D->getCanonicalDecl();
if (D->isFromASTFile())
Visit(D);
auto It = KeyDecls.find(const_cast<Decl*>(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<ImportedModule> &Loaded,
off_t ExpectedSize, time_t ExpectedModTime,
ASTFileSignature ExpectedSignature,
unsigned ClientLoadCapabilities);
ASTReadResult ReadControlBlock(ModuleFile &F,
SmallVectorImpl<ImportedModule> &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);
llvm::BitstreamCursor &SLocCursorForID(int ID);
SourceLocation getImportLocation(ModuleFile *F);
void readIncludedFiles(ModuleFile &F, StringRef Blob, Preprocessor &PP);
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 *Canon);
/// 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<ModuleFile *, unsigned>
getModulePreprocessedEntity(unsigned GlobalIndex);
/// Returns (begin, end) pair for the preprocessed entities of a
/// particular module.
llvm::iterator_range<PreprocessingRecord::iterator>
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<ModuleDeclIterator>
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<std::shared_ptr<ModuleFileExtension>> 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<llvm::Timer> 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 Imported optional out-parameter to append the list of modules
/// that were imported by precompiled headers or any other non-module AST file
ASTReadResult ReadAST(StringRef FileName, ModuleKind Type,
SourceLocation ImportLoc,
unsigned ClientLoadCapabilities,
SmallVectorImpl<ImportedSubmodule> *Imported = 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<ASTReaderListener> takeListener() {
return std::move(Listener);
}
/// Set the AST callbacks listener.
void setListener(std::unique_ptr<ASTReaderListener> Listener) {
this->Listener = std::move(Listener);
}
/// Add an AST callback listener.
///
/// Takes ownership of \p L.
void addListener(std::unique_ptr<ASTReaderListener> L) {
if (Listener)
L = std::make_unique<ChainedASTReaderListener>(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<ASTReaderListener> L)
: Reader(Reader) {
auto Old = Reader.takeListener();
if (Old) {
Chained = true;
L = std::make_unique<ChainedASTReaderListener>(std::move(L),
std::move(Old));
}
Reader.setListener(std::move(L));
}
~ListenerScope() {
auto New = Reader.takeListener();
if (Chained)
Reader.setListener(static_cast<ChainedASTReaderListener *>(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<llvm::MemoryBuffer> 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<unsigned, unsigned>
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<bool> 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(const FileEntry *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<unsigned>(IdentifiersLoaded.size());
}
/// Returns the number of macros found in the chain.
unsigned getTotalNumMacros() const {
return static_cast<unsigned>(MacrosLoaded.size());
}
/// Returns the number of types found in the chain.
unsigned getTotalNumTypes() const {
return static_cast<unsigned>(TypesLoaded.size());
}
/// Returns the number of declarations found in the chain.
unsigned getTotalNumDecls() const {
return static_cast<unsigned>(DeclsLoaded.size());
}
/// Returns the number of submodules known.
unsigned getTotalNumSubmodules() const {
return static_cast<unsigned>(SubmodulesLoaded.size());
}
/// Returns the number of selectors found in the chain.
unsigned getTotalNumSelectors() const {
return static_cast<unsigned>(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<typename T>
T *GetLocalDeclAs(ModuleFile &F, uint32_t LocalID) {
return cast_or_null<T>(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<typename T>
T *ReadDeclAs(ModuleFile &F, const RecordData &R, unsigned &I) {
return cast_or_null<T>(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<bool(Decl::Kind)> IsKindWeWant,
SmallVectorImpl<Decl *> &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<Decl *> &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<NamespaceDecl *> &Namespaces) override;
void ReadUndefinedButUsed(
llvm::MapVector<NamedDecl *, SourceLocation> &Undefined) override;
void ReadMismatchingDeleteExpressions(llvm::MapVector<
FieldDecl *, llvm::SmallVector<std::pair<SourceLocation, bool>, 4>> &
Exprs) override;
void ReadTentativeDefinitions(
SmallVectorImpl<VarDecl *> &TentativeDefs) override;
void ReadUnusedFileScopedDecls(
SmallVectorImpl<const DeclaratorDecl *> &Decls) override;
void ReadDelegatingConstructors(
SmallVectorImpl<CXXConstructorDecl *> &Decls) override;
void ReadExtVectorDecls(SmallVectorImpl<TypedefNameDecl *> &Decls) override;
void ReadUnusedLocalTypedefNameCandidates(
llvm::SmallSetVector<const TypedefNameDecl *, 4> &Decls) override;
void ReadDeclsToCheckForDeferredDiags(
llvm::SmallSetVector<Decl *, 4> &Decls) override;
void ReadReferencedSelectors(
SmallVectorImpl<std::pair<Selector, SourceLocation>> &Sels) override;
void ReadWeakUndeclaredIdentifiers(
SmallVectorImpl<std::pair<IdentifierInfo *, WeakInfo>> &WI) override;
void ReadUsedVTables(SmallVectorImpl<ExternalVTableUse> &VTables) override;
void ReadPendingInstantiations(
SmallVectorImpl<std::pair<ValueDecl *,
SourceLocation>> &Pending) override;
void ReadLateParsedTemplates(
llvm::MapVector<const FunctionDecl *, std::unique_ptr<LateParsedTemplate>>
&LPTMap) 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<uint32_t> &DeclIDs,
SmallVectorImpl<Decl *> *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;
/// Retrieve the module import location and module name for the
/// given source manager entry ID.
std::pair<SourceLocation, StringRef> 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<ASTSourceDescriptor> 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 &F,
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 RecordData &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<uint64_t, 16> 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<std::pair<llvm::BitstreamCursor,
serialization::ModuleFile *>, 8> CommentsCursors;
/// Loads comments ranges.
void ReadComments() override;
/// Visit all the input files of the given module file.
void visitInputFiles(serialization::ModuleFile &MF,
bool IncludeSystem, bool Complain,
llvm::function_ref<void(const serialization::InputFile &IF,
bool isSystem)> Visitor);
/// Visit all the top-level module maps loaded when building the given module
/// file.
void visitTopLevelModuleMaps(serialization::ModuleFile &MF,
llvm::function_ref<void(FileEntryRef)> Visitor);
bool isProcessingUpdateRecords() { return ProcessingUpdateRecords; }
};
} // namespace clang
#endif // LLVM_CLANG_SERIALIZATION_ASTREADER_H
#ifdef __GNUC__
#pragma GCC diagnostic pop
#endif
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