//===--- ASTUnit.h - ASTUnit utility ----------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // ASTUnit utility class. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_FRONTEND_ASTUNIT_H #define LLVM_CLANG_FRONTEND_ASTUNIT_H #include "clang-c/Index.h" #include "clang/AST/ASTContext.h" #include "clang/Basic/FileSystemOptions.h" #include "clang/Basic/LangOptions.h" #include "clang/Basic/SourceManager.h" #include "clang/Basic/TargetOptions.h" #include "clang/Lex/HeaderSearchOptions.h" #include "clang/Lex/ModuleLoader.h" #include "clang/Lex/PreprocessingRecord.h" #include "clang/Sema/CodeCompleteConsumer.h" #include "clang/Serialization/ASTBitCodes.h" #include "llvm/ADT/IntrusiveRefCntPtr.h" #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/StringMap.h" #include "llvm/Support/MD5.h" #include #include #include #include #include #include namespace llvm { class MemoryBuffer; } namespace clang { class Sema; class ASTContext; class ASTReader; class CompilerInvocation; class CompilerInstance; class Decl; class DiagnosticsEngine; class FileEntry; class FileManager; class HeaderSearch; class MemoryBufferCache; class Preprocessor; class PCHContainerOperations; class PCHContainerReader; class TargetInfo; class FrontendAction; class ASTDeserializationListener; namespace vfs { class FileSystem; } /// \brief Utility class for loading a ASTContext from an AST file. /// class ASTUnit : public ModuleLoader { public: struct StandaloneFixIt { std::pair RemoveRange; std::pair InsertFromRange; std::string CodeToInsert; bool BeforePreviousInsertions; }; struct StandaloneDiagnostic { unsigned ID; DiagnosticsEngine::Level Level; std::string Message; std::string Filename; unsigned LocOffset; std::vector > Ranges; std::vector FixIts; }; private: std::shared_ptr LangOpts; IntrusiveRefCntPtr Diagnostics; IntrusiveRefCntPtr FileMgr; IntrusiveRefCntPtr SourceMgr; IntrusiveRefCntPtr PCMCache; std::unique_ptr HeaderInfo; IntrusiveRefCntPtr Target; std::shared_ptr PP; IntrusiveRefCntPtr Ctx; std::shared_ptr TargetOpts; std::shared_ptr HSOpts; IntrusiveRefCntPtr Reader; bool HadModuleLoaderFatalFailure; struct ASTWriterData; std::unique_ptr WriterData; FileSystemOptions FileSystemOpts; /// \brief The AST consumer that received information about the translation /// unit as it was parsed or loaded. std::unique_ptr Consumer; /// \brief The semantic analysis object used to type-check the translation /// unit. std::unique_ptr TheSema; /// Optional owned invocation, just used to make the invocation used in /// LoadFromCommandLine available. std::shared_ptr Invocation; // OnlyLocalDecls - when true, walking this AST should only visit declarations // that come from the AST itself, not from included precompiled headers. // FIXME: This is temporary; eventually, CIndex will always do this. bool OnlyLocalDecls; /// \brief Whether to capture any diagnostics produced. bool CaptureDiagnostics; /// \brief Track whether the main file was loaded from an AST or not. bool MainFileIsAST; /// \brief What kind of translation unit this AST represents. TranslationUnitKind TUKind; /// \brief Whether we should time each operation. bool WantTiming; /// \brief Whether the ASTUnit should delete the remapped buffers. bool OwnsRemappedFileBuffers; /// Track the top-level decls which appeared in an ASTUnit which was loaded /// from a source file. // // FIXME: This is just an optimization hack to avoid deserializing large parts // of a PCH file when using the Index library on an ASTUnit loaded from // source. In the long term we should make the Index library use efficient and // more scalable search mechanisms. std::vector TopLevelDecls; /// \brief Sorted (by file offset) vector of pairs of file offset/Decl. typedef SmallVector, 64> LocDeclsTy; typedef llvm::DenseMap FileDeclsTy; /// \brief Map from FileID to the file-level declarations that it contains. /// The files and decls are only local (and non-preamble) ones. FileDeclsTy FileDecls; /// The name of the original source file used to generate this ASTUnit. std::string OriginalSourceFile; /// \brief The set of diagnostics produced when creating the preamble. SmallVector PreambleDiagnostics; /// \brief The set of diagnostics produced when creating this /// translation unit. SmallVector StoredDiagnostics; /// \brief The set of diagnostics produced when failing to parse, e.g. due /// to failure to load the PCH. SmallVector FailedParseDiagnostics; /// \brief The number of stored diagnostics that come from the driver /// itself. /// /// Diagnostics that come from the driver are retained from one parse to /// the next. unsigned NumStoredDiagnosticsFromDriver; /// \brief Counter that determines when we want to try building a /// precompiled preamble. /// /// If zero, we will never build a precompiled preamble. Otherwise, /// it's treated as a counter that decrements each time we reparse /// without the benefit of a precompiled preamble. When it hits 1, /// we'll attempt to rebuild the precompiled header. This way, if /// building the precompiled preamble fails, we won't try again for /// some number of calls. unsigned PreambleRebuildCounter; public: class PreambleData { const FileEntry *File; std::vector Buffer; mutable unsigned NumLines; public: PreambleData() : File(nullptr), NumLines(0) { } void assign(const FileEntry *F, const char *begin, const char *end) { File = F; Buffer.assign(begin, end); NumLines = 0; } void clear() { Buffer.clear(); File = nullptr; NumLines = 0; } size_t size() const { return Buffer.size(); } bool empty() const { return Buffer.empty(); } const char *getBufferStart() const { return &Buffer[0]; } unsigned getNumLines() const { if (NumLines) return NumLines; countLines(); return NumLines; } SourceRange getSourceRange(const SourceManager &SM) const { SourceLocation FileLoc = SM.getLocForStartOfFile(SM.getPreambleFileID()); return SourceRange(FileLoc, FileLoc.getLocWithOffset(size()-1)); } private: void countLines() const; }; const PreambleData &getPreambleData() const { return Preamble; } /// Data used to determine if a file used in the preamble has been changed. struct PreambleFileHash { /// All files have size set. off_t Size; /// Modification time is set for files that are on disk. For memory /// buffers it is zero. time_t ModTime; /// Memory buffers have MD5 instead of modification time. We don't /// compute MD5 for on-disk files because we hope that modification time is /// enough to tell if the file was changed. llvm::MD5::MD5Result MD5; static PreambleFileHash createForFile(off_t Size, time_t ModTime); static PreambleFileHash createForMemoryBuffer(const llvm::MemoryBuffer *Buffer); friend bool operator==(const PreambleFileHash &LHS, const PreambleFileHash &RHS); friend bool operator!=(const PreambleFileHash &LHS, const PreambleFileHash &RHS) { return !(LHS == RHS); } }; private: /// \brief The contents of the preamble that has been precompiled to /// \c PreambleFile. PreambleData Preamble; /// \brief Whether the preamble ends at the start of a new line. /// /// Used to inform the lexer as to whether it's starting at the beginning of /// a line after skipping the preamble. bool PreambleEndsAtStartOfLine; /// \brief Keeps track of the files that were used when computing the /// preamble, with both their buffer size and their modification time. /// /// If any of the files have changed from one compile to the next, /// the preamble must be thrown away. llvm::StringMap FilesInPreamble; /// \brief When non-NULL, this is the buffer used to store the contents of /// the main file when it has been padded for use with the precompiled /// preamble. std::unique_ptr SavedMainFileBuffer; /// \brief When non-NULL, this is the buffer used to store the /// contents of the preamble when it has been padded to build the /// precompiled preamble. std::unique_ptr PreambleBuffer; /// \brief The number of warnings that occurred while parsing the preamble. /// /// This value will be used to restore the state of the \c DiagnosticsEngine /// object when re-using the precompiled preamble. Note that only the /// number of warnings matters, since we will not save the preamble /// when any errors are present. unsigned NumWarningsInPreamble; /// \brief A list of the serialization ID numbers for each of the top-level /// declarations parsed within the precompiled preamble. std::vector TopLevelDeclsInPreamble; /// \brief Whether we should be caching code-completion results. bool ShouldCacheCodeCompletionResults : 1; /// \brief Whether to include brief documentation within the set of code /// completions cached. bool IncludeBriefCommentsInCodeCompletion : 1; /// \brief True if non-system source files should be treated as volatile /// (likely to change while trying to use them). bool UserFilesAreVolatile : 1; /// \brief The language options used when we load an AST file. LangOptions ASTFileLangOpts; static void ConfigureDiags(IntrusiveRefCntPtr Diags, ASTUnit &AST, bool CaptureDiagnostics); void TranslateStoredDiagnostics(FileManager &FileMgr, SourceManager &SrcMan, const SmallVectorImpl &Diags, SmallVectorImpl &Out); void clearFileLevelDecls(); public: /// \brief A cached code-completion result, which may be introduced in one of /// many different contexts. struct CachedCodeCompletionResult { /// \brief The code-completion string corresponding to this completion /// result. CodeCompletionString *Completion; /// \brief A bitmask that indicates which code-completion contexts should /// contain this completion result. /// /// The bits in the bitmask correspond to the values of /// CodeCompleteContext::Kind. To map from a completion context kind to a /// bit, shift 1 by that number of bits. Many completions can occur in /// several different contexts. uint64_t ShowInContexts; /// \brief The priority given to this code-completion result. unsigned Priority; /// \brief The libclang cursor kind corresponding to this code-completion /// result. CXCursorKind Kind; /// \brief The availability of this code-completion result. CXAvailabilityKind Availability; /// \brief The simplified type class for a non-macro completion result. SimplifiedTypeClass TypeClass; /// \brief The type of a non-macro completion result, stored as a unique /// integer used by the string map of cached completion types. /// /// This value will be zero if the type is not known, or a unique value /// determined by the formatted type string. Se \c CachedCompletionTypes /// for more information. unsigned Type; }; /// \brief Retrieve the mapping from formatted type names to unique type /// identifiers. llvm::StringMap &getCachedCompletionTypes() { return CachedCompletionTypes; } /// \brief Retrieve the allocator used to cache global code completions. std::shared_ptr getCachedCompletionAllocator() { return CachedCompletionAllocator; } CodeCompletionTUInfo &getCodeCompletionTUInfo() { if (!CCTUInfo) CCTUInfo = llvm::make_unique( std::make_shared()); return *CCTUInfo; } private: /// \brief Allocator used to store cached code completions. std::shared_ptr CachedCompletionAllocator; std::unique_ptr CCTUInfo; /// \brief The set of cached code-completion results. std::vector CachedCompletionResults; /// \brief A mapping from the formatted type name to a unique number for that /// type, which is used for type equality comparisons. llvm::StringMap CachedCompletionTypes; /// \brief A string hash of the top-level declaration and macro definition /// names processed the last time that we reparsed the file. /// /// This hash value is used to determine when we need to refresh the /// global code-completion cache. unsigned CompletionCacheTopLevelHashValue; /// \brief A string hash of the top-level declaration and macro definition /// names processed the last time that we reparsed the precompiled preamble. /// /// This hash value is used to determine when we need to refresh the /// global code-completion cache after a rebuild of the precompiled preamble. unsigned PreambleTopLevelHashValue; /// \brief The current hash value for the top-level declaration and macro /// definition names unsigned CurrentTopLevelHashValue; /// \brief Bit used by CIndex to mark when a translation unit may be in an /// inconsistent state, and is not safe to free. unsigned UnsafeToFree : 1; /// \brief Cache any "global" code-completion results, so that we can avoid /// recomputing them with each completion. void CacheCodeCompletionResults(); /// \brief Clear out and deallocate void ClearCachedCompletionResults(); ASTUnit(const ASTUnit &) = delete; void operator=(const ASTUnit &) = delete; explicit ASTUnit(bool MainFileIsAST); bool Parse(std::shared_ptr PCHContainerOps, std::unique_ptr OverrideMainBuffer, IntrusiveRefCntPtr VFS); struct ComputedPreamble { llvm::MemoryBuffer *Buffer; std::unique_ptr Owner; unsigned Size; bool PreambleEndsAtStartOfLine; ComputedPreamble(llvm::MemoryBuffer *Buffer, std::unique_ptr Owner, unsigned Size, bool PreambleEndsAtStartOfLine) : Buffer(Buffer), Owner(std::move(Owner)), Size(Size), PreambleEndsAtStartOfLine(PreambleEndsAtStartOfLine) {} }; ComputedPreamble ComputePreamble(CompilerInvocation &Invocation, unsigned MaxLines, IntrusiveRefCntPtr VFS); std::unique_ptr getMainBufferWithPrecompiledPreamble( std::shared_ptr PCHContainerOps, const CompilerInvocation &PreambleInvocationIn, IntrusiveRefCntPtr VFS, bool AllowRebuild = true, unsigned MaxLines = 0); void RealizeTopLevelDeclsFromPreamble(); /// \brief Transfers ownership of the objects (like SourceManager) from /// \param CI to this ASTUnit. void transferASTDataFromCompilerInstance(CompilerInstance &CI); /// \brief Allows us to assert that ASTUnit is not being used concurrently, /// which is not supported. /// /// Clients should create instances of the ConcurrencyCheck class whenever /// using the ASTUnit in a way that isn't intended to be concurrent, which is /// just about any usage. /// Becomes a noop in release mode; only useful for debug mode checking. class ConcurrencyState { void *Mutex; // a llvm::sys::MutexImpl in debug; public: ConcurrencyState(); ~ConcurrencyState(); void start(); void finish(); }; ConcurrencyState ConcurrencyCheckValue; public: class ConcurrencyCheck { ASTUnit &Self; public: explicit ConcurrencyCheck(ASTUnit &Self) : Self(Self) { Self.ConcurrencyCheckValue.start(); } ~ConcurrencyCheck() { Self.ConcurrencyCheckValue.finish(); } }; friend class ConcurrencyCheck; ~ASTUnit() override; bool isMainFileAST() const { return MainFileIsAST; } bool isUnsafeToFree() const { return UnsafeToFree; } void setUnsafeToFree(bool Value) { UnsafeToFree = Value; } const DiagnosticsEngine &getDiagnostics() const { return *Diagnostics; } DiagnosticsEngine &getDiagnostics() { return *Diagnostics; } const SourceManager &getSourceManager() const { return *SourceMgr; } SourceManager &getSourceManager() { return *SourceMgr; } const Preprocessor &getPreprocessor() const { return *PP; } Preprocessor &getPreprocessor() { return *PP; } std::shared_ptr getPreprocessorPtr() const { return PP; } const ASTContext &getASTContext() const { return *Ctx; } ASTContext &getASTContext() { return *Ctx; } void setASTContext(ASTContext *ctx) { Ctx = ctx; } void setPreprocessor(std::shared_ptr pp); bool hasSema() const { return (bool)TheSema; } Sema &getSema() const { assert(TheSema && "ASTUnit does not have a Sema object!"); return *TheSema; } const LangOptions &getLangOpts() const { assert(LangOpts && " ASTUnit does not have language options"); return *LangOpts; } const FileManager &getFileManager() const { return *FileMgr; } FileManager &getFileManager() { return *FileMgr; } const FileSystemOptions &getFileSystemOpts() const { return FileSystemOpts; } IntrusiveRefCntPtr getASTReader() const; StringRef getOriginalSourceFileName() { return OriginalSourceFile; } ASTMutationListener *getASTMutationListener(); ASTDeserializationListener *getDeserializationListener(); bool getOnlyLocalDecls() const { return OnlyLocalDecls; } bool getOwnsRemappedFileBuffers() const { return OwnsRemappedFileBuffers; } void setOwnsRemappedFileBuffers(bool val) { OwnsRemappedFileBuffers = val; } StringRef getMainFileName() const; /// \brief If this ASTUnit came from an AST file, returns the filename for it. StringRef getASTFileName() const; typedef std::vector::iterator top_level_iterator; top_level_iterator top_level_begin() { assert(!isMainFileAST() && "Invalid call for AST based ASTUnit!"); if (!TopLevelDeclsInPreamble.empty()) RealizeTopLevelDeclsFromPreamble(); return TopLevelDecls.begin(); } top_level_iterator top_level_end() { assert(!isMainFileAST() && "Invalid call for AST based ASTUnit!"); if (!TopLevelDeclsInPreamble.empty()) RealizeTopLevelDeclsFromPreamble(); return TopLevelDecls.end(); } std::size_t top_level_size() const { assert(!isMainFileAST() && "Invalid call for AST based ASTUnit!"); return TopLevelDeclsInPreamble.size() + TopLevelDecls.size(); } bool top_level_empty() const { assert(!isMainFileAST() && "Invalid call for AST based ASTUnit!"); return TopLevelDeclsInPreamble.empty() && TopLevelDecls.empty(); } /// \brief Add a new top-level declaration. void addTopLevelDecl(Decl *D) { TopLevelDecls.push_back(D); } /// \brief Add a new local file-level declaration. void addFileLevelDecl(Decl *D); /// \brief 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); /// \brief Add a new top-level declaration, identified by its ID in /// the precompiled preamble. void addTopLevelDeclFromPreamble(serialization::DeclID D) { TopLevelDeclsInPreamble.push_back(D); } /// \brief Retrieve a reference to the current top-level name hash value. /// /// Note: This is used internally by the top-level tracking action unsigned &getCurrentTopLevelHashValue() { return CurrentTopLevelHashValue; } /// \brief Get the source location for the given file:line:col triplet. /// /// The difference with SourceManager::getLocation is that this method checks /// whether the requested location points inside the precompiled preamble /// in which case the returned source location will be a "loaded" one. SourceLocation getLocation(const FileEntry *File, unsigned Line, unsigned Col) const; /// \brief Get the source location for the given file:offset pair. SourceLocation getLocation(const FileEntry *File, unsigned Offset) const; /// \brief If \p Loc is a loaded location from the preamble, returns /// the corresponding local location of the main file, otherwise it returns /// \p Loc. SourceLocation mapLocationFromPreamble(SourceLocation Loc); /// \brief If \p Loc is a local location of the main file but inside the /// preamble chunk, returns the corresponding loaded location from the /// preamble, otherwise it returns \p Loc. SourceLocation mapLocationToPreamble(SourceLocation Loc); bool isInPreambleFileID(SourceLocation Loc); bool isInMainFileID(SourceLocation Loc); SourceLocation getStartOfMainFileID(); SourceLocation getEndOfPreambleFileID(); /// \see mapLocationFromPreamble. SourceRange mapRangeFromPreamble(SourceRange R) { return SourceRange(mapLocationFromPreamble(R.getBegin()), mapLocationFromPreamble(R.getEnd())); } /// \see mapLocationToPreamble. SourceRange mapRangeToPreamble(SourceRange R) { return SourceRange(mapLocationToPreamble(R.getBegin()), mapLocationToPreamble(R.getEnd())); } // Retrieve the diagnostics associated with this AST typedef StoredDiagnostic *stored_diag_iterator; typedef const StoredDiagnostic *stored_diag_const_iterator; stored_diag_const_iterator stored_diag_begin() const { return StoredDiagnostics.begin(); } stored_diag_iterator stored_diag_begin() { return StoredDiagnostics.begin(); } stored_diag_const_iterator stored_diag_end() const { return StoredDiagnostics.end(); } stored_diag_iterator stored_diag_end() { return StoredDiagnostics.end(); } unsigned stored_diag_size() const { return StoredDiagnostics.size(); } stored_diag_iterator stored_diag_afterDriver_begin() { if (NumStoredDiagnosticsFromDriver > StoredDiagnostics.size()) NumStoredDiagnosticsFromDriver = 0; return StoredDiagnostics.begin() + NumStoredDiagnosticsFromDriver; } typedef std::vector::iterator cached_completion_iterator; cached_completion_iterator cached_completion_begin() { return CachedCompletionResults.begin(); } cached_completion_iterator cached_completion_end() { return CachedCompletionResults.end(); } unsigned cached_completion_size() const { return CachedCompletionResults.size(); } /// \brief Returns an iterator range for the local preprocessing entities /// of the local Preprocessor, if this is a parsed source file, or the loaded /// preprocessing entities of the primary module if this is an AST file. llvm::iterator_range getLocalPreprocessingEntities() const; /// \brief Type for a function iterating over a number of declarations. /// \returns true to continue iteration and false to abort. typedef bool (*DeclVisitorFn)(void *context, const Decl *D); /// \brief Iterate over local declarations (locally parsed if this is a parsed /// source file or the loaded declarations of the primary module if this is an /// AST file). /// \returns true if the iteration was complete or false if it was aborted. bool visitLocalTopLevelDecls(void *context, DeclVisitorFn Fn); /// \brief Get the PCH file if one was included. const FileEntry *getPCHFile(); /// \brief Returns true if the ASTUnit was constructed from a serialized /// module file. bool isModuleFile(); std::unique_ptr getBufferForFile(StringRef Filename, std::string *ErrorStr = nullptr); /// \brief Determine what kind of translation unit this AST represents. TranslationUnitKind getTranslationUnitKind() const { return TUKind; } /// \brief A mapping from a file name to the memory buffer that stores the /// remapped contents of that file. typedef std::pair RemappedFile; /// \brief Create a ASTUnit. Gets ownership of the passed CompilerInvocation. static std::unique_ptr create(std::shared_ptr CI, IntrusiveRefCntPtr Diags, bool CaptureDiagnostics, bool UserFilesAreVolatile); /// \brief Create a ASTUnit from an AST file. /// /// \param Filename - The AST file to load. /// /// \param PCHContainerRdr - The PCHContainerOperations to use for loading and /// creating modules. /// \param Diags - The diagnostics engine to use for reporting errors; its /// lifetime is expected to extend past that of the returned ASTUnit. /// /// \returns - The initialized ASTUnit or null if the AST failed to load. static std::unique_ptr LoadFromASTFile( const std::string &Filename, const PCHContainerReader &PCHContainerRdr, IntrusiveRefCntPtr Diags, const FileSystemOptions &FileSystemOpts, bool UseDebugInfo = false, bool OnlyLocalDecls = false, ArrayRef RemappedFiles = None, bool CaptureDiagnostics = false, bool AllowPCHWithCompilerErrors = false, bool UserFilesAreVolatile = false); private: /// \brief Helper function for \c LoadFromCompilerInvocation() and /// \c LoadFromCommandLine(), which loads an AST from a compiler invocation. /// /// \param PrecompilePreambleAfterNParses After how many parses the preamble /// of this translation unit should be precompiled, to improve the performance /// of reparsing. Set to zero to disable preambles. /// /// \param VFS - A vfs::FileSystem to be used for all file accesses. Note that /// preamble is saved to a temporary directory on a RealFileSystem, so in order /// for it to be loaded correctly, VFS should have access to it(i.e., be an /// overlay over RealFileSystem). /// /// \returns \c true if a catastrophic failure occurred (which means that the /// \c ASTUnit itself is invalid), or \c false otherwise. bool LoadFromCompilerInvocation( std::shared_ptr PCHContainerOps, unsigned PrecompilePreambleAfterNParses, IntrusiveRefCntPtr VFS); public: /// \brief Create an ASTUnit from a source file, via a CompilerInvocation /// object, by invoking the optionally provided ASTFrontendAction. /// /// \param CI - The compiler invocation to use; it must have exactly one input /// source file. The ASTUnit takes ownership of the CompilerInvocation object. /// /// \param PCHContainerOps - The PCHContainerOperations to use for loading and /// creating modules. /// /// \param Diags - The diagnostics engine to use for reporting errors; its /// lifetime is expected to extend past that of the returned ASTUnit. /// /// \param Action - The ASTFrontendAction to invoke. Its ownership is not /// transferred. /// /// \param Unit - optionally an already created ASTUnit. Its ownership is not /// transferred. /// /// \param Persistent - if true the returned ASTUnit will be complete. /// false means the caller is only interested in getting info through the /// provided \see Action. /// /// \param ErrAST - If non-null and parsing failed without any AST to return /// (e.g. because the PCH could not be loaded), this accepts the ASTUnit /// mainly to allow the caller to see the diagnostics. /// This will only receive an ASTUnit if a new one was created. If an already /// created ASTUnit was passed in \p Unit then the caller can check that. /// static ASTUnit *LoadFromCompilerInvocationAction( std::shared_ptr CI, std::shared_ptr PCHContainerOps, IntrusiveRefCntPtr Diags, FrontendAction *Action = nullptr, ASTUnit *Unit = nullptr, bool Persistent = true, StringRef ResourceFilesPath = StringRef(), bool OnlyLocalDecls = false, bool CaptureDiagnostics = false, unsigned PrecompilePreambleAfterNParses = 0, bool CacheCodeCompletionResults = false, bool IncludeBriefCommentsInCodeCompletion = false, bool UserFilesAreVolatile = false, std::unique_ptr *ErrAST = nullptr); /// LoadFromCompilerInvocation - Create an ASTUnit from a source file, via a /// CompilerInvocation object. /// /// \param CI - The compiler invocation to use; it must have exactly one input /// source file. The ASTUnit takes ownership of the CompilerInvocation object. /// /// \param PCHContainerOps - The PCHContainerOperations to use for loading and /// creating modules. /// /// \param Diags - The diagnostics engine to use for reporting errors; its /// lifetime is expected to extend past that of the returned ASTUnit. // // FIXME: Move OnlyLocalDecls, UseBumpAllocator to setters on the ASTUnit, we // shouldn't need to specify them at construction time. static std::unique_ptr LoadFromCompilerInvocation( std::shared_ptr CI, std::shared_ptr PCHContainerOps, IntrusiveRefCntPtr Diags, FileManager *FileMgr, bool OnlyLocalDecls = false, bool CaptureDiagnostics = false, unsigned PrecompilePreambleAfterNParses = 0, TranslationUnitKind TUKind = TU_Complete, bool CacheCodeCompletionResults = false, bool IncludeBriefCommentsInCodeCompletion = false, bool UserFilesAreVolatile = false); /// LoadFromCommandLine - Create an ASTUnit from a vector of command line /// arguments, which must specify exactly one source file. /// /// \param ArgBegin - The beginning of the argument vector. /// /// \param ArgEnd - The end of the argument vector. /// /// \param PCHContainerOps - The PCHContainerOperations to use for loading and /// creating modules. /// /// \param Diags - The diagnostics engine to use for reporting errors; its /// lifetime is expected to extend past that of the returned ASTUnit. /// /// \param ResourceFilesPath - The path to the compiler resource files. /// /// \param ModuleFormat - If provided, uses the specific module format. /// /// \param ErrAST - If non-null and parsing failed without any AST to return /// (e.g. because the PCH could not be loaded), this accepts the ASTUnit /// mainly to allow the caller to see the diagnostics. /// /// \param VFS - A vfs::FileSystem to be used for all file accesses. Note that /// preamble is saved to a temporary directory on a RealFileSystem, so in order /// for it to be loaded correctly, VFS should have access to it(i.e., be an /// overlay over RealFileSystem). RealFileSystem will be used if \p VFS is nullptr. /// // FIXME: Move OnlyLocalDecls, UseBumpAllocator to setters on the ASTUnit, we // shouldn't need to specify them at construction time. static ASTUnit *LoadFromCommandLine( const char **ArgBegin, const char **ArgEnd, std::shared_ptr PCHContainerOps, IntrusiveRefCntPtr Diags, StringRef ResourceFilesPath, bool OnlyLocalDecls = false, bool CaptureDiagnostics = false, ArrayRef RemappedFiles = None, bool RemappedFilesKeepOriginalName = true, unsigned PrecompilePreambleAfterNParses = 0, TranslationUnitKind TUKind = TU_Complete, bool CacheCodeCompletionResults = false, bool IncludeBriefCommentsInCodeCompletion = false, bool AllowPCHWithCompilerErrors = false, bool SkipFunctionBodies = false, bool UserFilesAreVolatile = false, bool ForSerialization = false, llvm::Optional ModuleFormat = llvm::None, std::unique_ptr *ErrAST = nullptr, IntrusiveRefCntPtr VFS = nullptr); /// \brief Reparse the source files using the same command-line options that /// were originally used to produce this translation unit. /// /// \param VFS - A vfs::FileSystem to be used for all file accesses. Note that /// preamble is saved to a temporary directory on a RealFileSystem, so in order /// for it to be loaded correctly, VFS should give an access to this(i.e. be an /// overlay over RealFileSystem). FileMgr->getVirtualFileSystem() will be used if /// \p VFS is nullptr. /// /// \returns True if a failure occurred that causes the ASTUnit not to /// contain any translation-unit information, false otherwise. bool Reparse(std::shared_ptr PCHContainerOps, ArrayRef RemappedFiles = None, IntrusiveRefCntPtr VFS = nullptr); /// \brief Free data that will be re-generated on the next parse. /// /// Preamble-related data is not affected. void ResetForParse(); /// \brief Perform code completion at the given file, line, and /// column within this translation unit. /// /// \param File The file in which code completion will occur. /// /// \param Line The line at which code completion will occur. /// /// \param Column The column at which code completion will occur. /// /// \param IncludeMacros Whether to include macros in the code-completion /// results. /// /// \param IncludeCodePatterns Whether to include code patterns (such as a /// for loop) in the code-completion results. /// /// \param IncludeBriefComments Whether to include brief documentation within /// the set of code completions returned. /// /// FIXME: The Diag, LangOpts, SourceMgr, FileMgr, StoredDiagnostics, and /// OwnedBuffers parameters are all disgusting hacks. They will go away. void CodeComplete(StringRef File, unsigned Line, unsigned Column, ArrayRef RemappedFiles, bool IncludeMacros, bool IncludeCodePatterns, bool IncludeBriefComments, CodeCompleteConsumer &Consumer, std::shared_ptr PCHContainerOps, DiagnosticsEngine &Diag, LangOptions &LangOpts, SourceManager &SourceMgr, FileManager &FileMgr, SmallVectorImpl &StoredDiagnostics, SmallVectorImpl &OwnedBuffers); /// \brief Save this translation unit to a file with the given name. /// /// \returns true if there was a file error or false if the save was /// successful. bool Save(StringRef File); /// \brief Serialize this translation unit with the given output stream. /// /// \returns True if an error occurred, false otherwise. bool serialize(raw_ostream &OS); ModuleLoadResult loadModule(SourceLocation ImportLoc, ModuleIdPath Path, Module::NameVisibilityKind Visibility, bool IsInclusionDirective) override { // ASTUnit doesn't know how to load modules (not that this matters). return ModuleLoadResult(); } void makeModuleVisible(Module *Mod, Module::NameVisibilityKind Visibility, SourceLocation ImportLoc) override {} GlobalModuleIndex *loadGlobalModuleIndex(SourceLocation TriggerLoc) override { return nullptr; } bool lookupMissingImports(StringRef Name, SourceLocation TriggerLoc) override { return 0; } }; } // namespace clang #endif