//===-- CompilerInstance.h - Clang Compiler Instance ------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_FRONTEND_COMPILERINSTANCE_H_ #define LLVM_CLANG_FRONTEND_COMPILERINSTANCE_H_ #include "clang/Frontend/CompilerInvocation.h" #include "llvm/ADT/IntrusiveRefCntPtr.h" #include "llvm/ADT/StringRef.h" #include "llvm/ADT/OwningPtr.h" #include #include #include namespace llvm { class raw_ostream; class raw_fd_ostream; class Timer; } namespace clang { class ASTContext; class ASTConsumer; class CodeCompleteConsumer; class Diagnostic; class DiagnosticClient; class ExternalASTSource; class FileManager; class FrontendAction; class ASTReader; class Preprocessor; class Sema; class SourceManager; class TargetInfo; /// CompilerInstance - Helper class for managing a single instance of the Clang /// compiler. /// /// The CompilerInstance serves two purposes: /// (1) It manages the various objects which are necessary to run the compiler, /// for example the preprocessor, the target information, and the AST /// context. /// (2) It provides utility routines for constructing and manipulating the /// common Clang objects. /// /// The compiler instance generally owns the instance of all the objects that it /// manages. However, clients can still share objects by manually setting the /// object and retaking ownership prior to destroying the CompilerInstance. /// /// The compiler instance is intended to simplify clients, but not to lock them /// in to the compiler instance for everything. When possible, utility functions /// come in two forms; a short form that reuses the CompilerInstance objects, /// and a long form that takes explicit instances of any required objects. class CompilerInstance { /// The options used in this compiler instance. llvm::IntrusiveRefCntPtr Invocation; /// The diagnostics engine instance. llvm::IntrusiveRefCntPtr Diagnostics; /// The target being compiled for. llvm::IntrusiveRefCntPtr Target; /// The file manager. llvm::IntrusiveRefCntPtr FileMgr; /// The source manager. llvm::IntrusiveRefCntPtr SourceMgr; /// The preprocessor. llvm::IntrusiveRefCntPtr PP; /// The AST context. llvm::IntrusiveRefCntPtr Context; /// The AST consumer. llvm::OwningPtr Consumer; /// The code completion consumer. llvm::OwningPtr CompletionConsumer; /// \brief The semantic analysis object. llvm::OwningPtr TheSema; /// The frontend timer llvm::OwningPtr FrontendTimer; /// \brief Holds information about the output file. /// /// If TempFilename is not empty we must rename it to Filename at the end. /// TempFilename may be empty and Filename non empty if creating the temporary /// failed. struct OutputFile { std::string Filename; std::string TempFilename; llvm::raw_ostream *OS; OutputFile(const std::string &filename, const std::string &tempFilename, llvm::raw_ostream *os) : Filename(filename), TempFilename(tempFilename), OS(os) { } }; /// The list of active output files. std::list OutputFiles; void operator=(const CompilerInstance &); // DO NOT IMPLEMENT CompilerInstance(const CompilerInstance&); // DO NOT IMPLEMENT public: CompilerInstance(); ~CompilerInstance(); /// @name High-Level Operations /// { /// ExecuteAction - Execute the provided action against the compiler's /// CompilerInvocation object. /// /// This function makes the following assumptions: /// /// - The invocation options should be initialized. This function does not /// handle the '-help' or '-version' options, clients should handle those /// directly. /// /// - The diagnostics engine should have already been created by the client. /// /// - No other CompilerInstance state should have been initialized (this is /// an unchecked error). /// /// - Clients should have initialized any LLVM target features that may be /// required. /// /// - Clients should eventually call llvm_shutdown() upon the completion of /// this routine to ensure that any managed objects are properly destroyed. /// /// Note that this routine may write output to 'stderr'. /// /// \param Act - The action to execute. /// \return - True on success. // // FIXME: This function should take the stream to write any debugging / // verbose output to as an argument. // // FIXME: Eliminate the llvm_shutdown requirement, that should either be part // of the context or else not CompilerInstance specific. bool ExecuteAction(FrontendAction &Act); /// } /// @name Compiler Invocation and Options /// { bool hasInvocation() const { return Invocation != 0; } CompilerInvocation &getInvocation() { assert(Invocation && "Compiler instance has no invocation!"); return *Invocation; } /// setInvocation - Replace the current invocation. void setInvocation(CompilerInvocation *Value); /// } /// @name Forwarding Methods /// { AnalyzerOptions &getAnalyzerOpts() { return Invocation->getAnalyzerOpts(); } const AnalyzerOptions &getAnalyzerOpts() const { return Invocation->getAnalyzerOpts(); } CodeGenOptions &getCodeGenOpts() { return Invocation->getCodeGenOpts(); } const CodeGenOptions &getCodeGenOpts() const { return Invocation->getCodeGenOpts(); } DependencyOutputOptions &getDependencyOutputOpts() { return Invocation->getDependencyOutputOpts(); } const DependencyOutputOptions &getDependencyOutputOpts() const { return Invocation->getDependencyOutputOpts(); } DiagnosticOptions &getDiagnosticOpts() { return Invocation->getDiagnosticOpts(); } const DiagnosticOptions &getDiagnosticOpts() const { return Invocation->getDiagnosticOpts(); } const FileSystemOptions &getFileSystemOpts() const { return Invocation->getFileSystemOpts(); } FrontendOptions &getFrontendOpts() { return Invocation->getFrontendOpts(); } const FrontendOptions &getFrontendOpts() const { return Invocation->getFrontendOpts(); } HeaderSearchOptions &getHeaderSearchOpts() { return Invocation->getHeaderSearchOpts(); } const HeaderSearchOptions &getHeaderSearchOpts() const { return Invocation->getHeaderSearchOpts(); } LangOptions &getLangOpts() { return Invocation->getLangOpts(); } const LangOptions &getLangOpts() const { return Invocation->getLangOpts(); } PreprocessorOptions &getPreprocessorOpts() { return Invocation->getPreprocessorOpts(); } const PreprocessorOptions &getPreprocessorOpts() const { return Invocation->getPreprocessorOpts(); } PreprocessorOutputOptions &getPreprocessorOutputOpts() { return Invocation->getPreprocessorOutputOpts(); } const PreprocessorOutputOptions &getPreprocessorOutputOpts() const { return Invocation->getPreprocessorOutputOpts(); } TargetOptions &getTargetOpts() { return Invocation->getTargetOpts(); } const TargetOptions &getTargetOpts() const { return Invocation->getTargetOpts(); } /// } /// @name Diagnostics Engine /// { bool hasDiagnostics() const { return Diagnostics != 0; } /// Get the current diagnostics engine. Diagnostic &getDiagnostics() const { assert(Diagnostics && "Compiler instance has no diagnostics!"); return *Diagnostics; } /// setDiagnostics - Replace the current diagnostics engine. void setDiagnostics(Diagnostic *Value); DiagnosticClient &getDiagnosticClient() const { assert(Diagnostics && Diagnostics->getClient() && "Compiler instance has no diagnostic client!"); return *Diagnostics->getClient(); } /// } /// @name Target Info /// { bool hasTarget() const { return Target != 0; } TargetInfo &getTarget() const { assert(Target && "Compiler instance has no target!"); return *Target; } /// Replace the current diagnostics engine. void setTarget(TargetInfo *Value); /// } /// @name File Manager /// { bool hasFileManager() const { return FileMgr != 0; } /// Return the current file manager to the caller. FileManager &getFileManager() const { assert(FileMgr && "Compiler instance has no file manager!"); return *FileMgr; } void resetAndLeakFileManager() { FileMgr.resetWithoutRelease(); } /// setFileManager - Replace the current file manager. void setFileManager(FileManager *Value); /// } /// @name Source Manager /// { bool hasSourceManager() const { return SourceMgr != 0; } /// Return the current source manager. SourceManager &getSourceManager() const { assert(SourceMgr && "Compiler instance has no source manager!"); return *SourceMgr; } void resetAndLeakSourceManager() { SourceMgr.resetWithoutRelease(); } /// setSourceManager - Replace the current source manager. void setSourceManager(SourceManager *Value); /// } /// @name Preprocessor /// { bool hasPreprocessor() const { return PP != 0; } /// Return the current preprocessor. Preprocessor &getPreprocessor() const { assert(PP && "Compiler instance has no preprocessor!"); return *PP; } void resetAndLeakPreprocessor() { PP.resetWithoutRelease(); } /// Replace the current preprocessor. void setPreprocessor(Preprocessor *Value); /// } /// @name ASTContext /// { bool hasASTContext() const { return Context != 0; } ASTContext &getASTContext() const { assert(Context && "Compiler instance has no AST context!"); return *Context; } void resetAndLeakASTContext() { Context.resetWithoutRelease(); } /// setASTContext - Replace the current AST context. void setASTContext(ASTContext *Value); /// \brief Replace the current Sema; the compiler instance takes ownership /// of S. void setSema(Sema *S); /// } /// @name ASTConsumer /// { bool hasASTConsumer() const { return Consumer != 0; } ASTConsumer &getASTConsumer() const { assert(Consumer && "Compiler instance has no AST consumer!"); return *Consumer; } /// takeASTConsumer - Remove the current AST consumer and give ownership to /// the caller. ASTConsumer *takeASTConsumer() { return Consumer.take(); } /// setASTConsumer - Replace the current AST consumer; the compiler instance /// takes ownership of \arg Value. void setASTConsumer(ASTConsumer *Value); /// } /// @name Semantic analysis /// { bool hasSema() const { return TheSema != 0; } Sema &getSema() const { assert(TheSema && "Compiler instance has no Sema object!"); return *TheSema; } Sema *takeSema() { return TheSema.take(); } /// } /// @name Code Completion /// { bool hasCodeCompletionConsumer() const { return CompletionConsumer != 0; } CodeCompleteConsumer &getCodeCompletionConsumer() const { assert(CompletionConsumer && "Compiler instance has no code completion consumer!"); return *CompletionConsumer; } /// takeCodeCompletionConsumer - Remove the current code completion consumer /// and give ownership to the caller. CodeCompleteConsumer *takeCodeCompletionConsumer() { return CompletionConsumer.take(); } /// setCodeCompletionConsumer - Replace the current code completion consumer; /// the compiler instance takes ownership of \arg Value. void setCodeCompletionConsumer(CodeCompleteConsumer *Value); /// } /// @name Frontend timer /// { bool hasFrontendTimer() const { return FrontendTimer != 0; } llvm::Timer &getFrontendTimer() const { assert(FrontendTimer && "Compiler instance has no frontend timer!"); return *FrontendTimer; } /// } /// @name Output Files /// { /// addOutputFile - Add an output file onto the list of tracked output files. /// /// \param OutFile - The output file info. void addOutputFile(const OutputFile &OutFile); /// clearOutputFiles - Clear the output file list, destroying the contained /// output streams. /// /// \param EraseFiles - If true, attempt to erase the files from disk. void clearOutputFiles(bool EraseFiles); /// } /// @name Construction Utility Methods /// { /// Create the diagnostics engine using the invocation's diagnostic options /// and replace any existing one with it. /// /// Note that this routine also replaces the diagnostic client, /// allocating one if one is not provided. /// /// \param Client If non-NULL, a diagnostic client that will be /// attached to (and, then, owned by) the Diagnostic inside this AST /// unit. void createDiagnostics(int Argc, const char* const *Argv, DiagnosticClient *Client = 0); /// Create a Diagnostic object with a the TextDiagnosticPrinter. /// /// The \arg Argc and \arg Argv arguments are used only for logging purposes, /// when the diagnostic options indicate that the compiler should output /// logging information. /// /// If no diagnostic client is provided, this creates a /// DiagnosticClient that is owned by the returned diagnostic /// object, if using directly the caller is responsible for /// releasing the returned Diagnostic's client eventually. /// /// \param Opts - The diagnostic options; note that the created text /// diagnostic object contains a reference to these options and its lifetime /// must extend past that of the diagnostic engine. /// /// \param Client If non-NULL, a diagnostic client that will be /// attached to (and, then, owned by) the returned Diagnostic /// object. /// /// \param CodeGenOpts If non-NULL, the code gen options in use, which may be /// used by some diagnostics printers (for logging purposes only). /// /// \return The new object on success, or null on failure. static llvm::IntrusiveRefCntPtr createDiagnostics(const DiagnosticOptions &Opts, int Argc, const char* const *Argv, DiagnosticClient *Client = 0, const CodeGenOptions *CodeGenOpts = 0); /// Create the file manager and replace any existing one with it. void createFileManager(); /// Create the source manager and replace any existing one with it. void createSourceManager(FileManager &FileMgr); /// Create the preprocessor, using the invocation, file, and source managers, /// and replace any existing one with it. void createPreprocessor(); /// Create a Preprocessor object. /// /// Note that this also creates a new HeaderSearch object which will be owned /// by the resulting Preprocessor. /// /// \return The new object on success, or null on failure. static Preprocessor *createPreprocessor(Diagnostic &, const LangOptions &, const PreprocessorOptions &, const HeaderSearchOptions &, const DependencyOutputOptions &, const TargetInfo &, const FrontendOptions &, SourceManager &, FileManager &); /// Create the AST context. void createASTContext(); /// Create an external AST source to read a PCH file and attach it to the AST /// context. void createPCHExternalASTSource(llvm::StringRef Path, bool DisablePCHValidation, bool DisableStatCache, void *DeserializationListener); /// Create an external AST source to read a PCH file. /// /// \return - The new object on success, or null on failure. static ExternalASTSource * createPCHExternalASTSource(llvm::StringRef Path, const std::string &Sysroot, bool DisablePCHValidation, bool DisableStatCache, Preprocessor &PP, ASTContext &Context, void *DeserializationListener, bool Preamble); /// Create a code completion consumer using the invocation; note that this /// will cause the source manager to truncate the input source file at the /// completion point. void createCodeCompletionConsumer(); /// Create a code completion consumer to print code completion results, at /// \arg Filename, \arg Line, and \arg Column, to the given output stream \arg /// OS. static CodeCompleteConsumer * createCodeCompletionConsumer(Preprocessor &PP, const std::string &Filename, unsigned Line, unsigned Column, bool ShowMacros, bool ShowCodePatterns, bool ShowGlobals, llvm::raw_ostream &OS); /// \brief Create the Sema object to be used for parsing. void createSema(bool CompleteTranslationUnit, CodeCompleteConsumer *CompletionConsumer); /// Create the frontend timer and replace any existing one with it. void createFrontendTimer(); /// Create the default output file (from the invocation's options) and add it /// to the list of tracked output files. /// /// \return - Null on error. llvm::raw_fd_ostream * createDefaultOutputFile(bool Binary = true, llvm::StringRef BaseInput = "", llvm::StringRef Extension = ""); /// Create a new output file and add it to the list of tracked output files, /// optionally deriving the output path name. /// /// \return - Null on error. llvm::raw_fd_ostream * createOutputFile(llvm::StringRef OutputPath, bool Binary = true, bool RemoveFileOnSignal = true, llvm::StringRef BaseInput = "", llvm::StringRef Extension = ""); /// Create a new output file, optionally deriving the output path name. /// /// If \arg OutputPath is empty, then createOutputFile will derive an output /// path location as \arg BaseInput, with any suffix removed, and \arg /// Extension appended. If OutputPath is not stdout createOutputFile will /// create a new temporary file that must be renamed to OutputPath in the end. /// /// \param OutputPath - If given, the path to the output file. /// \param Error [out] - On failure, the error message. /// \param BaseInput - If \arg OutputPath is empty, the input path name to use /// for deriving the output path. /// \param Extension - The extension to use for derived output names. /// \param Binary - The mode to open the file in. /// \param RemoveFileOnSignal - Whether the file should be registered with /// llvm::sys::RemoveFileOnSignal. Note that this is not safe for /// multithreaded use, as the underlying signal mechanism is not reentrant /// \param ResultPathName [out] - If given, the result path name will be /// stored here on success. /// \param TempPathName [out] - If given, the temporary file path name /// will be stored here on success. static llvm::raw_fd_ostream * createOutputFile(llvm::StringRef OutputPath, std::string &Error, bool Binary = true, bool RemoveFileOnSignal = true, llvm::StringRef BaseInput = "", llvm::StringRef Extension = "", std::string *ResultPathName = 0, std::string *TempPathName = 0); /// } /// @name Initialization Utility Methods /// { /// InitializeSourceManager - Initialize the source manager to set InputFile /// as the main file. /// /// \return True on success. bool InitializeSourceManager(llvm::StringRef InputFile); /// InitializeSourceManager - Initialize the source manager to set InputFile /// as the main file. /// /// \return True on success. static bool InitializeSourceManager(llvm::StringRef InputFile, Diagnostic &Diags, FileManager &FileMgr, SourceManager &SourceMgr, const FrontendOptions &Opts); /// } }; } // end namespace clang #endif