//===--- ModuleManager.cpp - Module Manager ---------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file defines the ModuleManager class, which manages a set of loaded // modules for the ASTReader. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_SERIALIZATION_MODULE_MANAGER_H #define LLVM_CLANG_SERIALIZATION_MODULE_MANAGER_H #include "clang/Basic/FileManager.h" #include "clang/Serialization/Module.h" #include "llvm/ADT/DenseMap.h" namespace clang { class GlobalModuleIndex; class ModuleMap; namespace serialization { /// \brief Manages the set of modules loaded by an AST reader. class ModuleManager { /// \brief The chain of AST files. The first entry is the one named by the /// user, the last one is the one that doesn't depend on anything further. SmallVector Chain; /// \brief All loaded modules, indexed by name. llvm::DenseMap Modules; /// \brief FileManager that handles translating between filenames and /// FileEntry *. FileManager &FileMgr; /// \brief A lookup of in-memory (virtual file) buffers llvm::DenseMap InMemoryBuffers; /// \brief The visitation order. SmallVector VisitOrder; /// \brief The list of module files that both we and the global module index /// know about. /// /// Either the global index or the module manager may have modules that the /// other does not know about, because the global index can be out-of-date /// (in which case the module manager could have modules it does not) and /// this particular translation unit might not have loaded all of the modules /// known to the global index. SmallVector ModulesInCommonWithGlobalIndex; /// \brief The global module index, if one is attached. /// /// The global module index will actually be owned by the ASTReader; this is /// just an non-owning pointer. GlobalModuleIndex *GlobalIndex; /// \brief State used by the "visit" operation to avoid malloc traffic in /// calls to visit(). struct VisitState { explicit VisitState(unsigned N) : VisitNumber(N, 0), NextVisitNumber(1), NextState(0) { Stack.reserve(N); } ~VisitState() { delete NextState; } /// \brief The stack used when marking the imports of a particular module /// as not-to-be-visited. SmallVector Stack; /// \brief The visit number of each module file, which indicates when /// this module file was last visited. SmallVector VisitNumber; /// \brief The next visit number to use to mark visited module files. unsigned NextVisitNumber; /// \brief The next visit state. VisitState *NextState; }; /// \brief The first visit() state in the chain. VisitState *FirstVisitState; VisitState *allocateVisitState(); void returnVisitState(VisitState *State); public: typedef SmallVectorImpl::iterator ModuleIterator; typedef SmallVectorImpl::const_iterator ModuleConstIterator; typedef SmallVectorImpl::reverse_iterator ModuleReverseIterator; typedef std::pair ModuleOffset; explicit ModuleManager(FileManager &FileMgr); ~ModuleManager(); /// \brief Forward iterator to traverse all loaded modules. This is reverse /// source-order. ModuleIterator begin() { return Chain.begin(); } /// \brief Forward iterator end-point to traverse all loaded modules ModuleIterator end() { return Chain.end(); } /// \brief Const forward iterator to traverse all loaded modules. This is /// in reverse source-order. ModuleConstIterator begin() const { return Chain.begin(); } /// \brief Const forward iterator end-point to traverse all loaded modules ModuleConstIterator end() const { return Chain.end(); } /// \brief Reverse iterator to traverse all loaded modules. This is in /// source order. ModuleReverseIterator rbegin() { return Chain.rbegin(); } /// \brief Reverse iterator end-point to traverse all loaded modules. ModuleReverseIterator rend() { return Chain.rend(); } /// \brief Returns the primary module associated with the manager, that is, /// the first module loaded ModuleFile &getPrimaryModule() { return *Chain[0]; } /// \brief Returns the primary module associated with the manager, that is, /// the first module loaded. ModuleFile &getPrimaryModule() const { return *Chain[0]; } /// \brief Returns the module associated with the given index ModuleFile &operator[](unsigned Index) const { return *Chain[Index]; } /// \brief Returns the module associated with the given name ModuleFile *lookup(StringRef Name); /// \brief Returns the module associated with the given module file. ModuleFile *lookup(const FileEntry *File); /// \brief Returns the in-memory (virtual file) buffer with the given name llvm::MemoryBuffer *lookupBuffer(StringRef Name); /// \brief Number of modules loaded unsigned size() const { return Chain.size(); } /// \brief The result of attempting to add a new module. enum AddModuleResult { /// \brief The module file had already been loaded. AlreadyLoaded, /// \brief The module file was just loaded in response to this call. NewlyLoaded, /// \brief The module file is missing. Missing, /// \brief The module file is out-of-date. OutOfDate }; /// \brief Attempts to create a new module and add it to the list of known /// modules. /// /// \param FileName The file name of the module to be loaded. /// /// \param Type The kind of module being loaded. /// /// \param ImportLoc The location at which the module is imported. /// /// \param ImportedBy The module that is importing this module, or NULL if /// this module is imported directly by the user. /// /// \param Generation The generation in which this module was loaded. /// /// \param ExpectedSize The expected size of the module file, used for /// validation. This will be zero if unknown. /// /// \param ExpectedModTime The expected modification time of the module /// file, used for validation. This will be zero if unknown. /// /// \param Module A pointer to the module file if the module was successfully /// loaded. /// /// \param ErrorStr Will be set to a non-empty string if any errors occurred /// while trying to load the module. /// /// \return A pointer to the module that corresponds to this file name, /// and a value indicating whether the module was loaded. AddModuleResult addModule(StringRef FileName, ModuleKind Type, SourceLocation ImportLoc, ModuleFile *ImportedBy, unsigned Generation, off_t ExpectedSize, time_t ExpectedModTime, ModuleFile *&Module, std::string &ErrorStr); /// \brief Remove the given set of modules. void removeModules(ModuleIterator first, ModuleIterator last, ModuleMap *modMap); /// \brief Add an in-memory buffer the list of known buffers void addInMemoryBuffer(StringRef FileName, llvm::MemoryBuffer *Buffer); /// \brief Set the global module index. void setGlobalIndex(GlobalModuleIndex *Index); /// \brief Notification from the AST reader that the given module file /// has been "accepted", and will not (can not) be unloaded. void moduleFileAccepted(ModuleFile *MF); /// \brief Visit each of the modules. /// /// This routine visits each of the modules, starting with the /// "root" modules that no other loaded modules depend on, and /// proceeding to the leaf modules, visiting each module only once /// during the traversal. /// /// This traversal is intended to support various "lookup" /// operations that can find data in any of the loaded modules. /// /// \param Visitor A visitor function that will be invoked with each /// module and the given user data pointer. The return value must be /// convertible to bool; when false, the visitation continues to /// modules that the current module depends on. When true, the /// visitation skips any modules that the current module depends on. /// /// \param UserData User data associated with the visitor object, which /// will be passed along to the visitor. /// /// \param ModuleFilesHit If non-NULL, contains the set of module files /// that we know we need to visit because the global module index told us to. /// Any module that is known to both the global module index and the module /// manager that is *not* in this set can be skipped. void visit(bool (*Visitor)(ModuleFile &M, void *UserData), void *UserData, llvm::SmallPtrSet *ModuleFilesHit = 0); /// \brief Visit each of the modules with a depth-first traversal. /// /// This routine visits each of the modules known to the module /// manager using a depth-first search, starting with the first /// loaded module. The traversal invokes the callback both before /// traversing the children (preorder traversal) and after /// traversing the children (postorder traversal). /// /// \param Visitor A visitor function that will be invoked with each /// module and given a \c Preorder flag that indicates whether we're /// visiting the module before or after visiting its children. The /// visitor may return true at any time to abort the depth-first /// visitation. /// /// \param UserData User data ssociated with the visitor object, /// which will be passed along to the user. void visitDepthFirst(bool (*Visitor)(ModuleFile &M, bool Preorder, void *UserData), void *UserData); /// \brief Attempt to resolve the given module file name to a file entry. /// /// \param FileName The name of the module file. /// /// \param ExpectedSize The size that the module file is expected to have. /// If the actual size differs, the resolver should return \c true. /// /// \param ExpectedModTime The modification time that the module file is /// expected to have. If the actual modification time differs, the resolver /// should return \c true. /// /// \param File Will be set to the file if there is one, or null /// otherwise. /// /// \returns True if a file exists but does not meet the size/ /// modification time criteria, false if the file is either available and /// suitable, or is missing. bool lookupModuleFile(StringRef FileName, off_t ExpectedSize, time_t ExpectedModTime, const FileEntry *&File); /// \brief View the graphviz representation of the module graph. void viewGraph(); }; } } // end namespace clang::serialization #endif