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//===--- 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. // //===----------------------------------------------------------------------===// #include "clang/Serialization/ModuleManager.h" #include "llvm/Support/MemoryBuffer.h" #include "llvm/Support/raw_ostream.h" #include "llvm/Support/system_error.h" #ifndef NDEBUG #include "llvm/Support/GraphWriter.h" #endif using namespace clang; using namespace serialization; ModuleFile *ModuleManager::lookup(StringRef Name) { const FileEntry *Entry = FileMgr.getFile(Name); return Modules[Entry]; } llvm::MemoryBuffer *ModuleManager::lookupBuffer(StringRef Name) { const FileEntry *Entry = FileMgr.getFile(Name); return InMemoryBuffers[Entry]; } std::pair<ModuleFile *, bool> ModuleManager::addModule(StringRef FileName, ModuleKind Type, ModuleFile *ImportedBy, unsigned Generation, std::string &ErrorStr) { const FileEntry *Entry = FileMgr.getFile(FileName); if (!Entry && FileName != "-") { ErrorStr = "file not found"; return std::make_pair(static_cast<ModuleFile*>(0), false); } // Check whether we already loaded this module, before ModuleFile *&ModuleEntry = Modules[Entry]; bool NewModule = false; if (!ModuleEntry) { // Allocate a new module. ModuleFile *New = new ModuleFile(Type, Generation); New->FileName = FileName.str(); Chain.push_back(New); NewModule = true; ModuleEntry = New; // Load the contents of the module if (llvm::MemoryBuffer *Buffer = lookupBuffer(FileName)) { // The buffer was already provided for us. assert(Buffer && "Passed null buffer"); New->Buffer.reset(Buffer); } else { // Open the AST file. llvm::error_code ec; if (FileName == "-") { ec = llvm::MemoryBuffer::getSTDIN(New->Buffer); if (ec) ErrorStr = ec.message(); } else New->Buffer.reset(FileMgr.getBufferForFile(FileName, &ErrorStr)); if (!New->Buffer) return std::make_pair(static_cast<ModuleFile*>(0), false); } // Initialize the stream New->StreamFile.init((const unsigned char *)New->Buffer->getBufferStart(), (const unsigned char *)New->Buffer->getBufferEnd()); } if (ImportedBy) { ModuleEntry->ImportedBy.insert(ImportedBy); ImportedBy->Imports.insert(ModuleEntry); } else { ModuleEntry->DirectlyImported = true; } return std::make_pair(ModuleEntry, NewModule); } void ModuleManager::addInMemoryBuffer(StringRef FileName, llvm::MemoryBuffer *Buffer) { const FileEntry *Entry = FileMgr.getVirtualFile(FileName, Buffer->getBufferSize(), 0); InMemoryBuffers[Entry] = Buffer; } ModuleManager::ModuleManager(const FileSystemOptions &FSO) : FileMgr(FSO) { } ModuleManager::~ModuleManager() { for (unsigned i = 0, e = Chain.size(); i != e; ++i) delete Chain[e - i - 1]; } void ModuleManager::visit(bool (*Visitor)(ModuleFile &M, void *UserData), void *UserData) { unsigned N = size(); // Record the number of incoming edges for each module. When we // encounter a module with no incoming edges, push it into the queue // to seed the queue. SmallVector<ModuleFile *, 4> Queue; Queue.reserve(N); llvm::DenseMap<ModuleFile *, unsigned> UnusedIncomingEdges; for (ModuleIterator M = begin(), MEnd = end(); M != MEnd; ++M) { if (unsigned Size = (*M)->ImportedBy.size()) UnusedIncomingEdges[*M] = Size; else Queue.push_back(*M); } llvm::SmallPtrSet<ModuleFile *, 4> Skipped; unsigned QueueStart = 0; while (QueueStart < Queue.size()) { ModuleFile *CurrentModule = Queue[QueueStart++]; // Check whether this module should be skipped. if (Skipped.count(CurrentModule)) continue; if (Visitor(*CurrentModule, UserData)) { // The visitor has requested that cut off visitation of any // module that the current module depends on. To indicate this // behavior, we mark all of the reachable modules as having N // incoming edges (which is impossible otherwise). SmallVector<ModuleFile *, 4> Stack; Stack.push_back(CurrentModule); Skipped.insert(CurrentModule); while (!Stack.empty()) { ModuleFile *NextModule = Stack.back(); Stack.pop_back(); // For any module that this module depends on, push it on the // stack (if it hasn't already been marked as visited). for (llvm::SetVector<ModuleFile *>::iterator M = NextModule->Imports.begin(), MEnd = NextModule->Imports.end(); M != MEnd; ++M) { if (Skipped.insert(*M)) Stack.push_back(*M); } } continue; } // For any module that this module depends on, push it on the // stack (if it hasn't already been marked as visited). for (llvm::SetVector<ModuleFile *>::iterator M = CurrentModule->Imports.begin(), MEnd = CurrentModule->Imports.end(); M != MEnd; ++M) { // Remove our current module as an impediment to visiting the // module we depend on. If we were the last unvisited module // that depends on this particular module, push it into the // queue to be visited. unsigned &NumUnusedEdges = UnusedIncomingEdges[*M]; if (NumUnusedEdges && (--NumUnusedEdges == 0)) Queue.push_back(*M); } } } /// \brief Perform a depth-first visit of the current module. static bool visitDepthFirst(ModuleFile &M, bool (*Visitor)(ModuleFile &M, bool Preorder, void *UserData), void *UserData, llvm::SmallPtrSet<ModuleFile *, 4> &Visited) { // Preorder visitation if (Visitor(M, /*Preorder=*/true, UserData)) return true; // Visit children for (llvm::SetVector<ModuleFile *>::iterator IM = M.Imports.begin(), IMEnd = M.Imports.end(); IM != IMEnd; ++IM) { if (!Visited.insert(*IM)) continue; if (visitDepthFirst(**IM, Visitor, UserData, Visited)) return true; } // Postorder visitation return Visitor(M, /*Preorder=*/false, UserData); } void ModuleManager::visitDepthFirst(bool (*Visitor)(ModuleFile &M, bool Preorder, void *UserData), void *UserData) { llvm::SmallPtrSet<ModuleFile *, 4> Visited; for (unsigned I = 0, N = Chain.size(); I != N; ++I) { if (!Visited.insert(Chain[I])) continue; if (::visitDepthFirst(*Chain[I], Visitor, UserData, Visited)) return; } } #ifndef NDEBUG namespace llvm { template<> struct GraphTraits<ModuleManager> { typedef ModuleFile NodeType; typedef llvm::SetVector<ModuleFile *>::const_iterator ChildIteratorType; typedef ModuleManager::ModuleConstIterator nodes_iterator; static ChildIteratorType child_begin(NodeType *Node) { return Node->Imports.begin(); } static ChildIteratorType child_end(NodeType *Node) { return Node->Imports.end(); } static nodes_iterator nodes_begin(const ModuleManager &Manager) { return Manager.begin(); } static nodes_iterator nodes_end(const ModuleManager &Manager) { return Manager.end(); } }; template<> struct DOTGraphTraits<ModuleManager> : public DefaultDOTGraphTraits { explicit DOTGraphTraits(bool IsSimple = false) : DefaultDOTGraphTraits(IsSimple) { } static bool renderGraphFromBottomUp() { return true; } std::string getNodeLabel(ModuleFile *M, const ModuleManager&) { return llvm::sys::path::stem(M->FileName); } }; } void ModuleManager::viewGraph() { llvm::ViewGraph(*this, "Modules"); } #endif