//===--- PrecompiledPreamble.cpp - Build precompiled preambles --*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // Helper class to build precompiled preamble. // //===----------------------------------------------------------------------===// #include "clang/Frontend/PrecompiledPreamble.h" #include "clang/AST/DeclObjC.h" #include "clang/Basic/TargetInfo.h" #include "clang/Basic/VirtualFileSystem.h" #include "clang/Frontend/CompilerInstance.h" #include "clang/Frontend/CompilerInvocation.h" #include "clang/Frontend/FrontendActions.h" #include "clang/Frontend/FrontendOptions.h" #include "clang/Lex/Lexer.h" #include "clang/Lex/PreprocessorOptions.h" #include "clang/Serialization/ASTWriter.h" #include "llvm/ADT/StringExtras.h" #include "llvm/ADT/StringSet.h" #include "llvm/Config/llvm-config.h" #include "llvm/Support/CrashRecoveryContext.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/Mutex.h" #include "llvm/Support/MutexGuard.h" #include "llvm/Support/Process.h" #include #include using namespace clang; namespace { StringRef getInMemoryPreamblePath() { #if defined(LLVM_ON_UNIX) return "/__clang_tmp/___clang_inmemory_preamble___"; #elif defined(LLVM_ON_WIN32) return "C:\\__clang_tmp\\___clang_inmemory_preamble___"; #else #warning "Unknown platform. Defaulting to UNIX-style paths for in-memory PCHs" return "/__clang_tmp/___clang_inmemory_preamble___"; #endif } IntrusiveRefCntPtr createVFSOverlayForPreamblePCH(StringRef PCHFilename, std::unique_ptr PCHBuffer, IntrusiveRefCntPtr VFS) { // We want only the PCH file from the real filesystem to be available, // so we create an in-memory VFS with just that and overlay it on top. IntrusiveRefCntPtr PCHFS( new vfs::InMemoryFileSystem()); PCHFS->addFile(PCHFilename, 0, std::move(PCHBuffer)); IntrusiveRefCntPtr Overlay( new vfs::OverlayFileSystem(VFS)); Overlay->pushOverlay(PCHFS); return Overlay; } /// Keeps a track of files to be deleted in destructor. class TemporaryFiles { public: // A static instance to be used by all clients. static TemporaryFiles &getInstance(); private: // Disallow constructing the class directly. TemporaryFiles() = default; // Disallow copy. TemporaryFiles(const TemporaryFiles &) = delete; public: ~TemporaryFiles(); /// Adds \p File to a set of tracked files. void addFile(StringRef File); /// Remove \p File from disk and from the set of tracked files. void removeFile(StringRef File); private: llvm::sys::SmartMutex Mutex; llvm::StringSet<> Files; }; TemporaryFiles &TemporaryFiles::getInstance() { static TemporaryFiles Instance; return Instance; } TemporaryFiles::~TemporaryFiles() { llvm::MutexGuard Guard(Mutex); for (const auto &File : Files) llvm::sys::fs::remove(File.getKey()); } void TemporaryFiles::addFile(StringRef File) { llvm::MutexGuard Guard(Mutex); auto IsInserted = Files.insert(File).second; (void)IsInserted; assert(IsInserted && "File has already been added"); } void TemporaryFiles::removeFile(StringRef File) { llvm::MutexGuard Guard(Mutex); auto WasPresent = Files.erase(File); (void)WasPresent; assert(WasPresent && "File was not tracked"); llvm::sys::fs::remove(File); } class PrecompilePreambleAction : public ASTFrontendAction { public: PrecompilePreambleAction(std::string *InMemStorage, PreambleCallbacks &Callbacks) : InMemStorage(InMemStorage), Callbacks(Callbacks) {} std::unique_ptr CreateASTConsumer(CompilerInstance &CI, StringRef InFile) override; bool hasEmittedPreamblePCH() const { return HasEmittedPreamblePCH; } void setEmittedPreamblePCH(ASTWriter &Writer) { this->HasEmittedPreamblePCH = true; Callbacks.AfterPCHEmitted(Writer); } bool shouldEraseOutputFiles() override { return !hasEmittedPreamblePCH(); } bool hasCodeCompletionSupport() const override { return false; } bool hasASTFileSupport() const override { return false; } TranslationUnitKind getTranslationUnitKind() override { return TU_Prefix; } private: friend class PrecompilePreambleConsumer; bool HasEmittedPreamblePCH = false; std::string *InMemStorage; PreambleCallbacks &Callbacks; }; class PrecompilePreambleConsumer : public PCHGenerator { public: PrecompilePreambleConsumer(PrecompilePreambleAction &Action, const Preprocessor &PP, StringRef isysroot, std::unique_ptr Out) : PCHGenerator(PP, "", isysroot, std::make_shared(), ArrayRef>(), /*AllowASTWithErrors=*/true), Action(Action), Out(std::move(Out)) {} bool HandleTopLevelDecl(DeclGroupRef DG) override { Action.Callbacks.HandleTopLevelDecl(DG); return true; } void HandleTranslationUnit(ASTContext &Ctx) override { PCHGenerator::HandleTranslationUnit(Ctx); if (!hasEmittedPCH()) return; // Write the generated bitstream to "Out". *Out << getPCH(); // Make sure it hits disk now. Out->flush(); // Free the buffer. llvm::SmallVector Empty; getPCH() = std::move(Empty); Action.setEmittedPreamblePCH(getWriter()); } private: PrecompilePreambleAction &Action; std::unique_ptr Out; }; std::unique_ptr PrecompilePreambleAction::CreateASTConsumer(CompilerInstance &CI, StringRef InFile) { std::string Sysroot; if (!GeneratePCHAction::ComputeASTConsumerArguments(CI, Sysroot)) return nullptr; std::unique_ptr OS; if (InMemStorage) { OS = llvm::make_unique(*InMemStorage); } else { std::string OutputFile; OS = GeneratePCHAction::CreateOutputFile(CI, InFile, OutputFile); } if (!OS) return nullptr; if (!CI.getFrontendOpts().RelocatablePCH) Sysroot.clear(); return llvm::make_unique( *this, CI.getPreprocessor(), Sysroot, std::move(OS)); } template bool moveOnNoError(llvm::ErrorOr Val, T &Output) { if (!Val) return false; Output = std::move(*Val); return true; } } // namespace PreambleBounds clang::ComputePreambleBounds(const LangOptions &LangOpts, llvm::MemoryBuffer *Buffer, unsigned MaxLines) { return Lexer::ComputePreamble(Buffer->getBuffer(), LangOpts, MaxLines); } llvm::ErrorOr PrecompiledPreamble::Build( const CompilerInvocation &Invocation, const llvm::MemoryBuffer *MainFileBuffer, PreambleBounds Bounds, DiagnosticsEngine &Diagnostics, IntrusiveRefCntPtr VFS, std::shared_ptr PCHContainerOps, bool StoreInMemory, PreambleCallbacks &Callbacks) { assert(VFS && "VFS is null"); if (!Bounds.Size) return BuildPreambleError::PreambleIsEmpty; auto PreambleInvocation = std::make_shared(Invocation); FrontendOptions &FrontendOpts = PreambleInvocation->getFrontendOpts(); PreprocessorOptions &PreprocessorOpts = PreambleInvocation->getPreprocessorOpts(); llvm::Optional TempFile; if (!StoreInMemory) { // Create a temporary file for the precompiled preamble. In rare // circumstances, this can fail. llvm::ErrorOr PreamblePCHFile = PrecompiledPreamble::TempPCHFile::CreateNewPreamblePCHFile(); if (!PreamblePCHFile) return BuildPreambleError::CouldntCreateTempFile; TempFile = std::move(*PreamblePCHFile); } PCHStorage Storage = StoreInMemory ? PCHStorage(InMemoryPreamble()) : PCHStorage(std::move(*TempFile)); // Save the preamble text for later; we'll need to compare against it for // subsequent reparses. std::vector PreambleBytes(MainFileBuffer->getBufferStart(), MainFileBuffer->getBufferStart() + Bounds.Size); bool PreambleEndsAtStartOfLine = Bounds.PreambleEndsAtStartOfLine; // Tell the compiler invocation to generate a temporary precompiled header. FrontendOpts.ProgramAction = frontend::GeneratePCH; FrontendOpts.OutputFile = StoreInMemory ? getInMemoryPreamblePath() : Storage.asFile().getFilePath(); PreprocessorOpts.PrecompiledPreambleBytes.first = 0; PreprocessorOpts.PrecompiledPreambleBytes.second = false; // Inform preprocessor to record conditional stack when building the preamble. PreprocessorOpts.GeneratePreamble = true; // Create the compiler instance to use for building the precompiled preamble. std::unique_ptr Clang( new CompilerInstance(std::move(PCHContainerOps))); // Recover resources if we crash before exiting this method. llvm::CrashRecoveryContextCleanupRegistrar CICleanup( Clang.get()); Clang->setInvocation(std::move(PreambleInvocation)); Clang->setDiagnostics(&Diagnostics); // Create the target instance. Clang->setTarget(TargetInfo::CreateTargetInfo( Clang->getDiagnostics(), Clang->getInvocation().TargetOpts)); if (!Clang->hasTarget()) return BuildPreambleError::CouldntCreateTargetInfo; // Inform the target of the language options. // // FIXME: We shouldn't need to do this, the target should be immutable once // created. This complexity should be lifted elsewhere. Clang->getTarget().adjust(Clang->getLangOpts()); assert(Clang->getFrontendOpts().Inputs.size() == 1 && "Invocation must have exactly one source file!"); assert(Clang->getFrontendOpts().Inputs[0].getKind().getFormat() == InputKind::Source && "FIXME: AST inputs not yet supported here!"); assert(Clang->getFrontendOpts().Inputs[0].getKind().getLanguage() != InputKind::LLVM_IR && "IR inputs not support here!"); // Clear out old caches and data. Diagnostics.Reset(); ProcessWarningOptions(Diagnostics, Clang->getDiagnosticOpts()); VFS = createVFSFromCompilerInvocation(Clang->getInvocation(), Diagnostics, VFS); if (!VFS) return BuildPreambleError::CouldntCreateVFSOverlay; // Create a file manager object to provide access to and cache the filesystem. Clang->setFileManager(new FileManager(Clang->getFileSystemOpts(), VFS)); // Create the source manager. Clang->setSourceManager( new SourceManager(Diagnostics, Clang->getFileManager())); auto PreambleDepCollector = std::make_shared(); Clang->addDependencyCollector(PreambleDepCollector); // Remap the main source file to the preamble buffer. StringRef MainFilePath = FrontendOpts.Inputs[0].getFile(); auto PreambleInputBuffer = llvm::MemoryBuffer::getMemBufferCopy( MainFileBuffer->getBuffer().slice(0, Bounds.Size), MainFilePath); if (PreprocessorOpts.RetainRemappedFileBuffers) { // MainFileBuffer will be deleted by unique_ptr after leaving the method. PreprocessorOpts.addRemappedFile(MainFilePath, PreambleInputBuffer.get()); } else { // In that case, remapped buffer will be deleted by CompilerInstance on // BeginSourceFile, so we call release() to avoid double deletion. PreprocessorOpts.addRemappedFile(MainFilePath, PreambleInputBuffer.release()); } std::unique_ptr Act; Act.reset(new PrecompilePreambleAction( StoreInMemory ? &Storage.asMemory().Data : nullptr, Callbacks)); Callbacks.BeforeExecute(*Clang); if (!Act->BeginSourceFile(*Clang.get(), Clang->getFrontendOpts().Inputs[0])) return BuildPreambleError::BeginSourceFileFailed; std::unique_ptr DelegatedPPCallbacks = Callbacks.createPPCallbacks(); if (DelegatedPPCallbacks) Clang->getPreprocessor().addPPCallbacks(std::move(DelegatedPPCallbacks)); Act->Execute(); // Run the callbacks. Callbacks.AfterExecute(*Clang); Act->EndSourceFile(); if (!Act->hasEmittedPreamblePCH()) return BuildPreambleError::CouldntEmitPCH; // Keep track of all of the files that the source manager knows about, // so we can verify whether they have changed or not. llvm::StringMap FilesInPreamble; SourceManager &SourceMgr = Clang->getSourceManager(); for (auto &Filename : PreambleDepCollector->getDependencies()) { const FileEntry *File = Clang->getFileManager().getFile(Filename); if (!File || File == SourceMgr.getFileEntryForID(SourceMgr.getMainFileID())) continue; if (time_t ModTime = File->getModificationTime()) { FilesInPreamble[File->getName()] = PrecompiledPreamble::PreambleFileHash::createForFile(File->getSize(), ModTime); } else { llvm::MemoryBuffer *Buffer = SourceMgr.getMemoryBufferForFile(File); FilesInPreamble[File->getName()] = PrecompiledPreamble::PreambleFileHash::createForMemoryBuffer(Buffer); } } return PrecompiledPreamble(std::move(Storage), std::move(PreambleBytes), PreambleEndsAtStartOfLine, std::move(FilesInPreamble)); } PreambleBounds PrecompiledPreamble::getBounds() const { return PreambleBounds(PreambleBytes.size(), PreambleEndsAtStartOfLine); } std::size_t PrecompiledPreamble::getSize() const { switch (Storage.getKind()) { case PCHStorage::Kind::Empty: assert(false && "Calling getSize() on invalid PrecompiledPreamble. " "Was it std::moved?"); return 0; case PCHStorage::Kind::InMemory: return Storage.asMemory().Data.size(); case PCHStorage::Kind::TempFile: { uint64_t Result; if (llvm::sys::fs::file_size(Storage.asFile().getFilePath(), Result)) return 0; assert(Result <= std::numeric_limits::max() && "file size did not fit into size_t"); return Result; } } llvm_unreachable("Unhandled storage kind"); } bool PrecompiledPreamble::CanReuse(const CompilerInvocation &Invocation, const llvm::MemoryBuffer *MainFileBuffer, PreambleBounds Bounds, vfs::FileSystem *VFS) const { assert( Bounds.Size <= MainFileBuffer->getBufferSize() && "Buffer is too large. Bounds were calculated from a different buffer?"); auto PreambleInvocation = std::make_shared(Invocation); PreprocessorOptions &PreprocessorOpts = PreambleInvocation->getPreprocessorOpts(); if (!Bounds.Size) return false; // We've previously computed a preamble. Check whether we have the same // preamble now that we did before, and that there's enough space in // the main-file buffer within the precompiled preamble to fit the // new main file. if (PreambleBytes.size() != Bounds.Size || PreambleEndsAtStartOfLine != Bounds.PreambleEndsAtStartOfLine || memcmp(PreambleBytes.data(), MainFileBuffer->getBufferStart(), Bounds.Size) != 0) return false; // The preamble has not changed. We may be able to re-use the precompiled // preamble. // Check that none of the files used by the preamble have changed. // First, make a record of those files that have been overridden via // remapping or unsaved_files. std::map OverriddenFiles; for (const auto &R : PreprocessorOpts.RemappedFiles) { vfs::Status Status; if (!moveOnNoError(VFS->status(R.second), Status)) { // If we can't stat the file we're remapping to, assume that something // horrible happened. return false; } OverriddenFiles[Status.getUniqueID()] = PreambleFileHash::createForFile( Status.getSize(), llvm::sys::toTimeT(Status.getLastModificationTime())); } for (const auto &RB : PreprocessorOpts.RemappedFileBuffers) { vfs::Status Status; if (!moveOnNoError(VFS->status(RB.first), Status)) return false; OverriddenFiles[Status.getUniqueID()] = PreambleFileHash::createForMemoryBuffer(RB.second); } // Check whether anything has changed. for (const auto &F : FilesInPreamble) { vfs::Status Status; if (!moveOnNoError(VFS->status(F.first()), Status)) { // If we can't stat the file, assume that something horrible happened. return false; } std::map::iterator Overridden = OverriddenFiles.find(Status.getUniqueID()); if (Overridden != OverriddenFiles.end()) { // This file was remapped; check whether the newly-mapped file // matches up with the previous mapping. if (Overridden->second != F.second) return false; continue; } // The file was not remapped; check whether it has changed on disk. if (Status.getSize() != uint64_t(F.second.Size) || llvm::sys::toTimeT(Status.getLastModificationTime()) != F.second.ModTime) return false; } return true; } void PrecompiledPreamble::AddImplicitPreamble( CompilerInvocation &CI, IntrusiveRefCntPtr &VFS, llvm::MemoryBuffer *MainFileBuffer) const { assert(VFS && "VFS must not be null"); auto &PreprocessorOpts = CI.getPreprocessorOpts(); // Remap main file to point to MainFileBuffer. auto MainFilePath = CI.getFrontendOpts().Inputs[0].getFile(); PreprocessorOpts.addRemappedFile(MainFilePath, MainFileBuffer); // Configure ImpicitPCHInclude. PreprocessorOpts.PrecompiledPreambleBytes.first = PreambleBytes.size(); PreprocessorOpts.PrecompiledPreambleBytes.second = PreambleEndsAtStartOfLine; PreprocessorOpts.DisablePCHValidation = true; setupPreambleStorage(Storage, PreprocessorOpts, VFS); } PrecompiledPreamble::PrecompiledPreamble( PCHStorage Storage, std::vector PreambleBytes, bool PreambleEndsAtStartOfLine, llvm::StringMap FilesInPreamble) : Storage(std::move(Storage)), FilesInPreamble(std::move(FilesInPreamble)), PreambleBytes(std::move(PreambleBytes)), PreambleEndsAtStartOfLine(PreambleEndsAtStartOfLine) { assert(this->Storage.getKind() != PCHStorage::Kind::Empty); } llvm::ErrorOr PrecompiledPreamble::TempPCHFile::CreateNewPreamblePCHFile() { // FIXME: This is a hack so that we can override the preamble file during // crash-recovery testing, which is the only case where the preamble files // are not necessarily cleaned up. const char *TmpFile = ::getenv("CINDEXTEST_PREAMBLE_FILE"); if (TmpFile) return TempPCHFile::createFromCustomPath(TmpFile); return TempPCHFile::createInSystemTempDir("preamble", "pch"); } llvm::ErrorOr PrecompiledPreamble::TempPCHFile::createInSystemTempDir(const Twine &Prefix, StringRef Suffix) { llvm::SmallString<64> File; // Using a version of createTemporaryFile with a file descriptor guarantees // that we would never get a race condition in a multi-threaded setting // (i.e., multiple threads getting the same temporary path). int FD; auto EC = llvm::sys::fs::createTemporaryFile(Prefix, Suffix, FD, File); if (EC) return EC; // We only needed to make sure the file exists, close the file right away. llvm::sys::Process::SafelyCloseFileDescriptor(FD); return TempPCHFile(std::move(File).str()); } llvm::ErrorOr PrecompiledPreamble::TempPCHFile::createFromCustomPath(const Twine &Path) { return TempPCHFile(Path.str()); } PrecompiledPreamble::TempPCHFile::TempPCHFile(std::string FilePath) : FilePath(std::move(FilePath)) { TemporaryFiles::getInstance().addFile(*this->FilePath); } PrecompiledPreamble::TempPCHFile::TempPCHFile(TempPCHFile &&Other) { FilePath = std::move(Other.FilePath); Other.FilePath = None; } PrecompiledPreamble::TempPCHFile &PrecompiledPreamble::TempPCHFile:: operator=(TempPCHFile &&Other) { RemoveFileIfPresent(); FilePath = std::move(Other.FilePath); Other.FilePath = None; return *this; } PrecompiledPreamble::TempPCHFile::~TempPCHFile() { RemoveFileIfPresent(); } void PrecompiledPreamble::TempPCHFile::RemoveFileIfPresent() { if (FilePath) { TemporaryFiles::getInstance().removeFile(*FilePath); FilePath = None; } } llvm::StringRef PrecompiledPreamble::TempPCHFile::getFilePath() const { assert(FilePath && "TempPCHFile doesn't have a FilePath. Had it been moved?"); return *FilePath; } PrecompiledPreamble::PCHStorage::PCHStorage(TempPCHFile File) : StorageKind(Kind::TempFile) { new (&asFile()) TempPCHFile(std::move(File)); } PrecompiledPreamble::PCHStorage::PCHStorage(InMemoryPreamble Memory) : StorageKind(Kind::InMemory) { new (&asMemory()) InMemoryPreamble(std::move(Memory)); } PrecompiledPreamble::PCHStorage::PCHStorage(PCHStorage &&Other) : PCHStorage() { *this = std::move(Other); } PrecompiledPreamble::PCHStorage &PrecompiledPreamble::PCHStorage:: operator=(PCHStorage &&Other) { destroy(); StorageKind = Other.StorageKind; switch (StorageKind) { case Kind::Empty: // do nothing; break; case Kind::TempFile: new (&asFile()) TempPCHFile(std::move(Other.asFile())); break; case Kind::InMemory: new (&asMemory()) InMemoryPreamble(std::move(Other.asMemory())); break; } Other.setEmpty(); return *this; } PrecompiledPreamble::PCHStorage::~PCHStorage() { destroy(); } PrecompiledPreamble::PCHStorage::Kind PrecompiledPreamble::PCHStorage::getKind() const { return StorageKind; } PrecompiledPreamble::TempPCHFile &PrecompiledPreamble::PCHStorage::asFile() { assert(getKind() == Kind::TempFile); return *reinterpret_cast(Storage.buffer); } const PrecompiledPreamble::TempPCHFile & PrecompiledPreamble::PCHStorage::asFile() const { return const_cast(this)->asFile(); } PrecompiledPreamble::InMemoryPreamble & PrecompiledPreamble::PCHStorage::asMemory() { assert(getKind() == Kind::InMemory); return *reinterpret_cast(Storage.buffer); } const PrecompiledPreamble::InMemoryPreamble & PrecompiledPreamble::PCHStorage::asMemory() const { return const_cast(this)->asMemory(); } void PrecompiledPreamble::PCHStorage::destroy() { switch (StorageKind) { case Kind::Empty: return; case Kind::TempFile: asFile().~TempPCHFile(); return; case Kind::InMemory: asMemory().~InMemoryPreamble(); return; } } void PrecompiledPreamble::PCHStorage::setEmpty() { destroy(); StorageKind = Kind::Empty; } PrecompiledPreamble::PreambleFileHash PrecompiledPreamble::PreambleFileHash::createForFile(off_t Size, time_t ModTime) { PreambleFileHash Result; Result.Size = Size; Result.ModTime = ModTime; Result.MD5 = {}; return Result; } PrecompiledPreamble::PreambleFileHash PrecompiledPreamble::PreambleFileHash::createForMemoryBuffer( const llvm::MemoryBuffer *Buffer) { PreambleFileHash Result; Result.Size = Buffer->getBufferSize(); Result.ModTime = 0; llvm::MD5 MD5Ctx; MD5Ctx.update(Buffer->getBuffer().data()); MD5Ctx.final(Result.MD5); return Result; } void PrecompiledPreamble::setupPreambleStorage( const PCHStorage &Storage, PreprocessorOptions &PreprocessorOpts, IntrusiveRefCntPtr &VFS) { if (Storage.getKind() == PCHStorage::Kind::TempFile) { const TempPCHFile &PCHFile = Storage.asFile(); PreprocessorOpts.ImplicitPCHInclude = PCHFile.getFilePath(); // Make sure we can access the PCH file even if we're using a VFS IntrusiveRefCntPtr RealFS = vfs::getRealFileSystem(); auto PCHPath = PCHFile.getFilePath(); if (VFS == RealFS || VFS->exists(PCHPath)) return; auto Buf = RealFS->getBufferForFile(PCHPath); if (!Buf) { // We can't read the file even from RealFS, this is clearly an error, // but we'll just leave the current VFS as is and let clang's code // figure out what to do with missing PCH. return; } // We have a slight inconsistency here -- we're using the VFS to // read files, but the PCH was generated in the real file system. VFS = createVFSOverlayForPreamblePCH(PCHPath, std::move(*Buf), VFS); } else { assert(Storage.getKind() == PCHStorage::Kind::InMemory); // For in-memory preamble, we have to provide a VFS overlay that makes it // accessible. StringRef PCHPath = getInMemoryPreamblePath(); PreprocessorOpts.ImplicitPCHInclude = PCHPath; auto Buf = llvm::MemoryBuffer::getMemBuffer(Storage.asMemory().Data); VFS = createVFSOverlayForPreamblePCH(PCHPath, std::move(Buf), VFS); } } void PreambleCallbacks::BeforeExecute(CompilerInstance &CI) {} void PreambleCallbacks::AfterExecute(CompilerInstance &CI) {} void PreambleCallbacks::AfterPCHEmitted(ASTWriter &Writer) {} void PreambleCallbacks::HandleTopLevelDecl(DeclGroupRef DG) {} std::unique_ptr PreambleCallbacks::createPPCallbacks() { return nullptr; } std::error_code clang::make_error_code(BuildPreambleError Error) { return std::error_code(static_cast(Error), BuildPreambleErrorCategory()); } const char *BuildPreambleErrorCategory::name() const noexcept { return "build-preamble.error"; } std::string BuildPreambleErrorCategory::message(int condition) const { switch (static_cast(condition)) { case BuildPreambleError::PreambleIsEmpty: return "Preamble is empty"; case BuildPreambleError::CouldntCreateTempFile: return "Could not create temporary file for PCH"; case BuildPreambleError::CouldntCreateTargetInfo: return "CreateTargetInfo() return null"; case BuildPreambleError::CouldntCreateVFSOverlay: return "Could not create VFS Overlay"; case BuildPreambleError::BeginSourceFileFailed: return "BeginSourceFile() return an error"; case BuildPreambleError::CouldntEmitPCH: return "Could not emit PCH"; } llvm_unreachable("unexpected BuildPreambleError"); }