//===- ModuleDepCollector.cpp - Callbacks to collect deps -------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "clang/Tooling/DependencyScanning/ModuleDepCollector.h" #include "clang/Basic/MakeSupport.h" #include "clang/Frontend/CompilerInstance.h" #include "clang/Lex/Preprocessor.h" #include "clang/Tooling/DependencyScanning/DependencyScanningWorker.h" #include "llvm/ADT/STLExtras.h" #include "llvm/Support/BLAKE3.h" #include "llvm/Support/StringSaver.h" #include using namespace clang; using namespace tooling; using namespace dependencies; const std::vector &ModuleDeps::getBuildArguments() { assert(!std::holds_alternative(BuildInfo) && "Using uninitialized ModuleDeps"); if (const auto *CI = std::get_if(&BuildInfo)) BuildInfo = CI->getCC1CommandLine(); return std::get>(BuildInfo); } static void optimizeHeaderSearchOpts(HeaderSearchOptions &Opts, ASTReader &Reader, const serialization::ModuleFile &MF, const PrebuiltModuleVFSMapT &PrebuiltModuleVFSMap, ScanningOptimizations OptimizeArgs) { if (any(OptimizeArgs & ScanningOptimizations::HeaderSearch)) { // Only preserve search paths that were used during the dependency scan. std::vector Entries; std::swap(Opts.UserEntries, Entries); llvm::BitVector SearchPathUsage(Entries.size()); llvm::DenseSet Visited; std::function VisitMF = [&](const serialization::ModuleFile *MF) { SearchPathUsage |= MF->SearchPathUsage; Visited.insert(MF); for (const serialization::ModuleFile *Import : MF->Imports) if (!Visited.contains(Import)) VisitMF(Import); }; VisitMF(&MF); if (SearchPathUsage.size() != Entries.size()) llvm::report_fatal_error( "Inconsistent search path options between modules detected"); for (auto Idx : SearchPathUsage.set_bits()) Opts.UserEntries.push_back(std::move(Entries[Idx])); } if (any(OptimizeArgs & ScanningOptimizations::VFS)) { std::vector VFSOverlayFiles; std::swap(Opts.VFSOverlayFiles, VFSOverlayFiles); llvm::BitVector VFSUsage(VFSOverlayFiles.size()); llvm::DenseSet Visited; std::function VisitMF = [&](const serialization::ModuleFile *MF) { Visited.insert(MF); if (MF->Kind == serialization::MK_ImplicitModule) { VFSUsage |= MF->VFSUsage; // We only need to recurse into implicit modules. Other module types // will have the correct set of VFSs for anything they depend on. for (const serialization::ModuleFile *Import : MF->Imports) if (!Visited.contains(Import)) VisitMF(Import); } else { // This is not an implicitly built module, so it may have different // VFS options. Fall back to a string comparison instead. auto VFSMap = PrebuiltModuleVFSMap.find(MF->FileName); if (VFSMap == PrebuiltModuleVFSMap.end()) return; for (std::size_t I = 0, E = VFSOverlayFiles.size(); I != E; ++I) { if (VFSMap->second.contains(VFSOverlayFiles[I])) VFSUsage[I] = true; } } }; VisitMF(&MF); if (VFSUsage.size() != VFSOverlayFiles.size()) llvm::report_fatal_error( "Inconsistent -ivfsoverlay options between modules detected"); for (auto Idx : VFSUsage.set_bits()) Opts.VFSOverlayFiles.push_back(std::move(VFSOverlayFiles[Idx])); } } static void optimizeDiagnosticOpts(DiagnosticOptions &Opts, bool IsSystemModule) { // If this is not a system module or -Wsystem-headers was passed, don't // optimize. if (!IsSystemModule) return; bool Wsystem_headers = false; for (StringRef Opt : Opts.Warnings) { bool isPositive = !Opt.consume_front("no-"); if (Opt == "system-headers") Wsystem_headers = isPositive; } if (Wsystem_headers) return; // Remove all warning flags. System modules suppress most, but not all, // warnings. Opts.Warnings.clear(); Opts.UndefPrefixes.clear(); Opts.Remarks.clear(); } static std::vector splitString(std::string S, char Separator) { SmallVector Segments; StringRef(S).split(Segments, Separator, /*MaxSplit=*/-1, /*KeepEmpty=*/false); std::vector Result; Result.reserve(Segments.size()); for (StringRef Segment : Segments) Result.push_back(Segment.str()); return Result; } void ModuleDepCollector::addOutputPaths(CowCompilerInvocation &CI, ModuleDeps &Deps) { CI.getMutFrontendOpts().OutputFile = Controller.lookupModuleOutput(Deps.ID, ModuleOutputKind::ModuleFile); if (!CI.getDiagnosticOpts().DiagnosticSerializationFile.empty()) CI.getMutDiagnosticOpts().DiagnosticSerializationFile = Controller.lookupModuleOutput( Deps.ID, ModuleOutputKind::DiagnosticSerializationFile); if (!CI.getDependencyOutputOpts().OutputFile.empty()) { CI.getMutDependencyOutputOpts().OutputFile = Controller.lookupModuleOutput( Deps.ID, ModuleOutputKind::DependencyFile); CI.getMutDependencyOutputOpts().Targets = splitString(Controller.lookupModuleOutput( Deps.ID, ModuleOutputKind::DependencyTargets), '\0'); if (!CI.getDependencyOutputOpts().OutputFile.empty() && CI.getDependencyOutputOpts().Targets.empty()) { // Fallback to -o as dependency target, as in the driver. SmallString<128> Target; quoteMakeTarget(CI.getFrontendOpts().OutputFile, Target); CI.getMutDependencyOutputOpts().Targets.push_back(std::string(Target)); } } } void dependencies::resetBenignCodeGenOptions(frontend::ActionKind ProgramAction, const LangOptions &LangOpts, CodeGenOptions &CGOpts) { // TODO: Figure out better way to set options to their default value. if (ProgramAction == frontend::GenerateModule) { CGOpts.MainFileName.clear(); CGOpts.DwarfDebugFlags.clear(); } if (ProgramAction == frontend::GeneratePCH || (ProgramAction == frontend::GenerateModule && !LangOpts.ModulesCodegen)) { CGOpts.DebugCompilationDir.clear(); CGOpts.CoverageCompilationDir.clear(); CGOpts.CoverageDataFile.clear(); CGOpts.CoverageNotesFile.clear(); CGOpts.ProfileInstrumentUsePath.clear(); CGOpts.SampleProfileFile.clear(); CGOpts.ProfileRemappingFile.clear(); } } static CowCompilerInvocation makeCommonInvocationForModuleBuild(CompilerInvocation CI) { CI.resetNonModularOptions(); CI.clearImplicitModuleBuildOptions(); // Remove options incompatible with explicit module build or are likely to // differ between identical modules discovered from different translation // units. CI.getFrontendOpts().Inputs.clear(); CI.getFrontendOpts().OutputFile.clear(); // LLVM options are not going to affect the AST CI.getFrontendOpts().LLVMArgs.clear(); resetBenignCodeGenOptions(frontend::GenerateModule, CI.getLangOpts(), CI.getCodeGenOpts()); // Map output paths that affect behaviour to "-" so their existence is in the // context hash. The final path will be computed in addOutputPaths. if (!CI.getDiagnosticOpts().DiagnosticSerializationFile.empty()) CI.getDiagnosticOpts().DiagnosticSerializationFile = "-"; if (!CI.getDependencyOutputOpts().OutputFile.empty()) CI.getDependencyOutputOpts().OutputFile = "-"; CI.getDependencyOutputOpts().Targets.clear(); CI.getFrontendOpts().ProgramAction = frontend::GenerateModule; CI.getFrontendOpts().ARCMTAction = FrontendOptions::ARCMT_None; CI.getFrontendOpts().ObjCMTAction = FrontendOptions::ObjCMT_None; CI.getFrontendOpts().MTMigrateDir.clear(); CI.getLangOpts().ModuleName.clear(); // Remove any macro definitions that are explicitly ignored. if (!CI.getHeaderSearchOpts().ModulesIgnoreMacros.empty()) { llvm::erase_if( CI.getPreprocessorOpts().Macros, [&CI](const std::pair &Def) { StringRef MacroDef = Def.first; return CI.getHeaderSearchOpts().ModulesIgnoreMacros.contains( llvm::CachedHashString(MacroDef.split('=').first)); }); // Remove the now unused option. CI.getHeaderSearchOpts().ModulesIgnoreMacros.clear(); } return CI; } CowCompilerInvocation ModuleDepCollector::getInvocationAdjustedForModuleBuildWithoutOutputs( const ModuleDeps &Deps, llvm::function_ref Optimize) const { CowCompilerInvocation CI = CommonInvocation; CI.getMutLangOpts().ModuleName = Deps.ID.ModuleName; CI.getMutFrontendOpts().IsSystemModule = Deps.IsSystem; // Inputs InputKind ModuleMapInputKind(CI.getFrontendOpts().DashX.getLanguage(), InputKind::Format::ModuleMap); CI.getMutFrontendOpts().Inputs.emplace_back(Deps.ClangModuleMapFile, ModuleMapInputKind); auto CurrentModuleMapEntry = ScanInstance.getFileManager().getFile(Deps.ClangModuleMapFile); assert(CurrentModuleMapEntry && "module map file entry not found"); // Remove directly passed modulemap files. They will get added back if they // were actually used. CI.getMutFrontendOpts().ModuleMapFiles.clear(); auto DepModuleMapFiles = collectModuleMapFiles(Deps.ClangModuleDeps); for (StringRef ModuleMapFile : Deps.ModuleMapFileDeps) { // TODO: Track these as `FileEntryRef` to simplify the equality check below. auto ModuleMapEntry = ScanInstance.getFileManager().getFile(ModuleMapFile); assert(ModuleMapEntry && "module map file entry not found"); // Don't report module maps describing eagerly-loaded dependency. This // information will be deserialized from the PCM. // TODO: Verify this works fine when modulemap for module A is eagerly // loaded from A.pcm, and module map passed on the command line contains // definition of a submodule: "explicit module A.Private { ... }". if (EagerLoadModules && DepModuleMapFiles.contains(*ModuleMapEntry)) continue; // Don't report module map file of the current module unless it also // describes a dependency (for symmetry). if (*ModuleMapEntry == *CurrentModuleMapEntry && !DepModuleMapFiles.contains(*ModuleMapEntry)) continue; CI.getMutFrontendOpts().ModuleMapFiles.emplace_back(ModuleMapFile); } // Report the prebuilt modules this module uses. for (const auto &PrebuiltModule : Deps.PrebuiltModuleDeps) CI.getMutFrontendOpts().ModuleFiles.push_back(PrebuiltModule.PCMFile); // Add module file inputs from dependencies. addModuleFiles(CI, Deps.ClangModuleDeps); if (!CI.getDiagnosticOpts().SystemHeaderWarningsModules.empty()) { // Apply -Wsystem-headers-in-module for the current module. if (llvm::is_contained(CI.getDiagnosticOpts().SystemHeaderWarningsModules, Deps.ID.ModuleName)) CI.getMutDiagnosticOpts().Warnings.push_back("system-headers"); // Remove the now unused option(s). CI.getMutDiagnosticOpts().SystemHeaderWarningsModules.clear(); } Optimize(CI); return CI; } llvm::DenseSet ModuleDepCollector::collectModuleMapFiles( ArrayRef ClangModuleDeps) const { llvm::DenseSet ModuleMapFiles; for (const ModuleID &MID : ClangModuleDeps) { ModuleDeps *MD = ModuleDepsByID.lookup(MID); assert(MD && "Inconsistent dependency info"); // TODO: Track ClangModuleMapFile as `FileEntryRef`. auto FE = ScanInstance.getFileManager().getFile(MD->ClangModuleMapFile); assert(FE && "Missing module map file that was previously found"); ModuleMapFiles.insert(*FE); } return ModuleMapFiles; } void ModuleDepCollector::addModuleMapFiles( CompilerInvocation &CI, ArrayRef ClangModuleDeps) const { if (EagerLoadModules) return; // Only pcm is needed for eager load. for (const ModuleID &MID : ClangModuleDeps) { ModuleDeps *MD = ModuleDepsByID.lookup(MID); assert(MD && "Inconsistent dependency info"); CI.getFrontendOpts().ModuleMapFiles.push_back(MD->ClangModuleMapFile); } } void ModuleDepCollector::addModuleFiles( CompilerInvocation &CI, ArrayRef ClangModuleDeps) const { for (const ModuleID &MID : ClangModuleDeps) { std::string PCMPath = Controller.lookupModuleOutput(MID, ModuleOutputKind::ModuleFile); if (EagerLoadModules) CI.getFrontendOpts().ModuleFiles.push_back(std::move(PCMPath)); else CI.getHeaderSearchOpts().PrebuiltModuleFiles.insert( {MID.ModuleName, std::move(PCMPath)}); } } void ModuleDepCollector::addModuleFiles( CowCompilerInvocation &CI, ArrayRef ClangModuleDeps) const { for (const ModuleID &MID : ClangModuleDeps) { std::string PCMPath = Controller.lookupModuleOutput(MID, ModuleOutputKind::ModuleFile); if (EagerLoadModules) CI.getMutFrontendOpts().ModuleFiles.push_back(std::move(PCMPath)); else CI.getMutHeaderSearchOpts().PrebuiltModuleFiles.insert( {MID.ModuleName, std::move(PCMPath)}); } } static bool needsModules(FrontendInputFile FIF) { switch (FIF.getKind().getLanguage()) { case Language::Unknown: case Language::Asm: case Language::LLVM_IR: return false; default: return true; } } void ModuleDepCollector::applyDiscoveredDependencies(CompilerInvocation &CI) { CI.clearImplicitModuleBuildOptions(); resetBenignCodeGenOptions(CI.getFrontendOpts().ProgramAction, CI.getLangOpts(), CI.getCodeGenOpts()); if (llvm::any_of(CI.getFrontendOpts().Inputs, needsModules)) { Preprocessor &PP = ScanInstance.getPreprocessor(); if (Module *CurrentModule = PP.getCurrentModuleImplementation()) if (OptionalFileEntryRef CurrentModuleMap = PP.getHeaderSearchInfo() .getModuleMap() .getModuleMapFileForUniquing(CurrentModule)) CI.getFrontendOpts().ModuleMapFiles.emplace_back( CurrentModuleMap->getNameAsRequested()); SmallVector DirectDeps; for (const auto &KV : ModularDeps) if (DirectModularDeps.contains(KV.first)) DirectDeps.push_back(KV.second->ID); // TODO: Report module maps the same way it's done for modular dependencies. addModuleMapFiles(CI, DirectDeps); addModuleFiles(CI, DirectDeps); for (const auto &KV : DirectPrebuiltModularDeps) CI.getFrontendOpts().ModuleFiles.push_back(KV.second.PCMFile); } } static std::string getModuleContextHash(const ModuleDeps &MD, const CowCompilerInvocation &CI, bool EagerLoadModules, llvm::vfs::FileSystem &VFS) { llvm::HashBuilder, llvm::endianness::native> HashBuilder; SmallString<32> Scratch; // Hash the compiler version and serialization version to ensure the module // will be readable. HashBuilder.add(getClangFullRepositoryVersion()); HashBuilder.add(serialization::VERSION_MAJOR, serialization::VERSION_MINOR); llvm::ErrorOr CWD = VFS.getCurrentWorkingDirectory(); if (CWD) HashBuilder.add(*CWD); // Hash the BuildInvocation without any input files. SmallString<0> ArgVec; ArgVec.reserve(4096); CI.generateCC1CommandLine([&](const Twine &Arg) { Arg.toVector(ArgVec); ArgVec.push_back('\0'); }); HashBuilder.add(ArgVec); // Hash the module dependencies. These paths may differ even if the invocation // is identical if they depend on the contents of the files in the TU -- for // example, case-insensitive paths to modulemap files. Usually such a case // would indicate a missed optimization to canonicalize, but it may be // difficult to canonicalize all cases when there is a VFS. for (const auto &ID : MD.ClangModuleDeps) { HashBuilder.add(ID.ModuleName); HashBuilder.add(ID.ContextHash); } HashBuilder.add(EagerLoadModules); llvm::BLAKE3Result<16> Hash = HashBuilder.final(); std::array Words; static_assert(sizeof(Hash) == sizeof(Words), "Hash must match Words"); std::memcpy(Words.data(), Hash.data(), sizeof(Hash)); return toString(llvm::APInt(sizeof(Words) * 8, Words), 36, /*Signed=*/false); } void ModuleDepCollector::associateWithContextHash( const CowCompilerInvocation &CI, ModuleDeps &Deps) { Deps.ID.ContextHash = getModuleContextHash( Deps, CI, EagerLoadModules, ScanInstance.getVirtualFileSystem()); bool Inserted = ModuleDepsByID.insert({Deps.ID, &Deps}).second; (void)Inserted; assert(Inserted && "duplicate module mapping"); } void ModuleDepCollectorPP::LexedFileChanged(FileID FID, LexedFileChangeReason Reason, SrcMgr::CharacteristicKind FileType, FileID PrevFID, SourceLocation Loc) { if (Reason != LexedFileChangeReason::EnterFile) return; // This has to be delayed as the context hash can change at the start of // `CompilerInstance::ExecuteAction`. if (MDC.ContextHash.empty()) { MDC.ContextHash = MDC.ScanInstance.getInvocation().getModuleHash(); MDC.Consumer.handleContextHash(MDC.ContextHash); } SourceManager &SM = MDC.ScanInstance.getSourceManager(); // Dependency generation really does want to go all the way to the // file entry for a source location to find out what is depended on. // We do not want #line markers to affect dependency generation! if (std::optional Filename = SM.getNonBuiltinFilenameForID(FID)) MDC.addFileDep(llvm::sys::path::remove_leading_dotslash(*Filename)); } void ModuleDepCollectorPP::InclusionDirective( SourceLocation HashLoc, const Token &IncludeTok, StringRef FileName, bool IsAngled, CharSourceRange FilenameRange, OptionalFileEntryRef File, StringRef SearchPath, StringRef RelativePath, const Module *SuggestedModule, bool ModuleImported, SrcMgr::CharacteristicKind FileType) { if (!File && !ModuleImported) { // This is a non-modular include that HeaderSearch failed to find. Add it // here as `FileChanged` will never see it. MDC.addFileDep(FileName); } handleImport(SuggestedModule); } void ModuleDepCollectorPP::moduleImport(SourceLocation ImportLoc, ModuleIdPath Path, const Module *Imported) { if (MDC.ScanInstance.getPreprocessor().isInImportingCXXNamedModules()) { P1689ModuleInfo RequiredModule; RequiredModule.ModuleName = Path[0].first->getName().str(); RequiredModule.Type = P1689ModuleInfo::ModuleType::NamedCXXModule; MDC.RequiredStdCXXModules.push_back(RequiredModule); return; } handleImport(Imported); } void ModuleDepCollectorPP::handleImport(const Module *Imported) { if (!Imported) return; const Module *TopLevelModule = Imported->getTopLevelModule(); if (MDC.isPrebuiltModule(TopLevelModule)) MDC.DirectPrebuiltModularDeps.insert( {TopLevelModule, PrebuiltModuleDep{TopLevelModule}}); else MDC.DirectModularDeps.insert(TopLevelModule); } void ModuleDepCollectorPP::EndOfMainFile() { FileID MainFileID = MDC.ScanInstance.getSourceManager().getMainFileID(); MDC.MainFile = std::string(MDC.ScanInstance.getSourceManager() .getFileEntryRefForID(MainFileID) ->getName()); auto &PP = MDC.ScanInstance.getPreprocessor(); if (PP.isInNamedModule()) { P1689ModuleInfo ProvidedModule; ProvidedModule.ModuleName = PP.getNamedModuleName(); ProvidedModule.Type = P1689ModuleInfo::ModuleType::NamedCXXModule; ProvidedModule.IsStdCXXModuleInterface = PP.isInNamedInterfaceUnit(); // Don't put implementation (non partition) unit as Provide. // Put the module as required instead. Since the implementation // unit will import the primary module implicitly. if (PP.isInImplementationUnit()) MDC.RequiredStdCXXModules.push_back(ProvidedModule); else MDC.ProvidedStdCXXModule = ProvidedModule; } if (!MDC.ScanInstance.getPreprocessorOpts().ImplicitPCHInclude.empty()) MDC.addFileDep(MDC.ScanInstance.getPreprocessorOpts().ImplicitPCHInclude); for (const Module *M : MDC.ScanInstance.getPreprocessor().getAffectingClangModules()) if (!MDC.isPrebuiltModule(M)) MDC.DirectModularDeps.insert(M); for (const Module *M : MDC.DirectModularDeps) handleTopLevelModule(M); MDC.Consumer.handleDependencyOutputOpts(*MDC.Opts); if (MDC.IsStdModuleP1689Format) MDC.Consumer.handleProvidedAndRequiredStdCXXModules( MDC.ProvidedStdCXXModule, MDC.RequiredStdCXXModules); for (auto &&I : MDC.ModularDeps) MDC.Consumer.handleModuleDependency(*I.second); for (const Module *M : MDC.DirectModularDeps) { auto It = MDC.ModularDeps.find(M); // Only report direct dependencies that were successfully handled. if (It != MDC.ModularDeps.end()) MDC.Consumer.handleDirectModuleDependency(MDC.ModularDeps[M]->ID); } for (auto &&I : MDC.FileDeps) MDC.Consumer.handleFileDependency(I); for (auto &&I : MDC.DirectPrebuiltModularDeps) MDC.Consumer.handlePrebuiltModuleDependency(I.second); } std::optional ModuleDepCollectorPP::handleTopLevelModule(const Module *M) { assert(M == M->getTopLevelModule() && "Expected top level module!"); // A top-level module might not be actually imported as a module when // -fmodule-name is used to compile a translation unit that imports this // module. In that case it can be skipped. The appropriate header // dependencies will still be reported as expected. if (!M->getASTFile()) return {}; // If this module has been handled already, just return its ID. auto ModI = MDC.ModularDeps.insert({M, nullptr}); if (!ModI.second) return ModI.first->second->ID; ModI.first->second = std::make_unique(); ModuleDeps &MD = *ModI.first->second; MD.ID.ModuleName = M->getFullModuleName(); MD.IsSystem = M->IsSystem; ModuleMap &ModMapInfo = MDC.ScanInstance.getPreprocessor().getHeaderSearchInfo().getModuleMap(); OptionalFileEntryRef ModuleMap = ModMapInfo.getModuleMapFileForUniquing(M); if (ModuleMap) { SmallString<128> Path = ModuleMap->getNameAsRequested(); ModMapInfo.canonicalizeModuleMapPath(Path); MD.ClangModuleMapFile = std::string(Path); } serialization::ModuleFile *MF = MDC.ScanInstance.getASTReader()->getModuleManager().lookup( *M->getASTFile()); MDC.ScanInstance.getASTReader()->visitInputFileInfos( *MF, /*IncludeSystem=*/true, [&](const serialization::InputFileInfo &IFI, bool IsSystem) { // __inferred_module.map is the result of the way in which an implicit // module build handles inferred modules. It adds an overlay VFS with // this file in the proper directory and relies on the rest of Clang to // handle it like normal. With explicitly built modules we don't need // to play VFS tricks, so replace it with the correct module map. if (StringRef(IFI.Filename).ends_with("__inferred_module.map")) { MDC.addFileDep(MD, ModuleMap->getName()); return; } MDC.addFileDep(MD, IFI.Filename); }); llvm::DenseSet SeenDeps; addAllSubmodulePrebuiltDeps(M, MD, SeenDeps); addAllSubmoduleDeps(M, MD, SeenDeps); addAllAffectingClangModules(M, MD, SeenDeps); MDC.ScanInstance.getASTReader()->visitInputFileInfos( *MF, /*IncludeSystem=*/true, [&](const serialization::InputFileInfo &IFI, bool IsSystem) { if (!(IFI.TopLevel && IFI.ModuleMap)) return; if (StringRef(IFI.FilenameAsRequested) .ends_with("__inferred_module.map")) return; MD.ModuleMapFileDeps.emplace_back(IFI.FilenameAsRequested); }); CowCompilerInvocation CI = MDC.getInvocationAdjustedForModuleBuildWithoutOutputs( MD, [&](CowCompilerInvocation &BuildInvocation) { if (any(MDC.OptimizeArgs & (ScanningOptimizations::HeaderSearch | ScanningOptimizations::VFS))) optimizeHeaderSearchOpts(BuildInvocation.getMutHeaderSearchOpts(), *MDC.ScanInstance.getASTReader(), *MF, MDC.PrebuiltModuleVFSMap, MDC.OptimizeArgs); if (any(MDC.OptimizeArgs & ScanningOptimizations::SystemWarnings)) optimizeDiagnosticOpts( BuildInvocation.getMutDiagnosticOpts(), BuildInvocation.getFrontendOpts().IsSystemModule); }); MDC.associateWithContextHash(CI, MD); // Finish the compiler invocation. Requires dependencies and the context hash. MDC.addOutputPaths(CI, MD); MD.BuildInfo = std::move(CI); return MD.ID; } static void forEachSubmoduleSorted(const Module *M, llvm::function_ref F) { // Submodule order depends on order of header includes for inferred submodules // we don't care about the exact order, so sort so that it's consistent across // TUs to improve sharing. SmallVector Submodules(M->submodules()); llvm::stable_sort(Submodules, [](const Module *A, const Module *B) { return A->Name < B->Name; }); for (const Module *SubM : Submodules) F(SubM); } void ModuleDepCollectorPP::addAllSubmodulePrebuiltDeps( const Module *M, ModuleDeps &MD, llvm::DenseSet &SeenSubmodules) { addModulePrebuiltDeps(M, MD, SeenSubmodules); forEachSubmoduleSorted(M, [&](const Module *SubM) { addAllSubmodulePrebuiltDeps(SubM, MD, SeenSubmodules); }); } void ModuleDepCollectorPP::addModulePrebuiltDeps( const Module *M, ModuleDeps &MD, llvm::DenseSet &SeenSubmodules) { for (const Module *Import : M->Imports) if (Import->getTopLevelModule() != M->getTopLevelModule()) if (MDC.isPrebuiltModule(Import->getTopLevelModule())) if (SeenSubmodules.insert(Import->getTopLevelModule()).second) MD.PrebuiltModuleDeps.emplace_back(Import->getTopLevelModule()); } void ModuleDepCollectorPP::addAllSubmoduleDeps( const Module *M, ModuleDeps &MD, llvm::DenseSet &AddedModules) { addModuleDep(M, MD, AddedModules); forEachSubmoduleSorted(M, [&](const Module *SubM) { addAllSubmoduleDeps(SubM, MD, AddedModules); }); } void ModuleDepCollectorPP::addModuleDep( const Module *M, ModuleDeps &MD, llvm::DenseSet &AddedModules) { for (const Module *Import : M->Imports) { if (Import->getTopLevelModule() != M->getTopLevelModule() && !MDC.isPrebuiltModule(Import)) { if (auto ImportID = handleTopLevelModule(Import->getTopLevelModule())) if (AddedModules.insert(Import->getTopLevelModule()).second) MD.ClangModuleDeps.push_back(*ImportID); } } } void ModuleDepCollectorPP::addAllAffectingClangModules( const Module *M, ModuleDeps &MD, llvm::DenseSet &AddedModules) { addAffectingClangModule(M, MD, AddedModules); for (const Module *SubM : M->submodules()) addAllAffectingClangModules(SubM, MD, AddedModules); } void ModuleDepCollectorPP::addAffectingClangModule( const Module *M, ModuleDeps &MD, llvm::DenseSet &AddedModules) { for (const Module *Affecting : M->AffectingClangModules) { assert(Affecting == Affecting->getTopLevelModule() && "Not quite import not top-level module"); if (Affecting != M->getTopLevelModule() && !MDC.isPrebuiltModule(Affecting)) { if (auto ImportID = handleTopLevelModule(Affecting)) if (AddedModules.insert(Affecting).second) MD.ClangModuleDeps.push_back(*ImportID); } } } ModuleDepCollector::ModuleDepCollector( std::unique_ptr Opts, CompilerInstance &ScanInstance, DependencyConsumer &C, DependencyActionController &Controller, CompilerInvocation OriginalCI, PrebuiltModuleVFSMapT PrebuiltModuleVFSMap, ScanningOptimizations OptimizeArgs, bool EagerLoadModules, bool IsStdModuleP1689Format) : ScanInstance(ScanInstance), Consumer(C), Controller(Controller), PrebuiltModuleVFSMap(std::move(PrebuiltModuleVFSMap)), Opts(std::move(Opts)), CommonInvocation( makeCommonInvocationForModuleBuild(std::move(OriginalCI))), OptimizeArgs(OptimizeArgs), EagerLoadModules(EagerLoadModules), IsStdModuleP1689Format(IsStdModuleP1689Format) {} void ModuleDepCollector::attachToPreprocessor(Preprocessor &PP) { PP.addPPCallbacks(std::make_unique(*this)); } void ModuleDepCollector::attachToASTReader(ASTReader &R) {} bool ModuleDepCollector::isPrebuiltModule(const Module *M) { std::string Name(M->getTopLevelModuleName()); const auto &PrebuiltModuleFiles = ScanInstance.getHeaderSearchOpts().PrebuiltModuleFiles; auto PrebuiltModuleFileIt = PrebuiltModuleFiles.find(Name); if (PrebuiltModuleFileIt == PrebuiltModuleFiles.end()) return false; assert("Prebuilt module came from the expected AST file" && PrebuiltModuleFileIt->second == M->getASTFile()->getName()); return true; } static StringRef makeAbsoluteAndPreferred(CompilerInstance &CI, StringRef Path, SmallVectorImpl &Storage) { if (llvm::sys::path::is_absolute(Path) && !llvm::sys::path::is_style_windows(llvm::sys::path::Style::native)) return Path; Storage.assign(Path.begin(), Path.end()); CI.getFileManager().makeAbsolutePath(Storage); llvm::sys::path::make_preferred(Storage); return StringRef(Storage.data(), Storage.size()); } void ModuleDepCollector::addFileDep(StringRef Path) { if (IsStdModuleP1689Format) { // Within P1689 format, we don't want all the paths to be absolute path // since it may violate the tranditional make style dependencies info. FileDeps.push_back(std::string(Path)); return; } llvm::SmallString<256> Storage; Path = makeAbsoluteAndPreferred(ScanInstance, Path, Storage); FileDeps.push_back(std::string(Path)); } void ModuleDepCollector::addFileDep(ModuleDeps &MD, StringRef Path) { if (IsStdModuleP1689Format) { MD.FileDeps.insert(Path); return; } llvm::SmallString<256> Storage; Path = makeAbsoluteAndPreferred(ScanInstance, Path, Storage); MD.FileDeps.insert(Path); }