[clangd] [Modules] Support Reusable Modules Builder

clang-tools-extra/clangd/ModulesBuilder.cpp

@@ -13,6 +13,8 @@
 #include "clang/Frontend/FrontendActions.h"
 #include "clang/Serialization/ASTReader.h"
 #include "clang/Serialization/InMemoryModuleCache.h"
+#include "llvm/ADT/ScopeExit.h"
+#include <queue>
 
 namespace clang {
 namespace clangd {
@@ -124,6 +126,11 @@ struct ModuleFile {
       llvm::sys::fs::remove(ModuleFilePath);
   }
 
+  StringRef getModuleName() const { return ModuleName; }
+
+  StringRef getModuleFilePath() const { return ModuleFilePath; }
+
+private:
   std::string ModuleName;
   std::string ModuleFilePath;
 };
@@ -192,33 +199,28 @@ bool IsModuleFilesUpToDate(
       });
 }
 
-// StandalonePrerequisiteModules - stands for PrerequisiteModules for which all
+// ReusablePrerequisiteModules - stands for PrerequisiteModules for which all
 // the required modules are built successfully. All the module files
-// are owned by the StandalonePrerequisiteModules class.
-//
-// Any of the built module files won't be shared with other instances of the
-// class. So that we can avoid worrying thread safety.
-//
-// We don't need to worry about duplicated module names here since the standard
-// guarantees the module names should be unique to a program.
-class StandalonePrerequisiteModules : public PrerequisiteModules {
+// are owned by the modules builder.
+class ReusablePrerequisiteModules : public PrerequisiteModules {
 public:
-  StandalonePrerequisiteModules() = default;
+  ReusablePrerequisiteModules() = default;
 
-  StandalonePrerequisiteModules(const StandalonePrerequisiteModules &) = delete;
-  StandalonePrerequisiteModules
-  operator=(const StandalonePrerequisiteModules &) = delete;
-  StandalonePrerequisiteModules(StandalonePrerequisiteModules &&) = delete;
-  StandalonePrerequisiteModules
-  operator=(StandalonePrerequisiteModules &&) = delete;
+  ReusablePrerequisiteModules(const ReusablePrerequisiteModules &) = delete;
+  ReusablePrerequisiteModules
+  operator=(const ReusablePrerequisiteModules &) = delete;
+  ReusablePrerequisiteModules(ReusablePrerequisiteModules &&) = delete;
+  ReusablePrerequisiteModules
+  operator=(ReusablePrerequisiteModules &&) = delete;
 
-  ~StandalonePrerequisiteModules() override = default;
+  ~ReusablePrerequisiteModules() override = default;
 
   void adjustHeaderSearchOptions(HeaderSearchOptions &Options) const override {
     // Appending all built module files.
     for (auto &RequiredModule : RequiredModules)
       Options.PrebuiltModuleFiles.insert_or_assign(
-          RequiredModule.ModuleName, RequiredModule.ModuleFilePath);
+          RequiredModule->getModuleName().str(),
+          RequiredModule->getModuleFilePath().str());
   }
 
   bool canReuse(const CompilerInvocation &CI,
@@ -228,54 +230,30 @@ class StandalonePrerequisiteModules : public PrerequisiteModules {
     return BuiltModuleNames.contains(ModuleName);
   }
 
-  void addModuleFile(llvm::StringRef ModuleName,
-                     llvm::StringRef ModuleFilePath) {
-    RequiredModules.emplace_back(ModuleName, ModuleFilePath);
-    BuiltModuleNames.insert(ModuleName);
+  void addModuleFile(std::shared_ptr<ModuleFile> BMI) {
+    BuiltModuleNames.insert(BMI->getModuleName());
+    RequiredModules.emplace_back(std::move(BMI));
   }
 
 private:
-  llvm::SmallVector<ModuleFile, 8> RequiredModules;
+  llvm::SmallVector<std::shared_ptr<ModuleFile>, 8> RequiredModules;
   // A helper class to speedup the query if a module is built.
   llvm::StringSet<> BuiltModuleNames;
 };
 
-// Build a module file for module with `ModuleName`. The information of built
-// module file are stored in \param BuiltModuleFiles.
-llvm::Error buildModuleFile(llvm::StringRef ModuleName,
-                            const GlobalCompilationDatabase &CDB,
-                            const ThreadsafeFS &TFS, ProjectModules &MDB,
-                            PathRef ModuleFilesPrefix,
-                            StandalonePrerequisiteModules &BuiltModuleFiles) {
-  if (BuiltModuleFiles.isModuleUnitBuilt(ModuleName))
-    return llvm::Error::success();
-
-  PathRef ModuleUnitFileName = MDB.getSourceForModuleName(ModuleName);
-  // It is possible that we're meeting third party modules (modules whose
-  // source are not in the project. e.g, the std module may be a third-party
-  // module for most projects) or something wrong with the implementation of
-  // ProjectModules.
-  // FIXME: How should we treat third party modules here? If we want to ignore
-  // third party modules, we should return true instead of false here.
-  // Currently we simply bail out.
-  if (ModuleUnitFileName.empty())
-    return llvm::createStringError("Failed to get the primary source");
-
+/// Build a module file for module with `ModuleName`. The information of built
+/// module file are stored in \param BuiltModuleFiles.
+llvm::Expected<ModuleFile>
+buildModuleFile(llvm::StringRef ModuleName, PathRef ModuleUnitFileName,
+                const GlobalCompilationDatabase &CDB, const ThreadsafeFS &TFS,
+                PathRef ModuleFilesPrefix,
+                const ReusablePrerequisiteModules &BuiltModuleFiles) {
   // Try cheap operation earlier to boil-out cheaply if there are problems.
   auto Cmd = CDB.getCompileCommand(ModuleUnitFileName);
   if (!Cmd)
     return llvm::createStringError(
         llvm::formatv("No compile command for {0}", ModuleUnitFileName));
 
-  for (auto &RequiredModuleName : MDB.getRequiredModules(ModuleUnitFileName)) {
-    // Return early if there are errors building the module file.
-    if (llvm::Error Err = buildModuleFile(RequiredModuleName, CDB, TFS, MDB,
-                                          ModuleFilesPrefix, BuiltModuleFiles))
-      return llvm::createStringError(
-          llvm::formatv("Failed to build dependency {0}: {1}",
-                        RequiredModuleName, llvm::toString(std::move(Err))));
-  }
-
   Cmd->Output = getModuleFilePath(ModuleName, ModuleFilesPrefix);
 
   ParseInputs Inputs;
@@ -316,36 +294,205 @@ llvm::Error buildModuleFile(llvm::StringRef ModuleName,
   if (Clang->getDiagnostics().hasErrorOccurred())
     return llvm::createStringError("Compilation failed");
 
-  BuiltModuleFiles.addModuleFile(ModuleName, Inputs.CompileCommand.Output);
-  return llvm::Error::success();
+  return ModuleFile{ModuleName, Inputs.CompileCommand.Output};
+}
+
+bool ReusablePrerequisiteModules::canReuse(
+    const CompilerInvocation &CI,
+    llvm::IntrusiveRefCntPtr<llvm::vfs::FileSystem> VFS) const {
+  if (RequiredModules.empty())
+    return true;
+
+  SmallVector<StringRef> BMIPaths;
+  for (auto &MF : RequiredModules)
+    BMIPaths.push_back(MF->getModuleFilePath());
+  return IsModuleFilesUpToDate(BMIPaths, *this, VFS);
+}
+
+class ModuleFileCache {
+public:
+  ModuleFileCache(const GlobalCompilationDatabase &CDB) : CDB(CDB) {}
+
+  llvm::Error
+  getOrBuildModuleFile(StringRef ModuleName, const ThreadsafeFS &TFS,
+                       ProjectModules &MDB,
+                       ReusablePrerequisiteModules &RequiredModules);
+  const GlobalCompilationDatabase &getCDB() const { return CDB; }
+
+  std::shared_ptr<ModuleFile>
+  getValidModuleFile(StringRef ModuleName, ProjectModules &MDB,
+                     const ThreadsafeFS &TFS,
+                     PrerequisiteModules &BuiltModuleFiles);
+
+  void add(StringRef ModuleName, std::shared_ptr<ModuleFile> ModuleFile) {
+    std::lock_guard<std::mutex> _(ModuleFilesMutex);
+
+    ModuleFiles.insert_or_assign(ModuleName, ModuleFile);
+  }
+
+private:
+  const GlobalCompilationDatabase &CDB;
+
+  llvm::StringMap<std::shared_ptr<ModuleFile>> ModuleFiles;
+  // Mutex to guard accesses to ModuleFiles.
+  std::mutex ModuleFilesMutex;
+};
+
+/// Collect the directly and indirectly required module names for \param
+/// ModuleName. The \param ModuleName is guaranteed to be the first element in
+/// \param ModuleNames.
+void getAllRequiredModules(ProjectModules &MDB, StringRef ModuleName,
+                           llvm::SmallVector<StringRef> &ModuleNames) {
+  std::queue<StringRef> Worklist;
+  llvm::StringSet<> ModuleNamesSet;
+  Worklist.push(ModuleName);
+
+  while (!Worklist.empty()) {
+    StringRef CurrentModule = Worklist.front();
+    Worklist.pop();
+
+    if (!ModuleNamesSet.insert(CurrentModule).second)
+      continue;
+
+    ModuleNames.push_back(CurrentModule);
+
+    for (StringRef RequiredModuleName :
+         MDB.getRequiredModules(MDB.getSourceForModuleName(CurrentModule)))
+      if (!ModuleNamesSet.contains(RequiredModuleName))
+        Worklist.push(RequiredModuleName);
+  }
+}
+
+std::shared_ptr<ModuleFile>
+ModuleFileCache::getValidModuleFile(StringRef ModuleName, ProjectModules &MDB,
+                                    const ThreadsafeFS &TFS,
+                                    PrerequisiteModules &BuiltModuleFiles) {
+  {
+    std::lock_guard<std::mutex> _(ModuleFilesMutex);
+
+    if (ModuleFiles.find(ModuleName) == ModuleFiles.end())
+      return nullptr;
+  }
+
+  llvm::SmallVector<StringRef> ModuleNames;
+  getAllRequiredModules(MDB, ModuleName, ModuleNames);
+
+  llvm::SmallVector<std::shared_ptr<ModuleFile>> RequiredModuleFiles;
+
+  {
+    std::lock_guard<std::mutex> _(ModuleFilesMutex);
+
+    for (StringRef ModuleName : ModuleNames) {
+      auto Iter = ModuleFiles.find(ModuleName);
+      if (Iter == ModuleFiles.end())
+        return nullptr;
+
+      RequiredModuleFiles.push_back(Iter->second);
+    }
+  }
+
+  if (RequiredModuleFiles.empty())
+    return nullptr;
+
+  if (llvm::all_of(RequiredModuleFiles, [&](auto MF) {
+        return IsModuleFileUpToDate(MF->getModuleFilePath(), BuiltModuleFiles,
+                                    TFS.view(std::nullopt));
+      }))
+    return RequiredModuleFiles[0];
+
+  return nullptr;
 }
 } // namespace
 
+class ModulesBuilder::ModulesBuilderImpl {
+public:
+  ModulesBuilderImpl(const GlobalCompilationDatabase &CDB) : Cache(CDB) {}
+
+  const GlobalCompilationDatabase &getCDB() const { return Cache.getCDB(); }
+
+  llvm::Error
+  getOrBuildModuleFile(StringRef ModuleName, const ThreadsafeFS &TFS,
+                       ProjectModules &MDB,
+                       ReusablePrerequisiteModules &BuiltModuleFiles);
+
+private:
+  ModuleFileCache Cache;
+};
+
+llvm::Error ModulesBuilder::ModulesBuilderImpl::getOrBuildModuleFile(
+    StringRef ModuleName, const ThreadsafeFS &TFS, ProjectModules &MDB,
+    ReusablePrerequisiteModules &BuiltModuleFiles) {
+  if (BuiltModuleFiles.isModuleUnitBuilt(ModuleName))
+    return llvm::Error::success();
+
+  PathRef ModuleUnitFileName = MDB.getSourceForModuleName(ModuleName);
+  /// It is possible that we're meeting third party modules (modules whose
+  /// source are not in the project. e.g, the std module may be a third-party
+  /// module for most project) or something wrong with the implementation of
+  /// ProjectModules.
+  /// FIXME: How should we treat third party modules here? If we want to ignore
+  /// third party modules, we should return true instead of false here.
+  /// Currently we simply bail out.
+  if (ModuleUnitFileName.empty())
+    return llvm::createStringError(
+        llvm::formatv("Don't get the module unit for module {0}", ModuleName));
+
+  for (auto &RequiredModuleName : MDB.getRequiredModules(ModuleUnitFileName))
+    // Return early if there are errors building the module file.
+    if (!getOrBuildModuleFile(RequiredModuleName, TFS, MDB, BuiltModuleFiles))
+      return llvm::createStringError(
+          llvm::formatv("Failed to build module {0}", RequiredModuleName));
+
+  if (std::shared_ptr<ModuleFile> Cached =
+          Cache.getValidModuleFile(ModuleName, MDB, TFS, BuiltModuleFiles)) {
+    log("Reusing module {0} from {1}", ModuleName, Cached->getModuleFilePath());
+    BuiltModuleFiles.addModuleFile(Cached);
+    return llvm::Error::success();
+  }
+
+  log("Building module {0}", ModuleName);
+
+  llvm::SmallString<256> ModuleFilesPrefix =
+      getUniqueModuleFilesPath(ModuleUnitFileName);
+
+  llvm::Expected<ModuleFile> MF =
+      buildModuleFile(ModuleName, ModuleUnitFileName, getCDB(), TFS,
+                      ModuleFilesPrefix, BuiltModuleFiles);
+  if (llvm::Error Err = MF.takeError())
+    return Err;
+
+  log("Built module {0} to {1}", ModuleName, MF->getModuleFilePath());
+  auto BuiltModuleFile = std::make_shared<ModuleFile>(std::move(*MF));
+  Cache.add(ModuleName, BuiltModuleFile);
+  BuiltModuleFiles.addModuleFile(std::move(BuiltModuleFile));
+
+  return llvm::Error::success();
+}
+
 std::unique_ptr<PrerequisiteModules>
 ModulesBuilder::buildPrerequisiteModulesFor(PathRef File,
-                                            const ThreadsafeFS &TFS) const {
-  std::unique_ptr<ProjectModules> MDB = CDB.getProjectModules(File);
+                                            const ThreadsafeFS &TFS) {
+  std::unique_ptr<ProjectModules> MDB = Impl->getCDB().getProjectModules(File);
   if (!MDB) {
     elog("Failed to get Project Modules information for {0}", File);
     return std::make_unique<FailedPrerequisiteModules>();
   }
 
   std::vector<std::string> RequiredModuleNames = MDB->getRequiredModules(File);
   if (RequiredModuleNames.empty())
-    return std::make_unique<StandalonePrerequisiteModules>();
+    return std::make_unique<ReusablePrerequisiteModules>();
 
   llvm::SmallString<256> ModuleFilesPrefix = getUniqueModuleFilesPath(File);
 
   log("Trying to build required modules for {0} in {1}", File,
       ModuleFilesPrefix);
 
-  auto RequiredModules = std::make_unique<StandalonePrerequisiteModules>();
+  auto RequiredModules = std::make_unique<ReusablePrerequisiteModules>();
 
   for (llvm::StringRef RequiredModuleName : RequiredModuleNames) {
     // Return early if there is any error.
-    if (llvm::Error Err =
-            buildModuleFile(RequiredModuleName, CDB, TFS, *MDB.get(),
-                            ModuleFilesPrefix, *RequiredModules.get())) {
+    if (llvm::Error Err = Impl->getOrBuildModuleFile(
+            RequiredModuleName, TFS, *MDB.get(), *RequiredModules.get())) {
       elog("Failed to build module {0}; due to {1}", RequiredModuleName,
            toString(std::move(Err)));
       return std::make_unique<FailedPrerequisiteModules>();
@@ -357,17 +504,11 @@ ModulesBuilder::buildPrerequisiteModulesFor(PathRef File,
   return std::move(RequiredModules);
 }
 
-bool StandalonePrerequisiteModules::canReuse(
-    const CompilerInvocation &CI,
-    llvm::IntrusiveRefCntPtr<llvm::vfs::FileSystem> VFS) const {
-  if (RequiredModules.empty())
-    return true;
-
-  SmallVector<StringRef> BMIPaths;
-  for (auto &MF : RequiredModules)
-    BMIPaths.push_back(MF.ModuleFilePath);
-  return IsModuleFilesUpToDate(BMIPaths, *this, VFS);
+ModulesBuilder::ModulesBuilder(const GlobalCompilationDatabase &CDB) {
+  Impl = std::make_unique<ModulesBuilderImpl>(CDB);
 }
 
+ModulesBuilder::~ModulesBuilder() {}
+
 } // namespace clangd
 } // namespace clang

clang-tools-extra/clangd/ModulesBuilder.h

@@ -85,7 +85,8 @@ class PrerequisiteModules {
 /// different versions and different source files.
 class ModulesBuilder {
 public:
-  ModulesBuilder(const GlobalCompilationDatabase &CDB) : CDB(CDB) {}
+  ModulesBuilder(const GlobalCompilationDatabase &CDB);
+  ~ModulesBuilder();
 
   ModulesBuilder(const ModulesBuilder &) = delete;
   ModulesBuilder(ModulesBuilder &&) = delete;
@@ -94,10 +95,11 @@ class ModulesBuilder {
   ModulesBuilder &operator=(ModulesBuilder &&) = delete;
 
   std::unique_ptr<PrerequisiteModules>
-  buildPrerequisiteModulesFor(PathRef File, const ThreadsafeFS &TFS) const;
+  buildPrerequisiteModulesFor(PathRef File, const ThreadsafeFS &TFS);
 
 private:
-  const GlobalCompilationDatabase &CDB;
+  class ModulesBuilderImpl;
+  std::unique_ptr<ModulesBuilderImpl> Impl;
 };
 
 } // namespace clangd