//===--- ClangdServer.cpp - Main clangd server code --------------*- 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 "ClangdServer.h" #include "CodeComplete.h" #include "Config.h" #include "Diagnostics.h" #include "DumpAST.h" #include "FindSymbols.h" #include "Format.h" #include "HeaderSourceSwitch.h" #include "InlayHints.h" #include "ParsedAST.h" #include "Preamble.h" #include "Protocol.h" #include "SemanticHighlighting.h" #include "SemanticSelection.h" #include "SourceCode.h" #include "TUScheduler.h" #include "XRefs.h" #include "clang-include-cleaner/Record.h" #include "index/FileIndex.h" #include "index/Merge.h" #include "index/StdLib.h" #include "refactor/Rename.h" #include "refactor/Tweak.h" #include "support/Cancellation.h" #include "support/Context.h" #include "support/Logger.h" #include "support/MemoryTree.h" #include "support/ThreadsafeFS.h" #include "support/Trace.h" #include "clang/Basic/Stack.h" #include "clang/Format/Format.h" #include "clang/Lex/Preprocessor.h" #include "clang/Tooling/CompilationDatabase.h" #include "clang/Tooling/Core/Replacement.h" #include "llvm/ADT/ArrayRef.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/StringRef.h" #include "llvm/Support/Error.h" #include "llvm/Support/Path.h" #include "llvm/Support/raw_ostream.h" #include #include #include #include #include #include #include #include #include #include namespace clang { namespace clangd { namespace { // Tracks number of times a tweak has been offered. static constexpr trace::Metric TweakAvailable( "tweak_available", trace::Metric::Counter, "tweak_id"); // Update the FileIndex with new ASTs and plumb the diagnostics responses. struct UpdateIndexCallbacks : public ParsingCallbacks { UpdateIndexCallbacks(FileIndex *FIndex, ClangdServer::Callbacks *ServerCallbacks, const ThreadsafeFS &TFS, AsyncTaskRunner *Tasks, bool CollectInactiveRegions) : FIndex(FIndex), ServerCallbacks(ServerCallbacks), TFS(TFS), Stdlib{std::make_shared()}, Tasks(Tasks), CollectInactiveRegions(CollectInactiveRegions) {} void onPreambleAST( PathRef Path, llvm::StringRef Version, CapturedASTCtx ASTCtx, std::shared_ptr PI) override { if (!FIndex) return; auto &PP = ASTCtx.getPreprocessor(); auto &CI = ASTCtx.getCompilerInvocation(); if (auto Loc = Stdlib->add(CI.getLangOpts(), PP.getHeaderSearchInfo())) indexStdlib(CI, std::move(*Loc)); // FIndex outlives the UpdateIndexCallbacks. auto Task = [FIndex(FIndex), Path(Path.str()), Version(Version.str()), ASTCtx(std::move(ASTCtx)), PI(std::move(PI))]() mutable { trace::Span Tracer("PreambleIndexing"); FIndex->updatePreamble(Path, Version, ASTCtx.getASTContext(), ASTCtx.getPreprocessor(), *PI); }; if (Tasks) { Tasks->runAsync("Preamble indexing for:" + Path + Version, std::move(Task)); } else Task(); } void indexStdlib(const CompilerInvocation &CI, StdLibLocation Loc) { // This task is owned by Tasks, which outlives the TUScheduler and // therefore the UpdateIndexCallbacks. // We must be careful that the references we capture outlive TUScheduler. auto Task = [LO(CI.getLangOpts()), Loc(std::move(Loc)), CI(std::make_unique(CI)), // External values that outlive ClangdServer TFS(&TFS), // Index outlives TUScheduler (declared first) FIndex(FIndex), // shared_ptr extends lifetime Stdlib(Stdlib), // We have some FS implementations that rely on information in // the context. Ctx(Context::current().clone())]() mutable { // Make sure we install the context into current thread. WithContext C(std::move(Ctx)); clang::noteBottomOfStack(); IndexFileIn IF; IF.Symbols = indexStandardLibrary(std::move(CI), Loc, *TFS); if (Stdlib->isBest(LO)) FIndex->updatePreamble(std::move(IF)); }; if (Tasks) // This doesn't have a semaphore to enforce -j, but it's rare. Tasks->runAsync("IndexStdlib", std::move(Task)); else Task(); } void onMainAST(PathRef Path, ParsedAST &AST, PublishFn Publish) override { if (FIndex) FIndex->updateMain(Path, AST); if (ServerCallbacks) Publish([&]() { ServerCallbacks->onDiagnosticsReady(Path, AST.version(), AST.getDiagnostics()); if (CollectInactiveRegions) { ServerCallbacks->onInactiveRegionsReady(Path, getInactiveRegions(AST)); } }); } void onFailedAST(PathRef Path, llvm::StringRef Version, std::vector Diags, PublishFn Publish) override { if (ServerCallbacks) Publish( [&]() { ServerCallbacks->onDiagnosticsReady(Path, Version, Diags); }); } void onFileUpdated(PathRef File, const TUStatus &Status) override { if (ServerCallbacks) ServerCallbacks->onFileUpdated(File, Status); } void onPreamblePublished(PathRef File) override { if (ServerCallbacks) ServerCallbacks->onSemanticsMaybeChanged(File); } private: FileIndex *FIndex; ClangdServer::Callbacks *ServerCallbacks; const ThreadsafeFS &TFS; std::shared_ptr Stdlib; AsyncTaskRunner *Tasks; bool CollectInactiveRegions; }; class DraftStoreFS : public ThreadsafeFS { public: DraftStoreFS(const ThreadsafeFS &Base, const DraftStore &Drafts) : Base(Base), DirtyFiles(Drafts) {} private: llvm::IntrusiveRefCntPtr viewImpl() const override { auto OFS = llvm::makeIntrusiveRefCnt( Base.view(std::nullopt)); OFS->pushOverlay(DirtyFiles.asVFS()); return OFS; } const ThreadsafeFS &Base; const DraftStore &DirtyFiles; }; } // namespace ClangdServer::Options ClangdServer::optsForTest() { ClangdServer::Options Opts; Opts.UpdateDebounce = DebouncePolicy::fixed(/*zero*/ {}); Opts.StorePreamblesInMemory = true; Opts.AsyncThreadsCount = 4; // Consistent! return Opts; } ClangdServer::Options::operator TUScheduler::Options() const { TUScheduler::Options Opts; Opts.AsyncThreadsCount = AsyncThreadsCount; Opts.RetentionPolicy = RetentionPolicy; Opts.StorePreamblesInMemory = StorePreamblesInMemory; Opts.UpdateDebounce = UpdateDebounce; Opts.ContextProvider = ContextProvider; Opts.PreambleThrottler = PreambleThrottler; return Opts; } ClangdServer::ClangdServer(const GlobalCompilationDatabase &CDB, const ThreadsafeFS &TFS, const Options &Opts, Callbacks *Callbacks) : FeatureModules(Opts.FeatureModules), CDB(CDB), TFS(TFS), DynamicIdx(Opts.BuildDynamicSymbolIndex ? new FileIndex(Opts.EnableOutgoingCalls) : nullptr), ModulesManager(Opts.ModulesManager), ClangTidyProvider(Opts.ClangTidyProvider), UseDirtyHeaders(Opts.UseDirtyHeaders), LineFoldingOnly(Opts.LineFoldingOnly), PreambleParseForwardingFunctions(Opts.PreambleParseForwardingFunctions), ImportInsertions(Opts.ImportInsertions), PublishInactiveRegions(Opts.PublishInactiveRegions), WorkspaceRoot(Opts.WorkspaceRoot), Transient(Opts.ImplicitCancellation ? TUScheduler::InvalidateOnUpdate : TUScheduler::NoInvalidation), DirtyFS(std::make_unique(TFS, DraftMgr)) { if (Opts.AsyncThreadsCount != 0) IndexTasks.emplace(); // Pass a callback into `WorkScheduler` to extract symbols from a newly // parsed file and rebuild the file index synchronously each time an AST // is parsed. WorkScheduler.emplace(CDB, TUScheduler::Options(Opts), std::make_unique( DynamicIdx.get(), Callbacks, TFS, IndexTasks ? &*IndexTasks : nullptr, PublishInactiveRegions)); // Adds an index to the stack, at higher priority than existing indexes. auto AddIndex = [&](SymbolIndex *Idx) { if (this->Index != nullptr) { MergedIdx.push_back(std::make_unique(Idx, this->Index)); this->Index = MergedIdx.back().get(); } else { this->Index = Idx; } }; if (Opts.StaticIndex) AddIndex(Opts.StaticIndex); if (Opts.BackgroundIndex) { BackgroundIndex::Options BGOpts; BGOpts.ThreadPoolSize = std::max(Opts.AsyncThreadsCount, 1u); BGOpts.OnProgress = [Callbacks](BackgroundQueue::Stats S) { if (Callbacks) Callbacks->onBackgroundIndexProgress(S); }; BGOpts.ContextProvider = Opts.ContextProvider; BGOpts.SupportContainedRefs = Opts.EnableOutgoingCalls; BackgroundIdx = std::make_unique( TFS, CDB, BackgroundIndexStorage::createDiskBackedStorageFactory( [&CDB](llvm::StringRef File) { return CDB.getProjectInfo(File); }), std::move(BGOpts)); AddIndex(BackgroundIdx.get()); } if (DynamicIdx) AddIndex(DynamicIdx.get()); if (Opts.FeatureModules) { FeatureModule::Facilities F{ *this->WorkScheduler, this->Index, this->TFS, }; for (auto &Mod : *Opts.FeatureModules) Mod.initialize(F); } } ClangdServer::~ClangdServer() { // Destroying TUScheduler first shuts down request threads that might // otherwise access members concurrently. // (Nobody can be using TUScheduler because we're on the main thread). WorkScheduler.reset(); // Now requests have stopped, we can shut down feature modules. if (FeatureModules) { for (auto &Mod : *FeatureModules) Mod.stop(); for (auto &Mod : *FeatureModules) Mod.blockUntilIdle(Deadline::infinity()); } } void ClangdServer::addDocument(PathRef File, llvm::StringRef Contents, llvm::StringRef Version, WantDiagnostics WantDiags, bool ForceRebuild) { std::string ActualVersion = DraftMgr.addDraft(File, Version, Contents); ParseOptions Opts; Opts.PreambleParseForwardingFunctions = PreambleParseForwardingFunctions; Opts.ImportInsertions = ImportInsertions; // Compile command is set asynchronously during update, as it can be slow. ParseInputs Inputs; Inputs.TFS = &getHeaderFS(); Inputs.Contents = std::string(Contents); Inputs.Version = std::move(ActualVersion); Inputs.ForceRebuild = ForceRebuild; Inputs.Opts = std::move(Opts); Inputs.Index = Index; Inputs.ClangTidyProvider = ClangTidyProvider; Inputs.FeatureModules = FeatureModules; Inputs.ModulesManager = ModulesManager; bool NewFile = WorkScheduler->update(File, Inputs, WantDiags); // If we loaded Foo.h, we want to make sure Foo.cpp is indexed. if (NewFile && BackgroundIdx) BackgroundIdx->boostRelated(File); } void ClangdServer::reparseOpenFilesIfNeeded( llvm::function_ref Filter) { // Reparse only opened files that were modified. for (const Path &FilePath : DraftMgr.getActiveFiles()) if (Filter(FilePath)) if (auto Draft = DraftMgr.getDraft(FilePath)) // else disappeared in race? addDocument(FilePath, *Draft->Contents, Draft->Version, WantDiagnostics::Auto); } std::shared_ptr ClangdServer::getDraft(PathRef File) const { auto Draft = DraftMgr.getDraft(File); if (!Draft) return nullptr; return std::move(Draft->Contents); } std::function ClangdServer::createConfiguredContextProvider(const config::Provider *Provider, Callbacks *Publish) { if (!Provider) return [](llvm::StringRef) { return Context::current().clone(); }; struct Impl { const config::Provider *Provider; ClangdServer::Callbacks *Publish; std::mutex PublishMu; Impl(const config::Provider *Provider, ClangdServer::Callbacks *Publish) : Provider(Provider), Publish(Publish) {} Context operator()(llvm::StringRef File) { config::Params Params; // Don't reread config files excessively often. // FIXME: when we see a config file change event, use the event timestamp? Params.FreshTime = std::chrono::steady_clock::now() - std::chrono::seconds(5); llvm::SmallString<256> PosixPath; if (!File.empty()) { assert(llvm::sys::path::is_absolute(File)); llvm::sys::path::native(File, PosixPath, llvm::sys::path::Style::posix); Params.Path = PosixPath.str(); } llvm::StringMap> ReportableDiagnostics; Config C = Provider->getConfig(Params, [&](const llvm::SMDiagnostic &D) { // Create the map entry even for note diagnostics we don't report. // This means that when the file is parsed with no warnings, we // publish an empty set of diagnostics, clearing any the client has. handleDiagnostic(D, !Publish || D.getFilename().empty() ? nullptr : &ReportableDiagnostics[D.getFilename()]); }); // Blindly publish diagnostics for the (unopened) parsed config files. // We must avoid reporting diagnostics for *the same file* concurrently. // Source diags are published elsewhere, but those are different files. if (!ReportableDiagnostics.empty()) { std::lock_guard Lock(PublishMu); for (auto &Entry : ReportableDiagnostics) Publish->onDiagnosticsReady(Entry.first(), /*Version=*/"", Entry.second); } return Context::current().derive(Config::Key, std::move(C)); } void handleDiagnostic(const llvm::SMDiagnostic &D, std::vector *ClientDiagnostics) { switch (D.getKind()) { case llvm::SourceMgr::DK_Error: elog("config error at {0}:{1}:{2}: {3}", D.getFilename(), D.getLineNo(), D.getColumnNo(), D.getMessage()); break; case llvm::SourceMgr::DK_Warning: log("config warning at {0}:{1}:{2}: {3}", D.getFilename(), D.getLineNo(), D.getColumnNo(), D.getMessage()); break; case llvm::SourceMgr::DK_Note: case llvm::SourceMgr::DK_Remark: vlog("config note at {0}:{1}:{2}: {3}", D.getFilename(), D.getLineNo(), D.getColumnNo(), D.getMessage()); ClientDiagnostics = nullptr; // Don't emit notes as LSP diagnostics. break; } if (ClientDiagnostics) ClientDiagnostics->push_back(toDiag(D, Diag::ClangdConfig)); } }; // Copyable wrapper. return [I(std::make_shared(Provider, Publish))](llvm::StringRef Path) { return (*I)(Path); }; } void ClangdServer::removeDocument(PathRef File) { DraftMgr.removeDraft(File); WorkScheduler->remove(File); } void ClangdServer::codeComplete(PathRef File, Position Pos, const clangd::CodeCompleteOptions &Opts, Callback CB) { // Copy completion options for passing them to async task handler. auto CodeCompleteOpts = Opts; if (!CodeCompleteOpts.Index) // Respect overridden index. CodeCompleteOpts.Index = Index; auto Task = [Pos, CodeCompleteOpts, File = File.str(), CB = std::move(CB), this](llvm::Expected IP) mutable { if (!IP) return CB(IP.takeError()); if (auto Reason = isCancelled()) return CB(llvm::make_error(Reason)); std::optional SpecFuzzyFind; if (!IP->Preamble) { // No speculation in Fallback mode, as it's supposed to be much faster // without compiling. vlog("Build for file {0} is not ready. Enter fallback mode.", File); } else if (CodeCompleteOpts.Index) { SpecFuzzyFind.emplace(); { std::lock_guard Lock(CachedCompletionFuzzyFindRequestMutex); SpecFuzzyFind->CachedReq = CachedCompletionFuzzyFindRequestByFile[File]; } } ParseInputs ParseInput{IP->Command, &getHeaderFS(), IP->Contents.str()}; // FIXME: Add traling new line if there is none at eof, workaround a crash, // see https://github.com/clangd/clangd/issues/332 if (!IP->Contents.ends_with("\n")) ParseInput.Contents.append("\n"); ParseInput.Index = Index; CodeCompleteOpts.MainFileSignals = IP->Signals; CodeCompleteOpts.AllScopes = Config::current().Completion.AllScopes; CodeCompleteOpts.ArgumentLists = Config::current().Completion.ArgumentLists; CodeCompleteOpts.InsertIncludes = Config::current().Completion.HeaderInsertion; // FIXME(ibiryukov): even if Preamble is non-null, we may want to check // both the old and the new version in case only one of them matches. CodeCompleteResult Result = clangd::codeComplete( File, Pos, IP->Preamble, ParseInput, CodeCompleteOpts, SpecFuzzyFind ? &*SpecFuzzyFind : nullptr); // We don't want `codeComplete` to wait for the async call if it doesn't use // the result (e.g. non-index completion, speculation fails), so that `CB` // is called as soon as results are available. { clang::clangd::trace::Span Tracer("Completion results callback"); CB(std::move(Result)); } if (!SpecFuzzyFind) return; if (SpecFuzzyFind->NewReq) { std::lock_guard Lock(CachedCompletionFuzzyFindRequestMutex); CachedCompletionFuzzyFindRequestByFile[File] = *SpecFuzzyFind->NewReq; } // Explicitly block until async task completes, this is fine as we've // already provided reply to the client and running as a preamble task // (i.e. won't block other preamble tasks). if (SpecFuzzyFind->Result.valid()) SpecFuzzyFind->Result.wait(); }; // We use a potentially-stale preamble because latency is critical here. WorkScheduler->runWithPreamble( "CodeComplete", File, (Opts.RunParser == CodeCompleteOptions::AlwaysParse) ? TUScheduler::Stale : TUScheduler::StaleOrAbsent, std::move(Task)); } void ClangdServer::signatureHelp(PathRef File, Position Pos, MarkupKind DocumentationFormat, Callback CB) { auto Action = [Pos, File = File.str(), CB = std::move(CB), DocumentationFormat, this](llvm::Expected IP) mutable { if (!IP) return CB(IP.takeError()); const auto *PreambleData = IP->Preamble; if (!PreambleData) return CB(error("Failed to parse includes")); ParseInputs ParseInput{IP->Command, &getHeaderFS(), IP->Contents.str()}; // FIXME: Add traling new line if there is none at eof, workaround a crash, // see https://github.com/clangd/clangd/issues/332 if (!IP->Contents.ends_with("\n")) ParseInput.Contents.append("\n"); ParseInput.Index = Index; CB(clangd::signatureHelp(File, Pos, *PreambleData, ParseInput, DocumentationFormat)); }; // Unlike code completion, we wait for a preamble here. WorkScheduler->runWithPreamble("SignatureHelp", File, TUScheduler::Stale, std::move(Action)); } void ClangdServer::formatFile(PathRef File, std::optional Rng, Callback CB) { auto Code = getDraft(File); if (!Code) return CB(llvm::make_error("trying to format non-added document", ErrorCode::InvalidParams)); tooling::Range RequestedRange; if (Rng) { llvm::Expected Begin = positionToOffset(*Code, Rng->start); if (!Begin) return CB(Begin.takeError()); llvm::Expected End = positionToOffset(*Code, Rng->end); if (!End) return CB(End.takeError()); RequestedRange = tooling::Range(*Begin, *End - *Begin); } else { RequestedRange = tooling::Range(0, Code->size()); } // Call clang-format. auto Action = [File = File.str(), Code = std::move(*Code), Ranges = std::vector{RequestedRange}, CB = std::move(CB), this]() mutable { format::FormatStyle Style = getFormatStyleForFile(File, Code, TFS, true); tooling::Replacements IncludeReplaces = format::sortIncludes(Style, Code, Ranges, File); auto Changed = tooling::applyAllReplacements(Code, IncludeReplaces); if (!Changed) return CB(Changed.takeError()); CB(IncludeReplaces.merge(format::reformat( Style, *Changed, tooling::calculateRangesAfterReplacements(IncludeReplaces, Ranges), File))); }; WorkScheduler->runQuick("Format", File, std::move(Action)); } void ClangdServer::formatOnType(PathRef File, Position Pos, StringRef TriggerText, Callback> CB) { auto Code = getDraft(File); if (!Code) return CB(llvm::make_error("trying to format non-added document", ErrorCode::InvalidParams)); llvm::Expected CursorPos = positionToOffset(*Code, Pos); if (!CursorPos) return CB(CursorPos.takeError()); auto Action = [File = File.str(), Code = std::move(*Code), TriggerText = TriggerText.str(), CursorPos = *CursorPos, CB = std::move(CB), this]() mutable { auto Style = getFormatStyleForFile(File, Code, TFS, false); std::vector Result; for (const tooling::Replacement &R : formatIncremental(Code, CursorPos, TriggerText, Style)) Result.push_back(replacementToEdit(Code, R)); return CB(Result); }; WorkScheduler->runQuick("FormatOnType", File, std::move(Action)); } void ClangdServer::prepareRename(PathRef File, Position Pos, std::optional NewName, const RenameOptions &RenameOpts, Callback CB) { auto Action = [Pos, File = File.str(), CB = std::move(CB), NewName = std::move(NewName), RenameOpts](llvm::Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); // prepareRename is latency-sensitive: we don't query the index, as we // only need main-file references auto Results = clangd::rename({Pos, NewName.value_or("__clangd_rename_placeholder"), InpAST->AST, File, /*FS=*/nullptr, /*Index=*/nullptr, RenameOpts}); if (!Results) { // LSP says to return null on failure, but that will result in a generic // failure message. If we send an LSP error response, clients can surface // the message to users (VSCode does). return CB(Results.takeError()); } return CB(*Results); }; WorkScheduler->runWithAST("PrepareRename", File, std::move(Action)); } void ClangdServer::rename(PathRef File, Position Pos, llvm::StringRef NewName, const RenameOptions &Opts, Callback CB) { auto Action = [File = File.str(), NewName = NewName.str(), Pos, Opts, CB = std::move(CB), this](llvm::Expected InpAST) mutable { // Tracks number of files edited per invocation. static constexpr trace::Metric RenameFiles("rename_files", trace::Metric::Distribution); if (!InpAST) return CB(InpAST.takeError()); auto R = clangd::rename({Pos, NewName, InpAST->AST, File, DirtyFS->view(std::nullopt), Index, Opts}); if (!R) return CB(R.takeError()); if (Opts.WantFormat) { auto Style = getFormatStyleForFile(File, InpAST->Inputs.Contents, *InpAST->Inputs.TFS, false); llvm::Error Err = llvm::Error::success(); for (auto &E : R->GlobalChanges) Err = llvm::joinErrors(reformatEdit(E.getValue(), Style), std::move(Err)); if (Err) return CB(std::move(Err)); } RenameFiles.record(R->GlobalChanges.size()); return CB(*R); }; WorkScheduler->runWithAST("Rename", File, std::move(Action)); } namespace { // May generate several candidate selections, due to SelectionTree ambiguity. // vector of pointers because GCC doesn't like non-copyable Selection. llvm::Expected>> tweakSelection(const Range &Sel, const InputsAndAST &AST, llvm::vfs::FileSystem *FS) { auto Begin = positionToOffset(AST.Inputs.Contents, Sel.start); if (!Begin) return Begin.takeError(); auto End = positionToOffset(AST.Inputs.Contents, Sel.end); if (!End) return End.takeError(); std::vector> Result; SelectionTree::createEach( AST.AST.getASTContext(), AST.AST.getTokens(), *Begin, *End, [&](SelectionTree T) { Result.push_back(std::make_unique( AST.Inputs.Index, AST.AST, *Begin, *End, std::move(T), FS)); return false; }); assert(!Result.empty() && "Expected at least one SelectionTree"); return std::move(Result); } // Some fixes may perform local renaming, we want to convert those to clangd // rename commands, such that we can leverage the index for more accurate // results. std::optional tryConvertToRename(const Diag *Diag, const Fix &Fix) { bool IsClangTidyRename = Diag->Source == Diag::ClangTidy && Diag->Name == "readability-identifier-naming" && !Fix.Edits.empty(); if (IsClangTidyRename && Diag->InsideMainFile) { ClangdServer::CodeActionResult::Rename R; R.NewName = Fix.Edits.front().newText; R.FixMessage = Fix.Message; R.Diag = {Diag->Range, Diag->Message}; return R; } return std::nullopt; } } // namespace void ClangdServer::codeAction(const CodeActionInputs &Params, Callback CB) { auto Action = [Params, CB = std::move(CB), FeatureModules(this->FeatureModules)]( Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); auto KindAllowed = [Only(Params.RequestedActionKinds)](llvm::StringRef Kind) { if (Only.empty()) return true; return llvm::any_of(Only, [&](llvm::StringRef Base) { return Kind.consume_front(Base) && (Kind.empty() || Kind.starts_with(".")); }); }; CodeActionResult Result; Result.Version = InpAST->AST.version().str(); if (KindAllowed(CodeAction::QUICKFIX_KIND)) { auto FindMatchedDiag = [&InpAST](const DiagRef &DR) -> const Diag * { for (const auto &Diag : InpAST->AST.getDiagnostics()) if (Diag.Range == DR.Range && Diag.Message == DR.Message) return &Diag; return nullptr; }; for (const auto &DiagRef : Params.Diagnostics) { if (const auto *Diag = FindMatchedDiag(DiagRef)) for (const auto &Fix : Diag->Fixes) { if (auto Rename = tryConvertToRename(Diag, Fix)) { Result.Renames.emplace_back(std::move(*Rename)); } else { Result.QuickFixes.push_back({DiagRef, Fix}); } } } } // Collect Tweaks auto Selections = tweakSelection(Params.Selection, *InpAST, /*FS=*/nullptr); if (!Selections) return CB(Selections.takeError()); // Don't allow a tweak to fire more than once across ambiguous selections. llvm::DenseSet PreparedTweaks; auto DeduplicatingFilter = [&](const Tweak &T) { return KindAllowed(T.kind()) && Params.TweakFilter(T) && !PreparedTweaks.count(T.id()); }; for (const auto &Sel : *Selections) { for (auto &T : prepareTweaks(*Sel, DeduplicatingFilter, FeatureModules)) { Result.TweakRefs.push_back(TweakRef{T->id(), T->title(), T->kind()}); PreparedTweaks.insert(T->id()); TweakAvailable.record(1, T->id()); } } CB(std::move(Result)); }; WorkScheduler->runWithAST("codeAction", Params.File, std::move(Action), Transient); } void ClangdServer::applyTweak(PathRef File, Range Sel, StringRef TweakID, Callback CB) { // Tracks number of times a tweak has been attempted. static constexpr trace::Metric TweakAttempt( "tweak_attempt", trace::Metric::Counter, "tweak_id"); // Tracks number of times a tweak has failed to produce edits. static constexpr trace::Metric TweakFailed( "tweak_failed", trace::Metric::Counter, "tweak_id"); TweakAttempt.record(1, TweakID); auto Action = [File = File.str(), Sel, TweakID = TweakID.str(), CB = std::move(CB), this](Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); auto FS = DirtyFS->view(std::nullopt); auto Selections = tweakSelection(Sel, *InpAST, FS.get()); if (!Selections) return CB(Selections.takeError()); std::optional> Effect; // Try each selection, take the first one that prepare()s. // If they all fail, Effect will hold get the last error. for (const auto &Selection : *Selections) { auto T = prepareTweak(TweakID, *Selection, FeatureModules); if (T) { Effect = (*T)->apply(*Selection); break; } Effect = T.takeError(); } assert(Effect && "Expected at least one selection"); if (*Effect && (*Effect)->FormatEdits) { // Format tweaks that require it centrally here. for (auto &It : (*Effect)->ApplyEdits) { Edit &E = It.second; format::FormatStyle Style = getFormatStyleForFile(File, E.InitialCode, TFS, false); if (llvm::Error Err = reformatEdit(E, Style)) elog("Failed to format {0}: {1}", It.first(), std::move(Err)); } } else { TweakFailed.record(1, TweakID); } return CB(std::move(*Effect)); }; WorkScheduler->runWithAST("ApplyTweak", File, std::move(Action)); } void ClangdServer::locateSymbolAt(PathRef File, Position Pos, Callback> CB) { auto Action = [Pos, CB = std::move(CB), this](llvm::Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); CB(clangd::locateSymbolAt(InpAST->AST, Pos, Index)); }; WorkScheduler->runWithAST("Definitions", File, std::move(Action)); } void ClangdServer::switchSourceHeader( PathRef Path, Callback> CB) { // We want to return the result as fast as possible, strategy is: // 1) use the file-only heuristic, it requires some IO but it is much // faster than building AST, but it only works when .h/.cc files are in // the same directory. // 2) if 1) fails, we use the AST&Index approach, it is slower but supports // different code layout. if (auto CorrespondingFile = getCorrespondingHeaderOrSource(Path, TFS.view(std::nullopt))) return CB(std::move(CorrespondingFile)); auto Action = [Path = Path.str(), CB = std::move(CB), this](llvm::Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); CB(getCorrespondingHeaderOrSource(Path, InpAST->AST, Index)); }; WorkScheduler->runWithAST("SwitchHeaderSource", Path, std::move(Action)); } void ClangdServer::findDocumentHighlights( PathRef File, Position Pos, Callback> CB) { auto Action = [Pos, CB = std::move(CB)](llvm::Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); CB(clangd::findDocumentHighlights(InpAST->AST, Pos)); }; WorkScheduler->runWithAST("Highlights", File, std::move(Action), Transient); } void ClangdServer::findHover(PathRef File, Position Pos, Callback> CB) { auto Action = [File = File.str(), Pos, CB = std::move(CB), this](llvm::Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); format::FormatStyle Style = getFormatStyleForFile( File, InpAST->Inputs.Contents, *InpAST->Inputs.TFS, false); CB(clangd::getHover(InpAST->AST, Pos, std::move(Style), Index)); }; WorkScheduler->runWithAST("Hover", File, std::move(Action), Transient); } void ClangdServer::typeHierarchy(PathRef File, Position Pos, int Resolve, TypeHierarchyDirection Direction, Callback> CB) { auto Action = [File = File.str(), Pos, Resolve, Direction, CB = std::move(CB), this](Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); CB(clangd::getTypeHierarchy(InpAST->AST, Pos, Resolve, Direction, Index, File)); }; WorkScheduler->runWithAST("TypeHierarchy", File, std::move(Action)); } void ClangdServer::superTypes( const TypeHierarchyItem &Item, Callback>> CB) { WorkScheduler->run("typeHierarchy/superTypes", /*Path=*/"", [=, CB = std::move(CB)]() mutable { CB(clangd::superTypes(Item, Index)); }); } void ClangdServer::subTypes(const TypeHierarchyItem &Item, Callback> CB) { WorkScheduler->run( "typeHierarchy/subTypes", /*Path=*/"", [=, CB = std::move(CB)]() mutable { CB(clangd::subTypes(Item, Index)); }); } void ClangdServer::resolveTypeHierarchy( TypeHierarchyItem Item, int Resolve, TypeHierarchyDirection Direction, Callback> CB) { WorkScheduler->run( "Resolve Type Hierarchy", "", [=, CB = std::move(CB)]() mutable { clangd::resolveTypeHierarchy(Item, Resolve, Direction, Index); CB(Item); }); } void ClangdServer::prepareCallHierarchy( PathRef File, Position Pos, Callback> CB) { auto Action = [File = File.str(), Pos, CB = std::move(CB)](Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); CB(clangd::prepareCallHierarchy(InpAST->AST, Pos, File)); }; WorkScheduler->runWithAST("CallHierarchy", File, std::move(Action)); } void ClangdServer::incomingCalls( const CallHierarchyItem &Item, Callback> CB) { WorkScheduler->run("Incoming Calls", "", [CB = std::move(CB), Item, this]() mutable { CB(clangd::incomingCalls(Item, Index)); }); } void ClangdServer::inlayHints(PathRef File, std::optional RestrictRange, Callback> CB) { auto Action = [RestrictRange(std::move(RestrictRange)), CB = std::move(CB)](Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); CB(clangd::inlayHints(InpAST->AST, std::move(RestrictRange))); }; WorkScheduler->runWithAST("InlayHints", File, std::move(Action), Transient); } void ClangdServer::outgoingCalls( const CallHierarchyItem &Item, Callback> CB) { WorkScheduler->run("Outgoing Calls", "", [CB = std::move(CB), Item, this]() mutable { CB(clangd::outgoingCalls(Item, Index)); }); } void ClangdServer::onFileEvent(const DidChangeWatchedFilesParams &Params) { // FIXME: Do nothing for now. This will be used for indexing and potentially // invalidating other caches. } void ClangdServer::workspaceSymbols( llvm::StringRef Query, int Limit, Callback> CB) { WorkScheduler->run( "getWorkspaceSymbols", /*Path=*/"", [Query = Query.str(), Limit, CB = std::move(CB), this]() mutable { CB(clangd::getWorkspaceSymbols(Query, Limit, Index, WorkspaceRoot.value_or(""))); }); } void ClangdServer::documentSymbols(llvm::StringRef File, Callback> CB) { auto Action = [CB = std::move(CB)](llvm::Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); CB(clangd::getDocumentSymbols(InpAST->AST)); }; WorkScheduler->runWithAST("DocumentSymbols", File, std::move(Action), Transient); } void ClangdServer::foldingRanges(llvm::StringRef File, Callback> CB) { auto Code = getDraft(File); if (!Code) return CB(llvm::make_error( "trying to compute folding ranges for non-added document", ErrorCode::InvalidParams)); auto Action = [LineFoldingOnly = LineFoldingOnly, CB = std::move(CB), Code = std::move(*Code)]() mutable { CB(clangd::getFoldingRanges(Code, LineFoldingOnly)); }; // We want to make sure folding ranges are always available for all the open // files, hence prefer runQuick to not wait for operations on other files. WorkScheduler->runQuick("FoldingRanges", File, std::move(Action)); } void ClangdServer::findType(llvm::StringRef File, Position Pos, Callback> CB) { auto Action = [Pos, CB = std::move(CB), this](llvm::Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); CB(clangd::findType(InpAST->AST, Pos, Index)); }; WorkScheduler->runWithAST("FindType", File, std::move(Action)); } void ClangdServer::findImplementations( PathRef File, Position Pos, Callback> CB) { auto Action = [Pos, CB = std::move(CB), this](llvm::Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); CB(clangd::findImplementations(InpAST->AST, Pos, Index)); }; WorkScheduler->runWithAST("Implementations", File, std::move(Action)); } void ClangdServer::findReferences(PathRef File, Position Pos, uint32_t Limit, bool AddContainer, Callback CB) { auto Action = [Pos, Limit, AddContainer, CB = std::move(CB), this](llvm::Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); CB(clangd::findReferences(InpAST->AST, Pos, Limit, Index, AddContainer)); }; WorkScheduler->runWithAST("References", File, std::move(Action)); } void ClangdServer::symbolInfo(PathRef File, Position Pos, Callback> CB) { auto Action = [Pos, CB = std::move(CB)](llvm::Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); CB(clangd::getSymbolInfo(InpAST->AST, Pos)); }; WorkScheduler->runWithAST("SymbolInfo", File, std::move(Action)); } void ClangdServer::semanticRanges(PathRef File, const std::vector &Positions, Callback> CB) { auto Action = [Positions, CB = std::move(CB)]( llvm::Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); std::vector Result; for (const auto &Pos : Positions) { if (auto Range = clangd::getSemanticRanges(InpAST->AST, Pos)) Result.push_back(std::move(*Range)); else return CB(Range.takeError()); } CB(std::move(Result)); }; WorkScheduler->runWithAST("SemanticRanges", File, std::move(Action)); } void ClangdServer::documentLinks(PathRef File, Callback> CB) { auto Action = [CB = std::move(CB)](llvm::Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); CB(clangd::getDocumentLinks(InpAST->AST)); }; WorkScheduler->runWithAST("DocumentLinks", File, std::move(Action), Transient); } void ClangdServer::semanticHighlights( PathRef File, Callback> CB) { auto Action = [CB = std::move(CB), PublishInactiveRegions = PublishInactiveRegions]( llvm::Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); // Include inactive regions in semantic highlighting tokens only if the // client doesn't support a dedicated protocol for being informed about // them. CB(clangd::getSemanticHighlightings(InpAST->AST, !PublishInactiveRegions)); }; WorkScheduler->runWithAST("SemanticHighlights", File, std::move(Action), Transient); } void ClangdServer::getAST(PathRef File, std::optional R, Callback> CB) { auto Action = [R, CB(std::move(CB))](llvm::Expected Inputs) mutable { if (!Inputs) return CB(Inputs.takeError()); if (!R) { // It's safe to pass in the TU, as dumpAST() does not // deserialize the preamble. auto Node = DynTypedNode::create( *Inputs->AST.getASTContext().getTranslationUnitDecl()); return CB(dumpAST(Node, Inputs->AST.getTokens(), Inputs->AST.getASTContext())); } unsigned Start, End; if (auto Offset = positionToOffset(Inputs->Inputs.Contents, R->start)) Start = *Offset; else return CB(Offset.takeError()); if (auto Offset = positionToOffset(Inputs->Inputs.Contents, R->end)) End = *Offset; else return CB(Offset.takeError()); bool Success = SelectionTree::createEach( Inputs->AST.getASTContext(), Inputs->AST.getTokens(), Start, End, [&](SelectionTree T) { if (const SelectionTree::Node *N = T.commonAncestor()) { CB(dumpAST(N->ASTNode, Inputs->AST.getTokens(), Inputs->AST.getASTContext())); return true; } return false; }); if (!Success) CB(std::nullopt); }; WorkScheduler->runWithAST("GetAST", File, std::move(Action)); } void ClangdServer::customAction(PathRef File, llvm::StringRef Name, Callback Action) { WorkScheduler->runWithAST(Name, File, std::move(Action)); } void ClangdServer::diagnostics(PathRef File, Callback> CB) { auto Action = [CB = std::move(CB)](llvm::Expected InpAST) mutable { if (!InpAST) return CB(InpAST.takeError()); return CB(InpAST->AST.getDiagnostics()); }; WorkScheduler->runWithAST("Diagnostics", File, std::move(Action)); } llvm::StringMap ClangdServer::fileStats() const { return WorkScheduler->fileStats(); } [[nodiscard]] bool ClangdServer::blockUntilIdleForTest(std::optional TimeoutSeconds) { // Order is important here: we don't want to block on A and then B, // if B might schedule work on A. #if defined(__has_feature) && \ (__has_feature(address_sanitizer) || __has_feature(hwaddress_sanitizer) || \ __has_feature(memory_sanitizer) || __has_feature(thread_sanitizer)) if (TimeoutSeconds.has_value()) (*TimeoutSeconds) *= 10; #endif // Nothing else can schedule work on TUScheduler, because it's not threadsafe // and we're blocking the main thread. if (!WorkScheduler->blockUntilIdle(timeoutSeconds(TimeoutSeconds))) return false; // TUScheduler is the only thing that starts background indexing work. if (IndexTasks && !IndexTasks->wait(timeoutSeconds(TimeoutSeconds))) return false; // Unfortunately we don't have strict topological order between the rest of // the components. E.g. CDB broadcast triggers backrgound indexing. // This queries the CDB which may discover new work if disk has changed. // // So try each one a few times in a loop. // If there are no tricky interactions then all after the first are no-ops. // Then on the last iteration, verify they're idle without waiting. // // There's a small chance they're juggling work and we didn't catch them :-( for (std::optional Timeout : {TimeoutSeconds, TimeoutSeconds, std::optional(0)}) { if (!CDB.blockUntilIdle(timeoutSeconds(Timeout))) return false; if (BackgroundIdx && !BackgroundIdx->blockUntilIdleForTest(Timeout)) return false; if (FeatureModules && llvm::any_of(*FeatureModules, [&](FeatureModule &M) { return !M.blockUntilIdle(timeoutSeconds(Timeout)); })) return false; } assert(WorkScheduler->blockUntilIdle(Deadline::zero()) && "Something scheduled work while we're blocking the main thread!"); return true; } void ClangdServer::profile(MemoryTree &MT) const { if (DynamicIdx) DynamicIdx->profile(MT.child("dynamic_index")); if (BackgroundIdx) BackgroundIdx->profile(MT.child("background_index")); WorkScheduler->profile(MT.child("tuscheduler")); } } // namespace clangd } // namespace clang