// TODO: cleanup includes #include "cache.h" #include "code_completion.h" #include "file_consumer.h" #include "indexer.h" #include "query.h" #include "language_server_api.h" #include "options.h" #include "project.h" #include "platform.h" #include "test.h" #include "timer.h" #include "threaded_queue.h" #include "typed_bidi_message_queue.h" #include "working_files.h" #include #include #include #include #include #include #include #include #include // TODO: provide a feature like 'https://github.com/goldsborough/clang-expand', ie, a fully linear view of a function with // inline function calls expanded. We can probably use vscode decorators to achieve it. namespace { const char* kIpcLanguageClientName = "language_client"; const int kNumIndexers = 8 - 1; const int kQueueSizeBytes = 1024 * 8; const int kMaxWorkspaceSearchResults = 1000; QueryableFile* FindFile(QueryableDatabase* db, const std::string& filename, QueryFileId* file_id) { auto it = db->usr_to_symbol.find(filename); if (it != db->usr_to_symbol.end()) { *file_id = QueryFileId(it->second.idx); return &db->files[it->second.idx]; } std::cerr << "Unable to find file " << filename << std::endl; *file_id = QueryFileId(-1); return nullptr; } QueryableFile* FindFile(QueryableDatabase* db, const std::string& filename) { auto it = db->usr_to_symbol.find(filename); if (it != db->usr_to_symbol.end()) return &db->files[it->second.idx]; std::cerr << "Unable to find file " << filename << std::endl; return nullptr; } QueryableFile* GetQueryable(QueryableDatabase* db, const QueryFileId& id) { return &db->files[id.id]; } QueryableTypeDef* GetQueryable(QueryableDatabase* db, const QueryTypeId& id) { return &db->types[id.id]; } QueryableFuncDef* GetQueryable(QueryableDatabase* db, const QueryFuncId& id) { return &db->funcs[id.id]; } QueryableVarDef* GetQueryable(QueryableDatabase* db, const QueryVarId& id) { return &db->vars[id.id]; } #if false optional GetDeclarationOfSymbol(QueryableDatabase* db, const SymbolIdx& symbol) { switch (symbol.kind) { case SymbolKind::Type: return db->types[symbol.idx].def.definition_spelling; case SymbolKind::Func: return db->funcs[symbol.idx].; case SymbolKind::Var: return db->vars[symbol.idx].uses; case SymbolKind::File: case SymbolKind::Invalid: { assert(false && "unexpected"); break; } } return {}; } #endif std::vector GetUsesOfSymbol(QueryableDatabase* db, const SymbolIdx& symbol) { switch (symbol.kind) { case SymbolKind::Type: return db->types[symbol.idx].uses; case SymbolKind::Func: return db->funcs[symbol.idx].uses; case SymbolKind::Var: return db->vars[symbol.idx].uses; case SymbolKind::File: case SymbolKind::Invalid: { assert(false && "unexpected"); break; } } return {}; } optional GetDefinitionSpellingOfSymbol(QueryableDatabase* db, const QueryTypeId& id) { return GetQueryable(db, id)->def.definition_spelling; } optional GetDefinitionSpellingOfSymbol(QueryableDatabase* db, const QueryFuncId& id) { return GetQueryable(db, id)->def.definition_spelling; } optional GetDefinitionSpellingOfSymbol(QueryableDatabase* db, const QueryVarId& id) { return GetQueryable(db, id)->def.definition_spelling; } optional GetDefinitionSpellingOfSymbol(QueryableDatabase* db, const SymbolIdx& symbol) { switch (symbol.kind) { case SymbolKind::Type: return db->types[symbol.idx].def.definition_spelling; case SymbolKind::Func: return db->funcs[symbol.idx].def.definition_spelling; case SymbolKind::Var: return db->vars[symbol.idx].def.definition_spelling; case SymbolKind::File: case SymbolKind::Invalid: { assert(false && "unexpected"); break; } } return nullopt; } optional GetDefinitionExtentOfSymbol(QueryableDatabase* db, const QueryTypeId& id) { return GetQueryable(db, id)->def.definition_extent; } optional GetDefinitionExtentOfSymbol(QueryableDatabase* db, const QueryFuncId& id) { return GetQueryable(db, id)->def.definition_extent; } optional GetDefinitionExtentOfSymbol(QueryableDatabase* db, const QueryVarId& id) { return GetQueryable(db, id)->def.definition_extent; } optional GetDefinitionExtentOfSymbol(QueryableDatabase* db, const SymbolIdx& symbol) { switch (symbol.kind) { case SymbolKind::File: // TODO: If line 1 is deleted the file won't show up in, ie, workspace symbol search results. return QueryableLocation(QueryFileId(symbol.idx), Range(false /*is_interesting*/, Position(1, 1), Position(1, 1))); case SymbolKind::Type: return db->types[symbol.idx].def.definition_extent; case SymbolKind::Func: return db->funcs[symbol.idx].def.definition_extent; case SymbolKind::Var: return db->vars[symbol.idx].def.definition_extent; case SymbolKind::Invalid: { assert(false && "unexpected"); break; } } return nullopt; } std::vector GetDeclarationsOfSymbol(QueryableDatabase* db, const SymbolIdx& symbol) { switch (symbol.kind) { case SymbolKind::Func: return db->funcs[symbol.idx].declarations; case SymbolKind::Var: { optional declaration = db->vars[symbol.idx].def.declaration; if (declaration) return { *declaration }; break; } } return {}; } optional GetLsRange(WorkingFile* working_file, const Range& location) { if (!working_file) { return lsRange( lsPosition(location.start.line - 1, location.start.column - 1), lsPosition(location.end.line - 1, location.end.column - 1)); } // TODO: Should we also consider location.end.line? if (working_file->IsDeletedDiskLine(location.start.line)) return nullopt; return lsRange( lsPosition(working_file->GetBufferLineFromDiskLine(location.start.line) - 1, location.start.column - 1), lsPosition(working_file->GetBufferLineFromDiskLine(location.end.line) - 1, location.end.column - 1)); } lsDocumentUri GetLsDocumentUri(QueryableDatabase* db, QueryFileId file_id, std::string* path) { *path = db->files[file_id.id].def.usr; return lsDocumentUri::FromPath(*path); } lsDocumentUri GetLsDocumentUri(QueryableDatabase* db, QueryFileId file_id) { std::string path = db->files[file_id.id].def.usr; return lsDocumentUri::FromPath(path); } optional GetLsLocation(QueryableDatabase* db, WorkingFiles* working_files, const QueryableLocation& location) { std::string path; lsDocumentUri uri = GetLsDocumentUri(db, location.path, &path); optional range = GetLsRange(working_files->GetFileByFilename(path), location.range); if (!range) return nullopt; return lsLocation(uri, *range); } // Returns a symbol. The symbol will have *NOT* have a location assigned. lsSymbolInformation GetSymbolInfo(QueryableDatabase* db, WorkingFiles* working_files, SymbolIdx symbol) { lsSymbolInformation info; switch (symbol.kind) { case SymbolKind::File: { QueryableFile* def = symbol.ResolveFile(db); info.name = def->def.usr; info.kind = lsSymbolKind::File; break; } case SymbolKind::Type: { QueryableTypeDef* def = symbol.ResolveType(db); info.name = def->def.qualified_name; info.kind = lsSymbolKind::Class; break; } case SymbolKind::Func: { QueryableFuncDef* def = symbol.ResolveFunc(db); info.name = def->def.qualified_name; if (def->def.declaring_type.has_value()) { info.kind = lsSymbolKind::Method; info.containerName = db->types[def->def.declaring_type->id].def.qualified_name; } else { info.kind = lsSymbolKind::Function; } break; } case SymbolKind::Var: { QueryableVarDef* def = symbol.ResolveVar(db); info.name = def->def.qualified_name; info.kind = lsSymbolKind::Variable; break; } case SymbolKind::Invalid: { assert(false && "unexpected"); break; } }; return info; } void AddCodeLens( QueryableDatabase* db, WorkingFiles* working_files, std::vector* result, QueryableLocation loc, WorkingFile* working_file, const std::vector& uses, bool exclude_loc, bool only_interesting, const char* singular, const char* plural) { TCodeLens code_lens; optional range = GetLsRange(working_file, loc.range); if (!range) return; code_lens.range = *range; code_lens.command = lsCommand(); code_lens.command->command = "superindex.showReferences"; code_lens.command->arguments.uri = GetLsDocumentUri(db, loc.path); code_lens.command->arguments.position = code_lens.range.start; // Add unique uses. std::unordered_set unique_uses; for (const QueryableLocation& use : uses) { if (exclude_loc && use == loc) continue; if (only_interesting && !use.range.interesting) continue; optional location = GetLsLocation(db, working_files, use); if (!location) continue; unique_uses.insert(*location); } code_lens.command->arguments.locations.assign(unique_uses.begin(), unique_uses.end()); // User visible label size_t num_usages = unique_uses.size(); code_lens.command->title = std::to_string(num_usages) + " "; if (num_usages == 1) code_lens.command->title += singular; else code_lens.command->title += plural; if (exclude_loc || unique_uses.size() > 0) result->push_back(code_lens); } std::vector ToQueryableLocation(QueryableDatabase* db, const std::vector& refs) { std::vector locs; locs.reserve(refs.size()); for (const QueryFuncRef& ref : refs) locs.push_back(ref.loc); return locs; } std::vector ToQueryableLocation(QueryableDatabase* db, const std::vector& ids) { std::vector locs; locs.reserve(ids.size()); for (const QueryTypeId& id : ids) { optional loc = GetDefinitionSpellingOfSymbol(db, id); if (loc) locs.push_back(loc.value()); } return locs; } std::vector ToQueryableLocation(QueryableDatabase* db, const std::vector& ids) { std::vector locs; locs.reserve(ids.size()); for (const QueryFuncId& id : ids) { optional loc = GetDefinitionSpellingOfSymbol(db, id); if (loc) locs.push_back(loc.value()); } return locs; } std::vector ToQueryableLocation(QueryableDatabase* db, const std::vector& ids) { std::vector locs; locs.reserve(ids.size()); for (const QueryVarId& id : ids) { optional loc = GetDefinitionSpellingOfSymbol(db, id); if (loc) locs.push_back(loc.value()); } return locs; } } // namespace struct Index_DoIndex { enum class Type { Import, Update }; std::string path; std::vector args; Type type; Index_DoIndex(Type type) : type(type) {} }; struct Index_DoIdMap { std::unique_ptr previous; std::unique_ptr current; explicit Index_DoIdMap(std::unique_ptr previous, std::unique_ptr current) : previous(std::move(previous)), current(std::move(current)) {} }; struct Index_OnIdMapped { std::unique_ptr previous_index; std::unique_ptr current_index; std::unique_ptr previous_id_map; std::unique_ptr current_id_map; }; struct Index_OnIndexed { IndexUpdate update; explicit Index_OnIndexed(IndexUpdate& update) : update(update) {} }; // TODO: Rename TypedBidiMessageQueue to IpcTransport? using IpcMessageQueue = TypedBidiMessageQueue; using Index_DoIndexQueue = ThreadedQueue; using Index_DoIdMapQueue = ThreadedQueue; using Index_OnIdMappedQueue = ThreadedQueue; using Index_OnIndexedQueue = ThreadedQueue; template void SendMessage(IpcMessageQueue& t, MessageQueue* destination, TMessage& message) { t.SendMessage(destination, TMessage::kIpcId, message); } template void SendOutMessageToClient(IpcMessageQueue* queue, T& response) { std::ostringstream sstream; response.Write(sstream); Ipc_Cout out; out.content = sstream.str(); queue->SendMessage(&queue->for_client, Ipc_Cout::kIpcId, out); } template void RegisterId(IpcMessageQueue* t) { t->RegisterId(T::kIpcId, [](Writer& visitor, BaseIpcMessage& message) { T& m = static_cast(message); Reflect(visitor, m); }, [](Reader& visitor) { auto m = MakeUnique(); Reflect(visitor, *m); return m; }); } std::unique_ptr BuildIpcMessageQueue(const std::string& name, size_t buffer_size) { auto ipc = MakeUnique(name, buffer_size); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); RegisterId(ipc.get()); return ipc; } void RegisterMessageTypes() { MessageRegistry::instance()->Register(); MessageRegistry::instance()->Register(); MessageRegistry::instance()->Register(); MessageRegistry::instance()->Register(); MessageRegistry::instance()->Register(); MessageRegistry::instance()->Register(); MessageRegistry::instance()->Register(); MessageRegistry::instance()->Register(); MessageRegistry::instance()->Register(); MessageRegistry::instance()->Register(); MessageRegistry::instance()->Register(); MessageRegistry::instance()->Register(); MessageRegistry::instance()->Register(); MessageRegistry::instance()->Register(); } bool IndexMain_DoIndex(FileConsumer* file_consumer, Index_DoIndexQueue* queue_do_index, Index_DoIdMapQueue* queue_do_id_map) { optional index_request = queue_do_index->TryDequeue(); if (!index_request) return false; Timer time; // TODO TODO TODO TODO TODO // TODO TODO TODO TODO TODO // TODO TODO TODO TODO TODO // TODO TODO TODO TODO TODO // We're not loading cached header files on restore. We should store the // list of headers associated with a cc file in the cache and then load // them here. // TODO TODO TODO TODO TODO // TODO TODO TODO TODO TODO // TODO TODO TODO TODO TODO // TODO TODO TODO TODO TODO // If the index update is an import, then we will load the previous index // into memory if we have a previous index. After that, we dispatch an // update request to get the latest version. if (index_request->type == Index_DoIndex::Type::Import) { index_request->type = Index_DoIndex::Type::Update; std::unique_ptr old_index = LoadCachedFile(index_request->path); time.ResetAndPrint("Reading cached index from disk " + index_request->path); // If import fails just do a standard update. if (old_index) { for (auto& dependency_path : old_index->dependencies) { std::cerr << "- Dispatching dependency import " << dependency_path << std::endl; Index_DoIndex dep_index_request(Index_DoIndex::Type::Import); dep_index_request.path = dependency_path; dep_index_request.args = index_request->args; queue_do_index->Enqueue(std::move(dep_index_request)); } Index_DoIdMap response(nullptr, std::move(old_index)); queue_do_id_map->Enqueue(std::move(response)); queue_do_index->Enqueue(std::move(*index_request)); return true; } } // Parse request and send a response. std::vector> indexes = Parse(file_consumer, index_request->path, index_request->args); time.ResetAndPrint("Parsing/indexing " + index_request->path); for (auto& current_index : indexes) { std::cerr << "Got index for " << current_index->path << std::endl; std::unique_ptr old_index = LoadCachedFile(current_index->path); time.ResetAndPrint("Loading cached index"); // TODO: Cache to disk on a separate thread. Maybe we do the cache after we // have imported the index (so the import pipeline has five stages instead // of the current 4). // Cache file so we can diff it later. WriteToCache(current_index->path, *current_index); time.ResetAndPrint("Cache index update to disk"); // Send response to create id map. Index_DoIdMap response(std::move(old_index), std::move(current_index)); queue_do_id_map->Enqueue(std::move(response)); } return true; } bool IndexMain_DoCreateIndexUpdate( Index_OnIdMappedQueue* queue_on_id_mapped, Index_OnIndexedQueue* queue_on_indexed) { optional response = queue_on_id_mapped->TryDequeue(); if (!response) return false; Timer time; IndexUpdate update = IndexUpdate::CreateDelta(response->previous_id_map.get(), response->current_id_map.get(), response->previous_index.get(), response->current_index.get()); time.ResetAndPrint("Creating delta IndexUpdate"); Index_OnIndexed reply(update); queue_on_indexed->Enqueue(std::move(reply)); time.ResetAndPrint("Sending update to server"); return true; } void IndexJoinIndexUpdates(Index_OnIndexedQueue* queue_on_indexed) { optional root = queue_on_indexed->TryDequeue(); if (!root) return; while (true) { optional to_join = queue_on_indexed->TryDequeue(); if (!to_join) { queue_on_indexed->Enqueue(std::move(*root)); return; } Timer time; root->update.Merge(to_join->update); time.ResetAndPrint("Indexer joining two querydb updates"); } } void IndexMain( FileConsumer::SharedState* file_consumer_shared, Index_DoIndexQueue* queue_do_index, Index_DoIdMapQueue* queue_do_id_map, Index_OnIdMappedQueue* queue_on_id_mapped, Index_OnIndexedQueue* queue_on_indexed) { FileConsumer file_consumer(file_consumer_shared); while (true) { // TODO: process all off IndexMain_DoIndex before calling IndexMain_DoCreateIndexUpdate for // better icache behavior. We need to have some threads spinning on both though // otherwise memory usage will get bad. int count = 0; if (!IndexMain_DoIndex(&file_consumer, queue_do_index, queue_do_id_map) && !IndexMain_DoCreateIndexUpdate(queue_on_id_mapped, queue_on_indexed)) { //if (count++ > 2) { // count = 0; IndexJoinIndexUpdates(queue_on_indexed); //} // TODO: use CV to wakeup? std::this_thread::sleep_for(std::chrono::milliseconds(25)); } } } void QueryDbMainLoop( QueryableDatabase* db, IpcMessageQueue* language_client, Index_DoIndexQueue* queue_do_index, Index_DoIdMapQueue* queue_do_id_map, Index_OnIdMappedQueue* queue_on_id_mapped, Index_OnIndexedQueue* queue_on_indexed, Project* project, WorkingFiles* working_files, CompletionManager* completion_manager) { std::vector> messages = language_client->GetMessages(&language_client->for_server); for (auto& message : messages) { //std::cerr << "[querydb] Processing message " << static_cast(message->method_id) << std::endl; switch (message->method_id) { case IpcId::Quit: { std::cerr << "Got quit message (exiting)" << std::endl; exit(0); break; } case IpcId::IsAlive: { Ipc_IsAlive response; language_client->SendMessage(&language_client->for_client, response.method_id, response); break; } case IpcId::OpenProject: { Ipc_OpenProject* msg = static_cast(message.get()); std::string path = msg->project_path; project->Load(path); std::cerr << "Loaded compilation entries (" << project->entries.size() << " files)" << std::endl; //for (int i = 0; i < 10; ++i) //std::cerr << project->entries[i].filename << std::endl; for (int i = 0; i < project->entries.size(); ++i) { const CompilationEntry& entry = project->entries[i]; std::string filepath = entry.filename; std::cerr << "[" << i << "/" << (project->entries.size() - 1) << "] Dispatching index request for file " << filepath << std::endl; Index_DoIndex request(Index_DoIndex::Type::Import); request.path = filepath; request.args = entry.args; queue_do_index->Enqueue(std::move(request)); } break; } case IpcId::TextDocumentDidOpen: { auto msg = static_cast(message.get()); //std::cerr << "Opening " << msg->params.textDocument.uri.GetPath() << std::endl; working_files->OnOpen(msg->params); break; } case IpcId::TextDocumentDidChange: { auto msg = static_cast(message.get()); working_files->OnChange(msg->params); //std::cerr << "Changing " << msg->params.textDocument.uri.GetPath() << std::endl; break; } case IpcId::TextDocumentDidClose: { auto msg = static_cast(message.get()); std::cerr << "Closing " << msg->params.textDocument.uri.GetPath() << std::endl; working_files->OnClose(msg->params); break; } case IpcId::TextDocumentDidSave: { auto msg = static_cast(message.get()); WorkingFile* working_file = working_files->GetFileByFilename(msg->params.textDocument.uri.GetPath()); if (working_file) working_file->changes.clear(); // Send an index update request. Index_DoIndex request(Index_DoIndex::Type::Update); optional entry = project->FindCompilationEntryForFile(msg->params.textDocument.uri.GetPath()); request.path = msg->params.textDocument.uri.GetPath(); if (entry) request.args = entry->args; queue_do_index->Enqueue(std::move(request)); break; } case IpcId::TextDocumentCompletion: { // TODO: better performance auto msg = static_cast(message.get()); Out_TextDocumentComplete response; response.id = msg->id; response.result.isIncomplete = false; response.result.items = completion_manager->CodeComplete(msg->params); Timer timer; response.Write(std::cout); timer.ResetAndPrint("Writing completion results"); //SendOutMessageToClient(language_client, response); break; } case IpcId::TextDocumentDefinition: { auto msg = static_cast(message.get()); QueryFileId file_id; QueryableFile* file = FindFile(db, msg->params.textDocument.uri.GetPath(), &file_id); if (!file) { std::cerr << "Unable to find file " << msg->params.textDocument.uri.GetPath() << std::endl; break; } Out_TextDocumentDefinition response; response.id = msg->id; int target_line = msg->params.position.line + 1; int target_column = msg->params.position.character + 1; for (const SymbolRef& ref : file->def.all_symbols) { if (ref.loc.range.Contains(target_line, target_column)) { // Found symbol. Return definition. optional definition_spelling = GetDefinitionSpellingOfSymbol(db, ref.idx); if (definition_spelling) { // If the cursor is currently at the definition we should goto the declaration if possible. if (definition_spelling->path == file_id && definition_spelling->range.Contains(target_line, target_column)) { // Goto declaration. std::vector declarations = GetDeclarationsOfSymbol(db, ref.idx); for (auto declaration : declarations) { optional ls_declaration = GetLsLocation(db, working_files, declaration); if (ls_declaration) response.result.push_back(*ls_declaration); } if (!response.result.empty()) break; } // Goto definition. // We use spelling start and extent end because this causes vscode // to highlight the entire definition when previewing / hoving with // the mouse. optional extent = GetDefinitionExtentOfSymbol(db, ref.idx); if (extent) definition_spelling->range.end = extent->range.end; optional ls_location = GetLsLocation(db, working_files, definition_spelling.value()); if (ls_location) response.result.push_back(*ls_location); } break; } } SendOutMessageToClient(language_client, response); break; } case IpcId::TextDocumentReferences: { auto msg = static_cast(message.get()); QueryableFile* file = FindFile(db, msg->params.textDocument.uri.GetPath()); if (!file) { std::cerr << "Unable to find file " << msg->params.textDocument.uri.GetPath() << std::endl; break; } Out_TextDocumentReferences response; response.id = msg->id; // TODO: Edge cases (whitespace, etc) will work a lot better // if we store range information instead of hacking it. int target_line = msg->params.position.line + 1; int target_column = msg->params.position.character + 1; for (const SymbolRef& ref : file->def.all_symbols) { if (ref.loc.range.start.line >= target_line && ref.loc.range.end.line <= target_line && ref.loc.range.start.column <= target_column && ref.loc.range.end.column >= target_column) { optional excluded_declaration; if (!msg->params.context.includeDeclaration) { std::cerr << "Excluding declaration in references" << std::endl; excluded_declaration = GetDefinitionSpellingOfSymbol(db, ref.idx); } // Found symbol. Return references. std::vector uses = GetUsesOfSymbol(db, ref.idx); response.result.reserve(uses.size()); for (const QueryableLocation& use : uses) { if (excluded_declaration.has_value() && use == *excluded_declaration) continue; optional ls_location = GetLsLocation(db, working_files, use); if (ls_location) response.result.push_back(*ls_location); } break; } } SendOutMessageToClient(language_client, response); break; } case IpcId::TextDocumentDocumentSymbol: { auto msg = static_cast(message.get()); Out_TextDocumentDocumentSymbol response; response.id = msg->id; QueryableFile* file = FindFile(db, msg->params.textDocument.uri.GetPath()); if (!file) { std::cerr << "Unable to find file " << msg->params.textDocument.uri.GetPath() << std::endl; break; } std::cerr << "File outline size is " << file->def.outline.size() << std::endl; for (SymbolRef ref : file->def.outline) { lsSymbolInformation info = GetSymbolInfo(db, working_files, ref.idx); optional location = GetLsLocation(db, working_files, ref.loc); if (!location) continue; info.location = *location; response.result.push_back(info); } SendOutMessageToClient(language_client, response); break; } case IpcId::TextDocumentCodeLens: { auto msg = static_cast(message.get()); Out_TextDocumentCodeLens response; response.id = msg->id; lsDocumentUri file_as_uri = msg->params.textDocument.uri; QueryableFile* file = FindFile(db, file_as_uri.GetPath()); if (!file) { std::cerr << "Unable to find file " << msg->params.textDocument.uri.GetPath() << std::endl; break; } WorkingFile* working_file = working_files->GetFileByFilename(file->def.usr); for (SymbolRef ref : file->def.outline) { // NOTE: We OffsetColumn so that the code lens always show up in a // predictable order. Otherwise, the client may randomize it. SymbolIdx symbol = ref.idx; switch (symbol.kind) { case SymbolKind::Type: { QueryableTypeDef& def = db->types[symbol.idx]; AddCodeLens(db, working_files, &response.result, ref.loc.OffsetStartColumn(0), working_file, def.uses, false /*exclude_loc*/, false /*only_interesting*/, "ref", "refs"); AddCodeLens(db, working_files, &response.result, ref.loc.OffsetStartColumn(1), working_file, def.uses, false /*exclude_loc*/, true /*only_interesting*/, "iref", "irefs"); AddCodeLens(db, working_files, &response.result, ref.loc.OffsetStartColumn(2), working_file, ToQueryableLocation(db, def.derived), false /*exclude_loc*/, false /*only_interesting*/, "derived", "derived"); AddCodeLens(db, working_files, &response.result, ref.loc.OffsetStartColumn(3), working_file, ToQueryableLocation(db, def.instantiations), false /*exclude_loc*/, false /*only_interesting*/, "instantiation", "instantiations"); break; } case SymbolKind::Func: { QueryableFuncDef& def = db->funcs[symbol.idx]; //AddCodeLens(&response.result, ref.loc.OffsetStartColumn(0), def.uses, // false /*exclude_loc*/, false /*only_interesting*/, "reference", // "references"); AddCodeLens(db, working_files, &response.result, ref.loc.OffsetStartColumn(1), working_file, ToQueryableLocation(db, def.callers), true /*exclude_loc*/, false /*only_interesting*/, "caller", "callers"); //AddCodeLens(&response.result, ref.loc.OffsetColumn(2), def.def.callees, // false /*exclude_loc*/, false /*only_interesting*/, "callee", "callees"); AddCodeLens(db, working_files, &response.result, ref.loc.OffsetStartColumn(3), working_file, ToQueryableLocation(db, def.derived), false /*exclude_loc*/, false /*only_interesting*/, "derived", "derived"); break; } case SymbolKind::Var: { QueryableVarDef& def = db->vars[symbol.idx]; AddCodeLens(db, working_files, &response.result, ref.loc.OffsetStartColumn(0), working_file, def.uses, true /*exclude_loc*/, false /*only_interesting*/, "reference", "references"); break; } case SymbolKind::File: case SymbolKind::Invalid: { assert(false && "unexpected"); break; } }; } SendOutMessageToClient(language_client, response); break; } case IpcId::WorkspaceSymbol: { auto msg = static_cast(message.get()); Out_WorkspaceSymbol response; response.id = msg->id; std::cerr << "- Considering " << db->qualified_names.size() << " candidates " << std::endl; std::string query = msg->params.query; for (int i = 0; i < db->qualified_names.size(); ++i) { if (response.result.size() > kMaxWorkspaceSearchResults) { std::cerr << "Query exceeded maximum number of responses (" << kMaxWorkspaceSearchResults << "), output may not contain all results" << std::endl; break; } if (db->qualified_names[i].find(query) != std::string::npos) { lsSymbolInformation info = GetSymbolInfo(db, working_files, db->symbols[i]); optional location = GetDefinitionExtentOfSymbol(db, db->symbols[i]); if (!location) continue; optional ls_location = GetLsLocation(db, working_files, *location); if (!ls_location) continue; info.location = *ls_location; response.result.push_back(info); } } SendOutMessageToClient(language_client, response); break; } default: { std::cerr << "Unhandled IPC message with kind " << static_cast(message->method_id) << std::endl; exit(1); } } } // TODO: consider rate-limiting and checking for IPC messages so we don't block // requests / we can serve partial requests. while (true) { optional request = queue_do_id_map->TryDequeue(); if (!request) break; Index_OnIdMapped response; Timer time; if (request->previous) { response.previous_id_map = MakeUnique(db, request->previous->id_cache); response.previous_index = std::move(request->previous); } assert(request->current); response.current_id_map = MakeUnique(db, request->current->id_cache); time.ResetAndPrint("Create IdMap " + request->current->path); response.current_index = std::move(request->current); queue_on_id_mapped->Enqueue(std::move(response)); } while (true) { optional response = queue_on_indexed->TryDequeue(); if (!response) break; Timer time; db->ApplyIndexUpdate(&response->update); time.ResetAndPrint("Applying index update"); } } void QueryDbMain() { //std::cerr << "Running QueryDb" << std::endl; // Create queues. std::unique_ptr ipc = BuildIpcMessageQueue(kIpcLanguageClientName, kQueueSizeBytes); Index_DoIndexQueue queue_do_index; Index_DoIdMapQueue queue_do_id_map; Index_OnIdMappedQueue queue_on_id_mapped; Index_OnIndexedQueue queue_on_indexed; Project project; WorkingFiles working_files; CompletionManager completion_manager(&project, &working_files); FileConsumer::SharedState file_consumer_shared; // Start indexer threads. for (int i = 0; i < kNumIndexers; ++i) { new std::thread([&]() { IndexMain(&file_consumer_shared, &queue_do_index, &queue_do_id_map, &queue_on_id_mapped, &queue_on_indexed); }); } // Run query db main loop. QueryableDatabase db; while (true) { QueryDbMainLoop(&db, ipc.get(), &queue_do_index, &queue_do_id_map, &queue_on_id_mapped, &queue_on_indexed, &project, &working_files, &completion_manager); std::this_thread::sleep_for(std::chrono::milliseconds(10)); } } // TODO: global lock on stderr output. // Separate thread whose only job is to read from stdin and // dispatch read commands to the actual indexer program. This // cannot be done on the main thread because reading from std::cin // blocks. // // |ipc| is connected to a server. void LanguageServerStdinLoop(IpcMessageQueue* ipc) { while (true) { std::unique_ptr message = MessageRegistry::instance()->ReadMessageFromStdin(); // Message parsing can fail if we don't recognize the method. if (!message) continue; //std::cerr << "[info]: Got message of type " // << IpcIdToString(message->method_id) << std::endl; switch (message->method_id) { // TODO: For simplicitly lets just proxy the initialize request like // all other requests so that stdin loop thread becomes super simple. case IpcId::Initialize: { auto request = static_cast(message.get()); if (request->params.rootUri) { std::string project_path = request->params.rootUri->GetPath(); std::cerr << "Initialize in directory " << project_path << " with uri " << request->params.rootUri->raw_uri << std::endl; Ipc_OpenProject open_project; open_project.project_path = project_path; ipc->SendMessage(&ipc->for_server, Ipc_OpenProject::kIpcId, open_project); } // TODO: query request->params.capabilities.textDocument and support only things // the client supports. auto response = Out_InitializeResponse(); response.id = request->id; //response.result.capabilities.textDocumentSync = lsTextDocumentSyncOptions(); //response.result.capabilities.textDocumentSync->openClose = true; //response.result.capabilities.textDocumentSync->change = lsTextDocumentSyncKind::Full; //response.result.capabilities.textDocumentSync->willSave = true; //response.result.capabilities.textDocumentSync->willSaveWaitUntil = true; response.result.capabilities.textDocumentSync = lsTextDocumentSyncKind::Incremental; response.result.capabilities.completionProvider = lsCompletionOptions(); response.result.capabilities.completionProvider->resolveProvider = false; response.result.capabilities.completionProvider->triggerCharacters = { ".", "::", "->" }; response.result.capabilities.codeLensProvider = lsCodeLensOptions(); response.result.capabilities.codeLensProvider->resolveProvider = false; response.result.capabilities.definitionProvider = true; response.result.capabilities.referencesProvider = true; response.result.capabilities.documentSymbolProvider = true; response.result.capabilities.workspaceSymbolProvider = true; //response.Write(std::cerr); response.Write(std::cout); break; } case IpcId::Initialized: { // TODO: don't send output until we get this notification break; } case IpcId::CancelRequest: { // TODO: support cancellation break; } case IpcId::TextDocumentDidOpen: case IpcId::TextDocumentDidChange: case IpcId::TextDocumentDidClose: case IpcId::TextDocumentDidSave: case IpcId::TextDocumentCompletion: case IpcId::TextDocumentDefinition: case IpcId::TextDocumentReferences: case IpcId::TextDocumentDocumentSymbol: case IpcId::TextDocumentCodeLens: case IpcId::WorkspaceSymbol: { //std::cerr << "Sending message " << (int)message->method_id << std::endl; ipc->SendMessage(&ipc->for_server, message->method_id, *message.get()); break; } default: { std::cerr << "Unhandled IPC message with kind " << static_cast(message->method_id) << std::endl; exit(1); } } } } void LanguageServerMainLoop(IpcMessageQueue* ipc) { std::vector> messages = ipc->GetMessages(&ipc->for_client); for (auto& message : messages) { switch (message->method_id) { case IpcId::Quit: { std::cerr << "Got quit message (exiting)" << std::endl; exit(0); break; } case IpcId::Cout: { auto msg = static_cast(message.get()); std::cout << msg->content; std::cout.flush(); break; } default: { std::cerr << "Unhandled IPC message with kind " << static_cast(message->method_id) << std::endl; exit(1); } } } } bool IsQueryDbProcessRunning(IpcMessageQueue* ipc) { // Emit an alive check. Sleep so the server has time to respond. Ipc_IsAlive check_alive; SendMessage(*ipc, &ipc->for_server, check_alive); // TODO: Tune this value or make it configurable. std::this_thread::sleep_for(std::chrono::milliseconds(100)); // Check if we got an IsAlive message back. std::vector> messages = ipc->GetMessages(&ipc->for_client); for (auto& message : messages) { if (IpcId::IsAlive == message->method_id) return true; } return false; } void LanguageServerMain(std::string process_name) { std::unique_ptr ipc = BuildIpcMessageQueue(kIpcLanguageClientName, kQueueSizeBytes); // Discard any left-over messages from previous runs. ipc->GetMessages(&ipc->for_client); bool has_server = IsQueryDbProcessRunning(ipc.get()); // No server is running. Start it in-process. If the user wants to run the // server out of process they have to start it themselves. if (!has_server) { new std::thread(&QueryDbMain); } // Run language client. new std::thread(&LanguageServerStdinLoop, ipc.get()); while (true) { LanguageServerMainLoop(ipc.get()); std::this_thread::sleep_for(std::chrono::milliseconds(10)); } } int main(int argc, char** argv) { //bool loop = true; //while (loop) // std::this_thread::sleep_for(std::chrono::milliseconds(10)); //std::this_thread::sleep_for(std::chrono::seconds(3)); PlatformInit(); RegisterMessageTypes(); // if (argc == 1) { // QueryDbMain(); // return 0; //} std::unordered_map options = ParseOptions(argc, argv); if (argc == 1 || HasOption(options, "--test")) { doctest::Context context; context.applyCommandLine(argc, argv); int res = context.run(); if (context.shouldExit()) return res; RunTests(); return 0; } else if (options.find("--help") != options.end()) { std::cout << R"help(clang-querydb help: clang-querydb is a low-latency C++ language server. General: --help Print this help information. --language-server Run as a language server. The language server will look for an existing querydb process, otherwise it will run querydb in-process. This implements the language server spec. --querydb Run the querydb. The querydb stores the program index and serves index request tasks. --test Run tests. Does nothing if test support is not compiled in. Configuration: When opening up a directory, clang-querydb will look for a compile_commands.json file emitted by your preferred build system. If not present, clang-querydb will use a recursive directory listing instead. Command line flags can be provided by adding a "clang_args" file in the top-level directory. Each line in that file is a separate argument. )help"; exit(0); } else if (HasOption(options, "--language-server")) { //std::cerr << "Running language server" << std::endl; LanguageServerMain(argv[0]); return 0; } else if (HasOption(options, "--querydb")) { //std::cerr << "Running querydb" << std::endl; QueryDbMain(); return 0; } else { //std::cerr << "Running language server" << std::endl; LanguageServerMain(argv[0]); return 0; } return 1; }