#include "fuzzy_match.h" #include "lex_utils.h" #include "message_handler.h" #include "query_utils.h" #include "queue_manager.h" #include #include #include #include #include namespace { MethodType kMethodType = "workspace/symbol"; // Lookup |symbol| in |db| and insert the value into |result|. bool InsertSymbolIntoResult(QueryDatabase* db, WorkingFiles* working_files, SymbolIdx symbol, std::vector* result) { std::optional info = GetSymbolInfo(db, working_files, symbol, false /*use_short_name*/); if (!info) return false; Maybe location = GetDefinitionExtent(db, symbol); Use loc; if (location) loc = *location; else { auto decls = GetNonDefDeclarations(db, symbol); if (decls.empty()) return false; loc = decls[0]; } std::optional ls_location = GetLsLocation(db, working_files, loc); if (!ls_location) return false; info->location = *ls_location; result->push_back(*info); return true; } struct In_WorkspaceSymbol : public RequestInMessage { MethodType GetMethodType() const override { return kMethodType; } struct Params { std::string query; }; Params params; }; MAKE_REFLECT_STRUCT(In_WorkspaceSymbol::Params, query); MAKE_REFLECT_STRUCT(In_WorkspaceSymbol, id, params); REGISTER_IN_MESSAGE(In_WorkspaceSymbol); struct Out_WorkspaceSymbol : public lsOutMessage { lsRequestId id; std::vector result; }; MAKE_REFLECT_STRUCT(Out_WorkspaceSymbol, jsonrpc, id, result); ///// Fuzzy matching struct Handler_WorkspaceSymbol : BaseMessageHandler { MethodType GetMethodType() const override { return kMethodType; } void Run(In_WorkspaceSymbol* request) override { Out_WorkspaceSymbol out; out.id = request->id; LOG_S(INFO) << "[querydb] Considering " << db->symbols.size() << " candidates for query " << request->params.query; std::string query = request->params.query; std::unordered_set inserted_results; // db->detailed_names indices of each lsSymbolInformation in out.result std::vector result_indices; std::vector unsorted_results; inserted_results.reserve(g_config->workspaceSymbol.maxNum); result_indices.reserve(g_config->workspaceSymbol.maxNum); // We use detailed_names without parameters for matching. // Find exact substring matches. for (int i = 0; i < db->symbols.size(); ++i) { std::string_view detailed_name = db->GetSymbolName(i, true); if (detailed_name.find(query) != std::string::npos) { // Do not show the same entry twice. if (!inserted_results.insert(std::string(detailed_name)).second) continue; if (InsertSymbolIntoResult(db, working_files, db->symbols[i], &unsorted_results)) { result_indices.push_back(i); if (unsorted_results.size() >= g_config->workspaceSymbol.maxNum) break; } } } // Find subsequence matches. if (unsorted_results.size() < g_config->workspaceSymbol.maxNum) { std::string query_without_space; query_without_space.reserve(query.size()); for (char c : query) if (!isspace(c)) query_without_space += c; for (int i = 0; i < (int)db->symbols.size(); ++i) { std::string_view detailed_name = db->GetSymbolName(i, true); if (CaseFoldingSubsequenceMatch(query_without_space, detailed_name) .first) { // Do not show the same entry twice. if (!inserted_results.insert(std::string(detailed_name)).second) continue; if (InsertSymbolIntoResult(db, working_files, db->symbols[i], &unsorted_results)) { result_indices.push_back(i); if (unsorted_results.size() >= g_config->workspaceSymbol.maxNum) break; } } } } if (g_config->workspaceSymbol.sort && query.size() <= FuzzyMatcher::kMaxPat) { // Sort results with a fuzzy matching algorithm. int longest = 0; for (int i : result_indices) longest = std::max(longest, int(db->GetSymbolName(i, true).size())); FuzzyMatcher fuzzy(query); std::vector> permutation(result_indices.size()); for (int i = 0; i < int(result_indices.size()); i++) { permutation[i] = { fuzzy.Match(db->GetSymbolName(result_indices[i], true)), i}; } std::sort(permutation.begin(), permutation.end(), std::greater>()); out.result.reserve(result_indices.size()); // Discard awful candidates. for (int i = 0; i < int(result_indices.size()) && permutation[i].first > FuzzyMatcher::kMinScore; i++) out.result.push_back( std::move(unsorted_results[permutation[i].second])); } else { out.result.reserve(unsorted_results.size()); for (const auto& entry : unsorted_results) out.result.push_back(std::move(entry)); } LOG_S(INFO) << "[querydb] Found " << out.result.size() << " results for query " << query; QueueManager::WriteStdout(kMethodType, out); } }; REGISTER_MESSAGE_HANDLER(Handler_WorkspaceSymbol); } // namespace