#include "fuzzy_match.h" #include "lex_utils.h" #include "message_handler.h" #include "query_utils.h" #include "queue_manager.h" #include #include #include namespace { struct Ipc_TextDocumentDefinition : public RequestMessage { const static IpcId kIpcId = IpcId::TextDocumentDefinition; lsTextDocumentPositionParams params; }; MAKE_REFLECT_STRUCT(Ipc_TextDocumentDefinition, id, params); REGISTER_IPC_MESSAGE(Ipc_TextDocumentDefinition); struct Out_TextDocumentDefinition : public lsOutMessage { lsRequestId id; std::vector result; }; MAKE_REFLECT_STRUCT(Out_TextDocumentDefinition, jsonrpc, id, result); std::vector GetGotoDefinitionTargets(QueryDatabase* db, SymbolRef sym) { switch (sym.kind) { // Returns GetDeclarationsOfSymbolForGotoDefinition and // variable type definition. case SymbolKind::Var: { std::vector ret = GetDeclarationsOfSymbolForGotoDefinition(db, sym); if (ret.empty()) { for (auto& def : db->GetVar(sym).def) if (def.type) { if (Maybe use = GetDefinitionSpellingOfSymbol( db, SymbolIdx{*def.type, SymbolKind::Type})) { ret.push_back(*use); break; } } } return ret; } default: return GetDeclarationsOfSymbolForGotoDefinition(db, sym); } } struct TextDocumentDefinitionHandler : BaseMessageHandler { void Run(Ipc_TextDocumentDefinition* request) override { QueryFileId file_id; QueryFile* file; if (!FindFileOrFail(db, project, request->id, request->params.textDocument.uri.GetPath(), &file, &file_id)) { return; } WorkingFile* working_file = working_files->GetFileByFilename(file->def->path); Out_TextDocumentDefinition out; out.id = request->id; bool has_symbol = false; int target_line = request->params.position.line; int target_column = request->params.position.character; for (SymbolRef sym : FindSymbolsAtLocation(working_file, file, request->params.position)) { // Found symbol. Return definition. has_symbol = true; // Special cases which are handled: // - symbol has declaration but no definition (ie, pure virtual) // - start at spelling but end at extent for better mouse tooltip // - goto declaration while in definition of recursive type std::vector uses; EachEntityDef(db, sym, [&](const auto& def) { if (def.spell && def.extent) { Use spell = *def.spell; // If on a definition, clear |uses| to find declarations below. if (spell.file == file_id && spell.range.Contains(target_line, target_column)) { uses.clear(); return false; } // We use spelling start and extent end because this causes vscode // to highlight the entire definition when previewing / hoving with // the mouse. spell.range.end = def.extent->range.end; uses.push_back(spell); } return true; }); if (uses.empty()) uses = GetGotoDefinitionTargets(db, sym); AddRange(&out.result, GetLsLocations(db, working_files, uses, config->maxXrefResults)); if (!out.result.empty()) break; } // No symbols - check for includes. if (out.result.empty()) { for (const IndexInclude& include : file->def->includes) { if (include.line == target_line) { lsLocation result; result.uri = lsDocumentUri::FromPath(include.resolved_path); out.result.push_back(result); has_symbol = true; break; } } // Find the best match of the identifier at point. if (!has_symbol) { lsPosition position = request->params.position; const std::string& buffer = working_file->buffer_content; std::string query = LexWordAroundPos(position, buffer); bool has_scope = query.find(':') != std::string::npos; // For symbols whose short/detailed names contain |query| as a // substring, we use the tuple to find the best match. std::tuple best_score{INT_MAX, 0, true, 0}; int best_i = -1; for (int i = 0; i < (int)db->symbols.size(); ++i) { if (db->symbols[i].kind == SymbolKind::Invalid) continue; std::string_view name = has_scope ? db->GetSymbolDetailedName(i) : db->GetSymbolShortName(i); auto pos = name.find(query); if (pos == std::string::npos) continue; Maybe use = GetDefinitionSpellingOfSymbol(db, db->symbols[i]); if (!use) continue; std::tuple score{ int(name.size() - query.size()), int(pos), use->file != file_id, std::abs(use->range.start.line - position.line)}; if (score < best_score) { best_score = score; best_i = i; } } if (best_i != -1) { Maybe use = GetDefinitionSpellingOfSymbol(db, db->symbols[best_i]); assert(use); optional ls_loc = GetLsLocation(db, working_files, *use); if (ls_loc) out.result.push_back(*ls_loc); } } } QueueManager::WriteStdout(IpcId::TextDocumentDefinition, out); } }; REGISTER_MESSAGE_HANDLER(TextDocumentDefinitionHandler); } // namespace