#include "assert.hh" #include "buffer.hh" #include "buffer_manager.hh" #include "buffer_utils.hh" #include "client_manager.hh" #include "command_manager.hh" #include "commands.hh" #include "context.hh" #include "debug.hh" #include "event_manager.hh" #include "face_registry.hh" #include "file.hh" #include "highlighters.hh" #include "ncurses.hh" #include "parameters_parser.hh" #include "register_manager.hh" #include "remote.hh" #include "shell_manager.hh" #include "scope.hh" #include "string.hh" #include "insert_completer.hh" #include "interned_string.hh" #include "window.hh" #include #include #include #include #include #include #include using namespace Kakoune; void run_unit_tests(); String runtime_directory() { String bin_path = get_kak_binary_path(); size_t last_slash = bin_path.find_last_of('/'); if (last_slash == String::npos) throw runtime_error("unable to determine runtime directory"); return bin_path.substr(0_byte, (int)last_slash) + "/../share/kak"; } void register_env_vars() { static const struct { const char* name; String (*func)(StringView, const Context&); } env_vars[] = { { "bufname", [](StringView name, const Context& context) { return context.buffer().display_name(); } }, { "buffile", [](StringView name, const Context& context) -> String { return context.buffer().name(); } }, { "timestamp", [](StringView name, const Context& context) { return to_string(context.buffer().timestamp()); } }, { "selection", [](StringView name, const Context& context) { const Selection& sel = context.selections().main(); return content(context.buffer(), sel); } }, { "selections", [](StringView name, const Context& context) { auto sels = context.selections_content(); String res; for (size_t i = 0; i < sels.size(); ++i) { res += escape(sels[i], ':', '\\'); if (i != sels.size() - 1) res += ':'; } return res; } }, { "runtime", [](StringView name, const Context& context) { return runtime_directory(); } }, { "opt_.+", [](StringView name, const Context& context) { return context.options()[name.substr(4_byte)].get_as_string(); } }, { "reg_.+", [](StringView name, const Context& context) -> String { return context.main_sel_register_value(name.substr(4_byte)); } }, { "client_env_.+", [](StringView name, const Context& context) -> String { return context.client().get_env_var(name.substr(11_byte)); } }, { "session", [](StringView name, const Context& context) -> String { return Server::instance().session(); } }, { "client", [](StringView name, const Context& context) -> String { return context.name(); } }, { "cursor_line", [](StringView name, const Context& context) { return to_string(context.selections().main().cursor().line + 1); } }, { "cursor_column", [](StringView name, const Context& context) { return to_string(context.selections().main().cursor().column + 1); } }, { "cursor_char_column", [](StringView name, const Context& context) { auto coord = context.selections().main().cursor(); return to_string(context.buffer()[coord.line].char_count_to(coord.column) + 1); } }, { "selection_desc", [](StringView name, const Context& context) { auto& sel = context.selections().main(); auto beg = sel.min(); return to_string(beg.line + 1) + '.' + to_string(beg.column + 1) + '+' + to_string((int)context.buffer().distance(beg, sel.max())+1); } }, { "selections_desc", [](StringView name, const Context& context) { String res; for (auto& sel : context.selections()) { auto beg = sel.min(); if (not res.empty()) res += ':'; res += to_string(beg.line + 1) + '.' + to_string(beg.column + 1) + '+' + to_string((int)context.buffer().distance(beg, sel.max())+1); } return res; } }, { "window_width", [](StringView name, const Context& context) { return to_string(context.window().dimensions().column); } }, { "window_height", [](StringView name, const Context& context) { return to_string(context.window().dimensions().line); } } }; ShellManager& shell_manager = ShellManager::instance(); for (auto& env_var : env_vars) shell_manager.register_env_var(env_var.name, env_var.func); } void register_registers() { using StringList = std::vector; static const struct { char name; StringList (*func)(const Context&); } dyn_regs[] = { { '%', [](const Context& context) { return StringList{{context.buffer().display_name()}}; } }, { '.', [](const Context& context) { return context.selections_content(); } }, { '#', [](const Context& context) { StringList res; for (size_t i = 1; i < context.selections().size()+1; ++i) res.push_back(to_string((int)i)); return res; } } }; RegisterManager& register_manager = RegisterManager::instance(); for (auto& dyn_reg : dyn_regs) register_manager.register_dynamic_register(dyn_reg.name, dyn_reg.func); for (size_t i = 0; i < 10; ++i) { register_manager.register_dynamic_register('0'+i, [i](const Context& context) { std::vector result; for (auto& sel : context.selections()) result.emplace_back(i < sel.captures().size() ? sel.captures()[i] : ""); return result; }); } } void register_options() { OptionsRegistry& reg = GlobalScope::instance().option_registry(); reg.declare_option("tabstop", "size of a tab character", 8); reg.declare_option("indentwidth", "indentation width", 4); reg.declare_option("scrolloff", "number of lines and columns to keep visible main cursor when scrolling", CharCoord{0,0}); reg.declare_option("eolformat", "end of line format: 'crlf' or 'lf'", "lf"_str); reg.declare_option("BOM", "insert a byte order mark when writing buffer", "no"_str); reg.declare_option("complete_prefix", "complete up to common prefix in tab completion", true); reg.declare_option("incsearch", "incrementaly apply search/select/split regex", true); reg.declare_option("autoinfo", "automatically display contextual help", 1); reg.declare_option("autoshowcompl", "automatically display possible completions for prompts", true); reg.declare_option("aligntab", "use tab characters when possible for alignement", false); reg.declare_option("ignored_files", "patterns to ignore when completing filenames", Regex{R"(^(\..*|.*\.(o|so|a))$)"}); reg.declare_option("disabled_hooks", "patterns to disable hooks whose group is matched", Regex{}); reg.declare_option("filetype", "buffer filetype", ""_str); reg.declare_option("path", "path to consider when trying to find a file", std::vector({ "./", "/usr/include" })); reg.declare_option("completers", "insert mode completers to execute.", std::vector({ InsertCompleterDesc{ InsertCompleterDesc::Filename }, InsertCompleterDesc{ InsertCompleterDesc::Word, "all"_str } }), OptionFlags::None); reg.declare_option("autoreload", "autoreload buffer when a filesystem modification is detected", Ask); reg.declare_option("ui_options", "options passed to UI as a string map", UserInterface::Options()); } void create_local_client(const String& init_command) { class LocalNCursesUI : public NCursesUI { ~LocalNCursesUI() { if (not ClientManager::instance().empty() and fork()) { this->NCursesUI::~NCursesUI(); puts("detached from terminal\n"); exit(0); } } }; if (not isatty(1)) throw runtime_error("stdout is not a tty"); if (not isatty(0)) { // move stdin to another fd, and restore tty as stdin int fd = dup(0); int tty = open("/dev/tty", O_RDONLY); dup2(tty, 0); close(tty); create_fifo_buffer("*stdin*", fd); } UserInterface* ui = new LocalNCursesUI{}; static Client* client = ClientManager::instance().create_client( std::unique_ptr{ui}, get_env_vars(), init_command); signal(SIGHUP, [](int) { if (client) ClientManager::instance().remove_client(*client); client = nullptr; }); } void signal_handler(int signal) { NCursesUI::abort(); const char* text = nullptr; switch (signal) { case SIGSEGV: text = "SIGSEGV"; break; case SIGFPE: text = "SIGFPE"; break; case SIGQUIT: text = "SIGQUIT"; break; case SIGTERM: text = "SIGTERM"; break; } if (signal != SIGTERM) on_assert_failed(text); if (Server::has_instance()) Server::instance().close_session(); if (BufferManager::has_instance()) BufferManager::instance().backup_modified_buffers(); if (signal == SIGTERM) exit(-1); else abort(); } int run_client(StringView session, StringView init_command) { try { EventManager event_manager; RemoteClient client{session, make_unique(), get_env_vars(), init_command}; while (true) event_manager.handle_next_events(); } catch (peer_disconnected&) { fputs("disconnected from server\n", stderr); return -1; } catch (connection_failed& e) { fputs(e.what(), stderr); return -1; } return 0; } int run_server(StringView session, StringView init_command, bool ignore_kakrc, bool daemon, memoryview files) { static bool terminate = false; if (daemon) { if (session.empty()) { fputs("-d needs a session name to be specified with -s\n", stderr); return -1; } if (pid_t child = fork()) { printf("Kakoune forked to background, for session '%s'\n" "send SIGTERM to process %d for closing the session\n", (const char*)session.zstr(), child); exit(0); } signal(SIGTERM, [](int) { terminate = true; }); } StringRegistry string_registry; EventManager event_manager; GlobalScope global_scope; ShellManager shell_manager; CommandManager command_manager; BufferManager buffer_manager; RegisterManager register_manager; HighlighterRegistry highlighter_registry; DefinedHighlighters defined_highlighters; FaceRegistry face_registry; ClientManager client_manager; run_unit_tests(); register_options(); register_env_vars(); register_registers(); register_commands(); register_highlighters(); write_debug("*** This is the debug buffer, where debug info will be written ***"); Server server(session.empty() ? to_string(getpid()) : String{session}); if (not ignore_kakrc) try { Context initialisation_context; command_manager.execute("source " + runtime_directory() + "/kakrc", initialisation_context); } catch (Kakoune::runtime_error& error) { write_debug("error while parsing kakrc:\n "_str + error.what()); } catch (Kakoune::client_removed&) { write_debug("error while parsing kakrc: asked to quit"); } { Context empty_context; global_scope.hooks().run_hook("KakBegin", "", empty_context); } if (not files.empty()) try { // create buffers in reverse order so that the first given buffer // is the most recently created one. for (auto& file : reversed(files)) { if (not create_buffer_from_file(file)) new Buffer(file, Buffer::Flags::New | Buffer::Flags::File); } } catch (Kakoune::runtime_error& error) { write_debug("error while opening command line files: "_str + error.what()); } else new Buffer("*scratch*", Buffer::Flags::None); if (not daemon) create_local_client(init_command); while (not terminate and (not client_manager.empty() or daemon)) { event_manager.handle_next_events(); client_manager.clear_mode_trashes(); buffer_manager.clear_buffer_trash(); client_manager.redraw_clients(); } { Context empty_context; global_scope.hooks().run_hook("KakEnd", "", empty_context); } return 0; } int run_filter(StringView keystr, memoryview files) { StringRegistry string_registry; GlobalScope global_scope; ShellManager shell_manager; BufferManager buffer_manager; RegisterManager register_manager; register_options(); register_env_vars(); register_registers(); try { auto keys = parse_keys(keystr); auto apply_keys_to_buffer = [&](Buffer& buffer) { try { InputHandler input_handler{{ buffer, Selection{{0,0}, buffer.back_coord()} }}; for (auto& key : keys) input_handler.handle_key(key); } catch (Kakoune::runtime_error& err) { fprintf(stderr, "error while applying keys to buffer '%s': %s\n", buffer.display_name().c_str(), err.what()); } }; for (auto& file : files) { Buffer* buffer = create_buffer_from_file(file); apply_keys_to_buffer(*buffer); write_buffer_to_file(*buffer, file + ".kak-out"); buffer_manager.delete_buffer(*buffer); } if (not isatty(0)) { Buffer* buffer = create_buffer_from_data(read_fd(0), "*stdin*", Buffer::Flags::None); apply_keys_to_buffer(*buffer); write_buffer_to_fd(*buffer, 1); buffer_manager.delete_buffer(*buffer); } } catch (Kakoune::runtime_error& err) { fprintf(stderr, "error: %s\n", err.what()); } buffer_manager.clear_buffer_trash(); return 0; } int run_pipe(StringView session) { char buf[512]; String command; while (ssize_t count = read(0, buf, 512)) { if (count < 0) { fprintf(stderr, "error while reading stdin\n"); return -1; } command += String{buf, buf + count}; } try { send_command(session, command); } catch (connection_failed& e) { fputs(e.what(), stderr); return -1; } return 0; } int main(int argc, char* argv[]) { setlocale(LC_ALL, ""); signal(SIGSEGV, signal_handler); signal(SIGFPE, signal_handler); signal(SIGQUIT, signal_handler); signal(SIGTERM, signal_handler); std::vector params; for (size_t i = 1; i < argc; ++i) params.push_back(argv[i]); const ParameterDesc param_desc{ SwitchMap{ { "c", { true, "connect to given session" } }, { "e", { true, "execute argument on initialisation" } }, { "n", { false, "do not source kakrc files on startup" } }, { "s", { true, "set session name" } }, { "d", { false, "run as a headless session (requires -s)" } }, { "p", { true, "just send stdin as commands to the given session" } }, { "f", { true, "act as a filter, executing given keys on given files" } } } }; try { ParametersParser parser(params, param_desc); if (parser.has_option("p")) { for (auto opt : { "c", "n", "s", "d", "e" }) { if (parser.has_option(opt)) { fprintf(stderr, "error: -%s makes not sense with -p\n", opt); return -1; } } return run_pipe(parser.option_value("p")); } else if (parser.has_option("f")) { std::vector files; for (size_t i = 0; i < parser.positional_count(); ++i) files.emplace_back(parser[i]); return run_filter(parser.option_value("f"), files); } String init_command; if (parser.has_option("e")) init_command = parser.option_value("e"); if (parser.has_option("c")) { for (auto opt : { "n", "s", "d" }) { if (parser.has_option(opt)) { fprintf(stderr, "error: -%s makes not sense with -c\n", opt); return -1; } } return run_client(parser.option_value("c"), init_command); } else { std::vector files; for (size_t i = 0; i < parser.positional_count(); ++i) files.emplace_back(parser[i]); StringView session; if (parser.has_option("s")) session = parser.option_value("s"); return run_server(session, init_command, parser.has_option("n"), parser.has_option("d"), files); } } catch (Kakoune::parameter_error& error) { printf("Error: %s\n" "Valid switches:\n" "%s", error.what(), generate_switches_doc(param_desc.switches).c_str()); return -1; } catch (Kakoune::exception& error) { on_assert_failed(("uncaught exception:\n"_str + error.what()).c_str()); return -1; } catch (std::exception& error) { on_assert_failed(("uncaught exception:\n"_str + error.what()).c_str()); return -1; } catch (...) { on_assert_failed("uncaught exception"); return -1; } return 0; }