#include "window.hh" #include "buffer.hh" #include "shell_manager.hh" #include "commands.hh" #include "command_manager.hh" #include "buffer_manager.hh" #include "register_manager.hh" #include "selectors.hh" #include "assert.hh" #include "debug.hh" #include "highlighters.hh" #include "filters.hh" #include "hook_manager.hh" #include "option_manager.hh" #include "event_manager.hh" #include "context.hh" #include "ncurses.hh" #include "string.hh" #include "file.hh" #include "color_registry.hh" #include "remote.hh" #include "client_manager.hh" #include "parameters_parser.hh" #if defined(__APPLE__) #include #endif #include #include #include #include #include #include #include using namespace Kakoune; using namespace std::placeholders; namespace Kakoune { template void do_insert(Context& context) { context.input_handler().insert(mode); } void do_repeat_insert(Context& context) { context.input_handler().repeat_last_insert(); } template void do_go(Context& context) { int count = context.numeric_param(); if (count != 0) { BufferIterator target = context.editor().buffer().iterator_at_line_begin(count-1); context.push_jump(); context.editor().select(target); if (context.has_window()) context.window().center_selection(); } else context.input_handler().on_next_key([](const Key& key, Context& context) { if (key.modifiers != Key::Modifiers::None) return; Editor& editor = context.editor(); switch (tolower(key.key)) { case 'g': case 't': context.push_jump(); editor.select(editor.buffer().begin(), mode); break; case 'l': editor.select(select_to_eol, mode); break; case 'h': editor.select(select_to_eol_reverse, mode); break; case 'b': { context.push_jump(); const Buffer& buf = editor.buffer(); editor.select(buf.iterator_at_line_begin(buf.line_count() - 1), mode); break; } } }); } void do_replace_with_char(Context& context) { context.input_handler().on_next_key([](const Key& key, Context& context) { Editor& editor = context.editor(); SelectionList sels = editor.selections(); auto restore_sels = on_scope_end([&]{ editor.select(std::move(sels)); }); editor.multi_select(std::bind(select_all_matches, _1, ".")); editor.insert(codepoint_to_str(key.key), InsertMode::Replace); }); } void do_command(Context& context) { context.input_handler().prompt( ":", std::bind(&CommandManager::complete, &CommandManager::instance(), _1, _2, _3), [](const String& cmdline, PromptEvent event, Context& context) { if (event == PromptEvent::Validate) CommandManager::instance().execute(cmdline, context); }); } void do_pipe(Context& context) { context.input_handler().prompt("|", complete_nothing, [](const String& cmdline, PromptEvent event, Context& context) { if (event != PromptEvent::Validate) return; Editor& editor = context.editor(); std::vector strings; for (auto& sel : context.editor().selections()) strings.push_back(ShellManager::instance().pipe({sel.begin(), sel.end()}, cmdline, context, {}, {})); editor.insert(strings, InsertMode::Replace); }); } template void do_search(Context& context) { SelectionList selections = context.editor().selections(); context.input_handler().prompt("/", complete_nothing, [selections](const String& str, PromptEvent event, Context& context) { try { context.editor().select(selections); if (event == PromptEvent::Abort) return; String ex = str; if (event == PromptEvent::Validate) { if (ex.empty()) ex = RegisterManager::instance()['/'].values(context)[0]; else RegisterManager::instance()['/'] = ex; context.push_jump(); } else if (ex.empty() or not context.options()["incsearch"].as_int()) return; context.editor().select(std::bind(select_next_match, _1, ex), mode); } catch (runtime_error&) { context.editor().select(selections); // only validation should propagate errors, // incremental search should not. if (event == PromptEvent::Validate) throw; } }); } template void do_search_next(Context& context) { const String& ex = RegisterManager::instance()['/'].values(context)[0]; if (not ex.empty()) { if (mode == SelectMode::Replace) context.push_jump(); int count = context.numeric_param(); do { context.editor().select(std::bind(select_next_match, _1, ex), mode); } while (--count > 0); } else context.print_status("no search pattern"); } void use_selection_as_search_pattern(Context& context) { std::vector patterns; auto& sels = context.editor().selections(); for (auto& sel : sels) { auto begin = sel.begin(); auto end = sel.end(); auto content = "\\Q" + context.buffer().string(begin, end) + "\\E"; if (begin.is_begin() or (is_word(utf8::codepoint(begin)) and not is_word(utf8::codepoint(utf8::previous(begin))))) content = "\\b" + content; if (end.is_end() or (is_word(utf8::codepoint(utf8::previous(end))) and not is_word(utf8::codepoint(end)))) content = content + "\\b"; patterns.push_back(std::move(content)); } RegisterManager::instance()['/'] = patterns; } void do_yank(Context& context) { RegisterManager::instance()['"'] = context.editor().selections_content(); } void do_erase(Context& context) { RegisterManager::instance()['"'] = context.editor().selections_content(); context.editor().erase(); } void do_change(Context& context) { RegisterManager::instance()['"'] = context.editor().selections_content(); do_insert(context); } static InsertMode adapt_for_linewise(InsertMode mode) { if (mode == InsertMode::Append) return InsertMode::InsertAtNextLineBegin; if (mode == InsertMode::Insert) return InsertMode::InsertAtLineBegin; if (mode == InsertMode::Replace) return InsertMode::Replace; assert(false); return InsertMode::Insert; } template void do_paste(Context& context) { Editor& editor = context.editor(); int count = context.numeric_param(); auto strings = RegisterManager::instance()['"'].values(context); InsertMode mode = insert_mode; if (count == 0) { for (auto& str : strings) { if (not str.empty() and str.back() == '\n') { mode = adapt_for_linewise(mode); break; } } editor.insert(strings, mode); } else if (count <= strings.size()) { auto& str = strings[count-1]; if (not str.empty() and str.back() == '\n') mode = adapt_for_linewise(mode); editor.insert(str, mode); } } void do_select_regex(Context& context) { context.input_handler().prompt("select: ", complete_nothing, [](const String& ex, PromptEvent event, Context& context) { if (event == PromptEvent::Validate and not ex.empty()) context.editor().multi_select(std::bind(select_all_matches, _1, ex)); }); } void do_split_regex(Context& context) { context.input_handler().prompt("split: ", complete_nothing, [](const String& ex, PromptEvent event, Context& context) { if (event == PromptEvent::Validate and not ex.empty()) context.editor().multi_select(std::bind(split_selection, _1, ex)); }); } void do_join(Context& context) { Editor& editor = context.editor(); DynamicSelectionList sels{editor.buffer(), editor.selections()}; auto restore_sels = on_scope_end([&]{ editor.select((SelectionList)std::move(sels)); }); editor.select(select_whole_lines); editor.select(select_to_eol, SelectMode::Extend); editor.multi_select([](const Selection& sel) { SelectionList res = select_all_matches(sel, "\n\\h*"); // remove last end of line if selected assert(std::is_sorted(res.begin(), res.end(), [](const Selection& lhs, const Selection& rhs) { return lhs.begin() < rhs.begin(); })); if (not res.empty() and res.back().end() == sel.buffer().end()) res.pop_back(); return res; }); editor.insert(" ", InsertMode::Replace); } void do_indent(Context& context) { size_t width = context.options()["indentwidth"].as_int(); String indent(' ', width); Editor& editor = context.editor(); DynamicSelectionList sels{editor.buffer(), editor.selections()}; auto restore_sels = on_scope_end([&]{ editor.select((SelectionList)std::move(sels)); }); editor.select(select_whole_lines); editor.multi_select(std::bind(select_all_matches, _1, "^[^\n]")); editor.insert(indent, InsertMode::Insert); } void do_deindent(Context& context) { int width = context.options()["indentwidth"].as_int(); Editor& editor = context.editor(); DynamicSelectionList sels{editor.buffer(), editor.selections()}; auto restore_sels = on_scope_end([&]{ editor.select((SelectionList)std::move(sels)); }); editor.select(select_whole_lines); editor.multi_select(std::bind(select_all_matches, _1, "^\\h{1," + int_to_str(width) + "}")); editor.erase(); } template void do_select_object(Context& context) { context.input_handler().on_next_key( [](const Key& key, Context& context) { typedef std::function Selector; static const std::unordered_map key_to_selector = { { { Key::Modifiers::None, '(' }, std::bind(select_surrounding, _1, CodepointPair{ '(', ')' }, flags) }, { { Key::Modifiers::None, ')' }, std::bind(select_surrounding, _1, CodepointPair{ '(', ')' }, flags) }, { { Key::Modifiers::None, 'b' }, std::bind(select_surrounding, _1, CodepointPair{ '(', ')' }, flags) }, { { Key::Modifiers::None, '{' }, std::bind(select_surrounding, _1, CodepointPair{ '{', '}' }, flags) }, { { Key::Modifiers::None, '}' }, std::bind(select_surrounding, _1, CodepointPair{ '{', '}' }, flags) }, { { Key::Modifiers::None, 'B' }, std::bind(select_surrounding, _1, CodepointPair{ '{', '}' }, flags) }, { { Key::Modifiers::None, '[' }, std::bind(select_surrounding, _1, CodepointPair{ '[', ']' }, flags) }, { { Key::Modifiers::None, ']' }, std::bind(select_surrounding, _1, CodepointPair{ '[', ']' }, flags) }, { { Key::Modifiers::None, '<' }, std::bind(select_surrounding, _1, CodepointPair{ '<', '>' }, flags) }, { { Key::Modifiers::None, '>' }, std::bind(select_surrounding, _1, CodepointPair{ '<', '>' }, flags) }, { { Key::Modifiers::None, 'w' }, std::bind(select_whole_word, _1, flags & SurroundFlags::Inner) }, { { Key::Modifiers::None, 'W' }, std::bind(select_whole_word, _1, flags & SurroundFlags::Inner) }, }; auto it = key_to_selector.find(key); if (it != key_to_selector.end()) context.editor().select(it->second); }); } template void do_scroll(Context& context) { static_assert(key == Key::PageUp or key == Key::PageDown, "do_scrool only implements PageUp and PageDown"); Window& window = context.window(); Buffer& buffer = context.buffer(); DisplayCoord position = window.position(); LineCount cursor_line = 0; if (key == Key::PageUp) { position.line -= (window.dimensions().line - 2); cursor_line = position.line; } else if (key == Key::PageDown) { position.line += (window.dimensions().line - 2); cursor_line = position.line + window.dimensions().line - 1; } auto cursor_pos = utf8::advance(buffer.iterator_at_line_begin(position.line), buffer.iterator_at_line_end(position.line), position.column); window.select(cursor_pos); window.set_position(position); } void do_rotate_selections(Context& context) { int count = context.numeric_param(); if (count == 0) count = 1; SelectionList sels = context.editor().selections(); count %= sels.size(); std::rotate(sels.begin(), sels.begin() + count, sels.end()); context.editor().select(std::move(sels)); }; enum class SelectFlags { None = 0, Reverse = 1, Inclusive = 2, Extend = 4 }; constexpr SelectFlags operator|(SelectFlags lhs, SelectFlags rhs) { return (SelectFlags)((int) lhs | (int) rhs); } constexpr bool operator&(SelectFlags lhs, SelectFlags rhs) { return ((int) lhs & (int) rhs) != 0; } template void select_to_next_char(Context& context) { int param = context.numeric_param(); context.input_handler().on_next_key([param](const Key& key, Context& context) { context.editor().select( std::bind(flags & SelectFlags::Reverse ? select_to_reverse : select_to, _1, key.key, param, flags & SelectFlags::Inclusive), flags & SelectFlags::Extend ? SelectMode::Extend : SelectMode::Replace); }); } void start_or_end_macro_recording(Context& context) { if (context.input_handler().is_recording()) context.input_handler().stop_recording(); else context.input_handler().on_next_key([](const Key& key, Context& context) { if (key.modifiers == Key::Modifiers::None) context.input_handler().start_recording(key.key); }); } void replay_macro(Context& context) { int count = context.numeric_param(); context.input_handler().on_next_key([count](const Key& key, Context& context) mutable { if (key.modifiers == Key::Modifiers::None) { memoryview reg_val = RegisterManager::instance()[key.key].values(context); if (not reg_val.empty()) { scoped_edition edition(context.editor()); do { exec_keys(parse_keys(reg_val[0]), context); } while (--count > 0); } } }); } enum class JumpDirection { Forward, Backward }; template void jump(Context& context) { auto jump = (direction == JumpDirection::Forward) ? context.jump_forward() : context.jump_backward(); Buffer& buffer = const_cast(jump.front().buffer()); BufferManager::instance().set_last_used_buffer(buffer); if (&buffer != &context.buffer()) { auto& manager = ClientManager::instance(); context.change_editor(manager.get_unused_window_for_buffer(buffer)); } context.editor().select(SelectionList{ jump }); } String runtime_directory() { char buffer[2048]; #if defined(__linux__) ssize_t res = readlink("/proc/self/exe", buffer, 2048); assert(res != -1); buffer[res] = '\0'; #elif defined(__APPLE__) uint32_t bufsize = 2048; _NSGetExecutablePath(buffer, &bufsize); char* canonical_path = realpath(buffer, NULL); strncpy(buffer, canonical_path, 2048); free(canonical_path); #else # error "finding executable path is not implemented on this platform" #endif char* ptr = strrchr(buffer, '/'); if (not ptr) throw runtime_error("unable to determine runtime directory"); return String(buffer, ptr); } template class Repeated { public: constexpr Repeated(T t) : m_func(t) {} void operator() (Context& context) { int count = context.numeric_param(); do { m_func(context); } while(--count > 0); } private: T m_func; }; template constexpr Repeated repeated(T func) { return Repeated(func); } template class Select { public: constexpr Select(T t) : m_func(t) {} void operator() (Context& context) { context.editor().select(m_func, mode); } private: T m_func; }; template constexpr Select select(T func) { return Select(func); } std::unordered_map> keymap = { { { Key::Modifiers::None, 'h' }, [](Context& context) { context.editor().move_selections(-CharCount(std::max(context.numeric_param(),1))); } }, { { Key::Modifiers::None, 'j' }, [](Context& context) { context.editor().move_selections( LineCount(std::max(context.numeric_param(),1))); } }, { { Key::Modifiers::None, 'k' }, [](Context& context) { context.editor().move_selections(-LineCount(std::max(context.numeric_param(),1))); } }, { { Key::Modifiers::None, 'l' }, [](Context& context) { context.editor().move_selections( CharCount(std::max(context.numeric_param(),1))); } }, { { Key::Modifiers::None, 'H' }, [](Context& context) { context.editor().move_selections(-CharCount(std::max(context.numeric_param(),1)), SelectMode::Extend); } }, { { Key::Modifiers::None, 'J' }, [](Context& context) { context.editor().move_selections( LineCount(std::max(context.numeric_param(),1)), SelectMode::Extend); } }, { { Key::Modifiers::None, 'K' }, [](Context& context) { context.editor().move_selections(-LineCount(std::max(context.numeric_param(),1)), SelectMode::Extend); } }, { { Key::Modifiers::None, 'L' }, [](Context& context) { context.editor().move_selections( CharCount(std::max(context.numeric_param(),1)), SelectMode::Extend); } }, { { Key::Modifiers::None, 't' }, select_to_next_char }, { { Key::Modifiers::None, 'f' }, select_to_next_char }, { { Key::Modifiers::None, 'T' }, select_to_next_char }, { { Key::Modifiers::None, 'F' }, select_to_next_char }, { { Key::Modifiers::Alt, 't' }, select_to_next_char }, { { Key::Modifiers::Alt, 'f' }, select_to_next_char }, { { Key::Modifiers::Alt, 'T' }, select_to_next_char }, { { Key::Modifiers::Alt, 'F' }, select_to_next_char }, { { Key::Modifiers::None, 'd' }, do_erase }, { { Key::Modifiers::None, 'c' }, do_change }, { { Key::Modifiers::None, 'i' }, do_insert }, { { Key::Modifiers::None, 'I' }, do_insert }, { { Key::Modifiers::None, 'a' }, do_insert }, { { Key::Modifiers::None, 'A' }, do_insert }, { { Key::Modifiers::None, 'o' }, do_insert }, { { Key::Modifiers::None, 'O' }, do_insert }, { { Key::Modifiers::None, 'r' }, do_replace_with_char }, { { Key::Modifiers::None, 'g' }, do_go }, { { Key::Modifiers::None, 'G' }, do_go }, { { Key::Modifiers::None, 'y' }, do_yank }, { { Key::Modifiers::None, 'p' }, do_paste }, { { Key::Modifiers::None, 'P' }, do_paste }, { { Key::Modifiers::Alt, 'p' }, do_paste }, { { Key::Modifiers::None, 's' }, do_select_regex }, { { Key::Modifiers::None, '.' }, do_repeat_insert }, { { Key::Modifiers::None, '%' }, [](Context& context) { context.editor().clear_selections(); context.editor().select(select_whole_buffer); } }, { { Key::Modifiers::None, ':' }, do_command }, { { Key::Modifiers::None, '|' }, do_pipe }, { { Key::Modifiers::None, ' ' }, [](Context& context) { int count = context.numeric_param(); if (count == 0) context.editor().clear_selections(); else context.editor().keep_selection(count-1); } }, { { Key::Modifiers::Alt, ' ' }, [](Context& context) { int count = context.numeric_param(); if (count == 0) context.editor().flip_selections(); else context.editor().remove_selection(count-1); } }, { { Key::Modifiers::None, 'w' }, repeated(select(select_to_next_word)) }, { { Key::Modifiers::None, 'e' }, repeated(select(select_to_next_word_end)) }, { { Key::Modifiers::None, 'b' }, repeated(select(select_to_previous_word)) }, { { Key::Modifiers::None, 'W' }, repeated(select(select_to_next_word)) }, { { Key::Modifiers::None, 'E' }, repeated(select(select_to_next_word_end)) }, { { Key::Modifiers::None, 'B' }, repeated(select(select_to_previous_word)) }, { { Key::Modifiers::None, 'x' }, repeated(select(select_line)) }, { { Key::Modifiers::None, 'X' }, repeated(select(select_line)) }, { { Key::Modifiers::None, 'm' }, select(select_matching) }, { { Key::Modifiers::None, 'M' }, select(select_matching) }, { { Key::Modifiers::None, '/' }, do_search }, { { Key::Modifiers::None, '?' }, do_search }, { { Key::Modifiers::Alt, '/' }, do_search }, { { Key::Modifiers::Alt, '?' }, do_search }, { { Key::Modifiers::None, 'n' }, do_search_next }, { { Key::Modifiers::Alt, 'n' }, do_search_next }, { { Key::Modifiers::None, 'N' }, do_search_next }, { { Key::Modifiers::None, 'u' }, repeated([](Context& context) { if (not context.editor().undo()) { context.print_status("nothing left to undo"); } }) }, { { Key::Modifiers::None, 'U' }, repeated([](Context& context) { if (not context.editor().redo()) { context.print_status("nothing left to redo"); } }) }, { { Key::Modifiers::Alt, 'i' }, do_select_object }, { { Key::Modifiers::Alt, 'a' }, do_select_object }, { { Key::Modifiers::None, ']' }, do_select_object }, { { Key::Modifiers::None, '[' }, do_select_object }, { { Key::Modifiers::Alt, 'w' }, repeated(select(select_to_next_word)) }, { { Key::Modifiers::Alt, 'e' }, repeated(select(select_to_next_word_end)) }, { { Key::Modifiers::Alt, 'b' }, repeated(select(select_to_previous_word)) }, { { Key::Modifiers::Alt, 'W' }, repeated(select(select_to_next_word)) }, { { Key::Modifiers::Alt, 'E' }, repeated(select(select_to_next_word_end)) }, { { Key::Modifiers::Alt, 'B' }, repeated(select(select_to_previous_word)) }, { { Key::Modifiers::Alt, 'l' }, repeated(select(select_to_eol)) }, { { Key::Modifiers::Alt, 'L' }, repeated(select(select_to_eol)) }, { { Key::Modifiers::Alt, 'h' }, repeated(select(select_to_eol_reverse)) }, { { Key::Modifiers::Alt, 'H' }, repeated(select(select_to_eol_reverse)) }, { { Key::Modifiers::Alt, 's' }, do_split_regex }, { { Key::Modifiers::Alt, 'j' }, do_join }, { { Key::Modifiers::None, '<' }, do_deindent }, { { Key::Modifiers::None, '>' }, do_indent }, { { Key::Modifiers::Alt, 'x' }, select(select_whole_lines) }, { { Key::Modifiers::Alt, 'c' }, [](Context& context) { if (context.has_window()) context.window().center_selection(); } }, { { Key::Modifiers::None, Key::PageUp }, do_scroll }, { { Key::Modifiers::None, Key::PageDown }, do_scroll }, { { Key::Modifiers::Control, 'i' }, jump }, { { Key::Modifiers::Control, 'o' }, jump }, { { Key::Modifiers::Alt, 'r' }, do_rotate_selections }, { { Key::Modifiers::None, 'q' }, start_or_end_macro_recording }, { { Key::Modifiers::None, '@' }, replay_macro }, { { Key::Modifiers::None, '*' }, use_selection_as_search_pattern }, }; } void run_unit_tests(); struct Server : public Singleton { Server() { m_filename = "/tmp/kak-" + int_to_str(getpid()); int listen_sock = socket(AF_UNIX, SOCK_STREAM, 0); fcntl(listen_sock, F_SETFD, FD_CLOEXEC); sockaddr_un addr; addr.sun_family = AF_UNIX; strncpy(addr.sun_path, m_filename.c_str(), sizeof(addr.sun_path) - 1); if (bind(listen_sock, (sockaddr*) &addr, sizeof(sockaddr_un)) == -1) throw runtime_error("unable to bind listen socket " + m_filename); if (listen(listen_sock, 4) == -1) throw runtime_error("unable to listen on socket " + m_filename); auto accepter = [](FDWatcher& watcher) { sockaddr_un client_addr; socklen_t client_addr_len = sizeof(sockaddr_un); int sock = accept(watcher.fd(), (sockaddr*) &client_addr, &client_addr_len); if (sock == -1) throw runtime_error("accept failed"); fcntl(sock, F_SETFD, FD_CLOEXEC); new FDWatcher{sock, handle_remote}; }; m_listener.reset(new FDWatcher{listen_sock, accepter}); } ~Server() { unlink(m_filename.c_str()); close(m_listener->fd()); } const String& filename() const { return m_filename; } private: String m_filename; std::unique_ptr m_listener; }; void register_env_vars() { ShellManager& shell_manager = ShellManager::instance(); shell_manager.register_env_var("bufname", [](const String& name, const Context& context) { return context.buffer().name(); }); shell_manager.register_env_var("selection", [](const String& name, const Context& context) { return context.editor().selections_content().back(); }); shell_manager.register_env_var("runtime", [](const String& name, const Context& context) { return runtime_directory(); }); shell_manager.register_env_var("opt_.+", [](const String& name, const Context& context) { return context.options()[name.substr(4_byte)].as_string(); }); shell_manager.register_env_var("reg_.+", [](const String& name, const Context& context) { return RegisterManager::instance()[name[4]].values(context)[0]; }); shell_manager.register_env_var("socket", [](const String& name, const Context& context) { return Server::instance().filename(); }); shell_manager.register_env_var("client", [](const String& name, const Context& context) { return ClientManager::instance().get_client_name(context); }); shell_manager.register_env_var("cursor_line", [](const String& name, const Context& context) { return int_to_str((int)context.editor().selections().back().last().line() + 1); }); shell_manager.register_env_var("cursor_column", [](const String& name, const Context& context) { return int_to_str((int)context.editor().selections().back().last().column() + 1); }); } void register_registers() { RegisterManager& register_manager = RegisterManager::instance(); register_manager.register_dynamic_register('%', [](const Context& context) { return std::vector(1, context.buffer().name()); }); register_manager.register_dynamic_register('.', [](const Context& context) { return context.editor().selections_content(); }); 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.editor().selections()) result.emplace_back(i < sel.captures().size() ? sel.captures()[i] : ""); return result; }); } } void create_local_client(const String& init_command) { class LocalNCursesUI : public NCursesUI { ~LocalNCursesUI() { if (not ClientManager::instance().empty() and fork()) { this->~NCursesUI(); puts("detached from terminal\n"); exit(0); } } }; UserInterface* ui = new LocalNCursesUI{}; ClientManager::instance().create_client( std::unique_ptr{ui}, init_command); } RemoteClient* connect_to(const String& pid, const String& init_command) { auto filename = "/tmp/kak-" + pid; int sock = socket(AF_UNIX, SOCK_STREAM, 0); fcntl(sock, F_SETFD, FD_CLOEXEC); sockaddr_un addr; addr.sun_family = AF_UNIX; strncpy(addr.sun_path, filename.c_str(), sizeof(addr.sun_path) - 1); if (connect(sock, (sockaddr*)&addr, sizeof(addr.sun_path)) == -1) throw runtime_error("connect to " + filename + " failed"); NCursesUI* ui = new NCursesUI{}; RemoteClient* remote_client = new RemoteClient{sock, ui, init_command}; return remote_client; } void sigsegv_handler(int) { endwin(); on_assert_failed("Kakoune SEGFAULT !"); abort(); } int main(int argc, char* argv[]) { try { signal(SIGSEGV, sigsegv_handler); std::vector params; for (size_t i = 1; i < argc; ++i) params.push_back(argv[i]); ParametersParser parser(params, { { "c", true }, { "e", true }, { "n", false } }); EventManager event_manager; String init_command; if (parser.has_option("e")) init_command = parser.option_value("e"); if (parser.has_option("c")) { try { std::unique_ptr client( connect_to(parser.option_value("c"), init_command)); while (true) event_manager.handle_next_events(); } catch (peer_disconnected&) { puts("disconnected"); } return 0; } GlobalOptions global_options; GlobalHooks global_hooks; ShellManager shell_manager; CommandManager command_manager; BufferManager buffer_manager; RegisterManager register_manager; HighlighterRegistry highlighter_registry; FilterRegistry filter_registry; ColorRegistry color_registry; ClientManager client_manager; run_unit_tests(); register_env_vars(); register_registers(); register_commands(); register_highlighters(); register_filters(); write_debug("*** This is the debug buffer, where debug info will be written ***"); write_debug("pid: " + int_to_str(getpid())); write_debug("utf-8 test: é á ï"); Server server; if (not parser.has_option("n")) try { Context initialisation_context; command_manager.execute("source " + runtime_directory() + "/kakrc", initialisation_context); } catch (Kakoune::runtime_error& error) { write_debug("error while parsing kakrc: " + error.description()); } if (parser.positional_count() != 0) { // create buffers in reverse order so that the first given buffer // is the most recently created one. for (int i = parser.positional_count() - 1; i >= 0; --i) { const String& file = parser[i]; if (not create_buffer_from_file(file)) new Buffer(file, Buffer::Flags::New | Buffer::Flags::File); } } else new Buffer("*scratch*", Buffer::Flags::None); create_local_client(init_command); while (not client_manager.empty()) event_manager.handle_next_events(); } catch (Kakoune::exception& error) { puts("uncaught exception:\n"); puts(error.description().c_str()); return -1; } return 0; }