#include "normal.hh" #include "buffer.hh" #include "buffer_manager.hh" #include "client_manager.hh" #include "command_manager.hh" #include "commands.hh" #include "containers.hh" #include "context.hh" #include "debug.hh" #include "face_registry.hh" #include "flags.hh" #include "file.hh" #include "option_manager.hh" #include "register_manager.hh" #include "selectors.hh" #include "shell_manager.hh" #include "string.hh" #include "user_interface.hh" #include "window.hh" namespace Kakoune { using namespace std::placeholders; enum class SelectMode { Replace, Extend, Append, }; template void select(Context& context, Func func) { auto& buffer = context.buffer(); auto& selections = context.selections(); if (mode == SelectMode::Append) { auto& sel = selections.main(); auto res = func(buffer, sel); if (res.captures().empty()) res.captures() = sel.captures(); selections.push_back(res); selections.set_main_index(selections.size() - 1); } else { for (auto& sel : selections) { auto res = func(buffer, sel); if (mode == SelectMode::Extend) sel.merge_with(res); else { sel.anchor() = res.anchor(); sel.cursor() = res.cursor(); } if (not res.captures().empty()) sel.captures() = std::move(res.captures()); } } selections.sort_and_merge_overlapping(); selections.check_invariant(); } template class Select { public: constexpr Select(T t) : m_func(t) {} void operator() (Context& context, NormalParams) { select(context, m_func); } private: T m_func; }; template constexpr Select make_select(T func) { return Select(func); } template void select_coord(Buffer& buffer, ByteCoord coord, SelectionList& selections) { coord = buffer.clamp(coord); if (mode == SelectMode::Replace) selections = SelectionList{ buffer, coord }; else if (mode == SelectMode::Extend) { for (auto& sel : selections) sel.cursor() = coord; selections.sort_and_merge_overlapping(); } } template void enter_insert_mode(Context& context, NormalParams) { context.input_handler().insert(mode); } void repeat_last_insert(Context& context, NormalParams) { context.input_handler().repeat_last_insert(); } bool show_auto_info_ifn(StringView title, StringView info, const Context& context) { if (context.options()["autoinfo"].get() < 1 or not context.has_ui()) return false; Face face = get_face("Information"); context.ui().info_show(title, info, CharCoord{}, face, InfoStyle::Prompt); return true; } template void on_next_key_with_autoinfo(const Context& context, KeymapMode keymap_mode, Cmd cmd, StringView title, StringView info) { const bool hide = show_auto_info_ifn(title, info, context); context.input_handler().on_next_key( keymap_mode, [hide,cmd](Key key, Context& context) mutable { if (hide) context.ui().info_hide(); cmd(key, context); }); } template void goto_commands(Context& context, NormalParams params) { if (params.count != 0) { context.push_jump(); select_coord(context.buffer(), LineCount{params.count - 1}, context.selections()); if (context.has_window()) context.window().center_line(LineCount{params.count-1}); } else { on_next_key_with_autoinfo(context, KeymapMode::Goto, [](Key key, Context& context) { if (key.modifiers != Key::Modifiers::None) return; auto& buffer = context.buffer(); switch (tolower(key.key)) { case 'g': case 'k': context.push_jump(); select_coord(buffer, ByteCoord{0,0}, context.selections()); break; case 'l': select(context, select_to_eol); break; case 'h': select(context, select_to_eol_reverse); break; case 'j': { context.push_jump(); select_coord(buffer, buffer.line_count() - 1, context.selections()); break; } case 'e': context.push_jump(); select_coord(buffer, buffer.back_coord(), context.selections()); break; case 't': if (context.has_window()) { auto line = context.window().position().line; select_coord(buffer, line, context.selections()); } break; case 'b': if (context.has_window()) { auto& window = context.window(); auto line = window.position().line + window.dimensions().line - 1; select_coord(buffer, line, context.selections()); } break; case 'c': if (context.has_window()) { auto& window = context.window(); auto line = window.position().line + window.dimensions().line / 2; select_coord(buffer, line, context.selections()); } break; case 'a': { auto& buffer_manager = BufferManager::instance(); auto it = buffer_manager.begin(); if (it->get() == &buffer and ++it == buffer_manager.end()) break; Buffer& target = **it; BufferManager::instance().set_last_used_buffer(buffer); context.push_jump(); context.change_buffer(target); break; } case 'f': { const Selection& sel = context.selections().main(); String filename = content(buffer, sel); static constexpr char forbidden[] = { '\'', '\\', '\0' }; for (auto c : forbidden) if (contains(filename, c)) return; auto paths = context.options()["path"].get>(); const String& buffer_name = buffer.name(); auto it = find(reversed(buffer_name), '/'); if (it != buffer_name.rend()) paths.insert(paths.begin(), String{buffer_name.begin(), it.base()}); String path = find_file(filename, paths); if (path.empty()) throw runtime_error("unable to find file '" + filename + "'"); Buffer* buffer = create_buffer_from_file(path); if (buffer == nullptr) throw runtime_error("unable to open file '" + path + "'"); if (buffer != &context.buffer()) { BufferManager::instance().set_last_used_buffer(*buffer); context.push_jump(); context.change_buffer(*buffer); } break; } case '.': { context.push_jump(); auto pos = buffer.last_modification_coord(); if (buffer[pos.line].length() == pos.column + 1) pos = ByteCoord{ pos.line+1, 0 }; select_coord(buffer, pos, context.selections()); break; } } }, "goto", "g,k: buffer top \n" "l: line end \n" "h: line begin \n" "j: buffer bottom \n" "e: buffer end \n" "t: window top \n" "b: window bottom \n" "c: window center \n" "a: last buffer \n" "f: file \n" ".: last buffer change\n"); } } void view_commands(Context& context, NormalParams params) { on_next_key_with_autoinfo(context, KeymapMode::View, [params](Key key, Context& context) { if (key.modifiers != Key::Modifiers::None or not context.has_window()) return; LineCount cursor_line = context.selections().main().cursor().line; Window& window = context.window(); switch (tolower(key.key)) { case 'v': case 'c': context.window().center_line(cursor_line); break; case 't': context.window().display_line_at(cursor_line, 0); break; case 'b': context.window().display_line_at(cursor_line, window.dimensions().line-1); break; case 'h': context.window().scroll(-std::max(1, params.count)); break; case 'j': context.window().scroll( std::max(1, params.count)); break; case 'k': context.window().scroll(-std::max(1, params.count)); break; case 'l': context.window().scroll( std::max(1, params.count)); break; } }, "view", "v,c: center cursor \n" "t: cursor on top \n" "b: cursor on bottom\n" "h: scroll left \n" "j: scroll down \n" "k: scroll up \n" "l: scroll right \n"); } void replace_with_char(Context& context, NormalParams) { on_next_key_with_autoinfo(context, KeymapMode::None, [](Key key, Context& context) { if (not iswprint(key.key)) return; ScopedEdition edition(context); Buffer& buffer = context.buffer(); SelectionList& selections = context.selections(); Vector strings; for (auto& sel : selections) { CharCount count = char_length(buffer, sel); strings.emplace_back(key.key, count); } selections.insert(strings, InsertMode::Replace); }, "replace with char", "enter char to replace with\n"); } Codepoint to_lower(Codepoint cp) { return tolower(cp); } Codepoint to_upper(Codepoint cp) { return toupper(cp); } Codepoint swap_case(Codepoint cp) { Codepoint res = std::tolower(cp); return res == cp ? std::toupper(cp) : res; } template void for_each_char(Context& context, NormalParams) { ScopedEdition edition(context); Vector sels = context.selections_content(); for (auto& sel : sels) { for (auto& c : sel) c = func(c); } context.selections().insert(sels, InsertMode::Replace); } void command(Context& context, NormalParams) { if (not CommandManager::has_instance()) return; context.input_handler().prompt( ":", "", get_face("Prompt"), std::bind(&CommandManager::complete, &CommandManager::instance(), _1, _2, _3, _4), [](StringView cmdline, PromptEvent event, Context& context) { if (context.has_ui()) { context.ui().info_hide(); if (event == PromptEvent::Change and context.options()["autoinfo"].get() > 0) { auto info = CommandManager::instance().command_info(context, cmdline); Face col = get_face("Information"); if (not info.first.empty() and not info.second.empty()) context.ui().info_show(info.first, info.second, CharCoord{}, col, InfoStyle::Prompt); } } if (event == PromptEvent::Validate) CommandManager::instance().execute(cmdline, context); }); } template void pipe(Context& context, NormalParams) { const char* prompt = replace ? "pipe:" : "pipe-to:"; context.input_handler().prompt(prompt, "", get_face("Prompt"), shell_complete, [](StringView cmdline, PromptEvent event, Context& context) { if (event != PromptEvent::Validate) return; StringView real_cmd; if (cmdline.empty()) real_cmd = context.main_sel_register_value("|"); else { RegisterManager::instance()['|'] = String{cmdline}; real_cmd = cmdline; } if (real_cmd.empty()) return; Buffer& buffer = context.buffer(); SelectionList& selections = context.selections(); if (replace) { Vector strings; for (auto& sel : selections) { auto str = content(buffer, sel); bool insert_eol = str.back() != '\n'; if (insert_eol) str += '\n'; str = ShellManager::instance().pipe(str, real_cmd, context, {}, EnvVarMap{}); if (insert_eol and str.back() == '\n') str = str.substr(0, str.length()-1); strings.push_back(std::move(str)); } ScopedEdition edition(context); selections.insert(strings, InsertMode::Replace); } else { for (auto& sel : selections) ShellManager::instance().pipe( content(buffer, sel), real_cmd, context, {}, EnvVarMap{}); } }); } template void insert_output(Context& context, NormalParams) { const char* prompt = mode == InsertMode::Insert ? "insert-output:" : "append-output:"; context.input_handler().prompt(prompt, "", get_face("Prompt"), shell_complete, [](StringView cmdline, PromptEvent event, Context& context) { if (event != PromptEvent::Validate) return; StringView real_cmd; if (cmdline.empty()) real_cmd = context.main_sel_register_value("|"); else { RegisterManager::instance()['|'] = String{cmdline}; real_cmd = cmdline; } if (real_cmd.empty()) return; auto str = ShellManager::instance().eval(real_cmd, context, {}, EnvVarMap{}); ScopedEdition edition(context); context.selections().insert(str, mode); }); } template void select_next_match(const Buffer& buffer, SelectionList& selections, const Regex& regex) { if (mode == SelectMode::Replace) { for (auto& sel : selections) sel = keep_direction(find_next_match(buffer, sel, regex), sel); } if (mode == SelectMode::Extend) { for (auto& sel : selections) sel.merge_with(find_next_match(buffer, sel, regex)); } else if (mode == SelectMode::Append) { auto sel = keep_direction( find_next_match(buffer, selections.main(), regex), selections.main()); selections.push_back(std::move(sel)); selections.set_main_index(selections.size() - 1); } selections.sort_and_merge_overlapping(); } void yank(Context& context, NormalParams params) { RegisterManager::instance()[params.reg] = context.selections_content(); context.print_status({ "yanked " + to_string(context.selections().size()) + " selections to register " + StringView{params.reg}, get_face("Information") }); } void erase_selections(Context& context, NormalParams params) { RegisterManager::instance()[params.reg] = context.selections_content(); ScopedEdition edition(context); context.selections().erase(); context.selections().avoid_eol(); } void change(Context& context, NormalParams params) { RegisterManager::instance()[params.reg] = context.selections_content(); enter_insert_mode(context, params); } constexpr InsertMode adapt_for_linewise(InsertMode mode) { return ((mode == InsertMode::Append) ? InsertMode::InsertAtNextLineBegin : ((mode == InsertMode::Insert) ? InsertMode::InsertAtLineBegin : ((mode == InsertMode::Replace) ? InsertMode::Replace : InsertMode::Insert))); } template void paste(Context& context, NormalParams params) { auto strings = RegisterManager::instance()[params.reg].values(context); InsertMode effective_mode = mode; for (auto& str : strings) { if (not str.empty() and str.back() == '\n') { effective_mode = adapt_for_linewise(mode); break; } } ScopedEdition edition(context); context.selections().insert(strings, effective_mode); } template void paste_all(Context& context, NormalParams params) { auto strings = RegisterManager::instance()[params.reg].values(context); InsertMode effective_mode = mode; String all; Vector offsets; for (auto& str : strings) { if (not str.empty() and str.back() == '\n') effective_mode = adapt_for_linewise(mode); all += str; offsets.push_back(all.length()); } auto& selections = context.selections(); { ScopedEdition edition(context); selections.insert(all, effective_mode, true); } const Buffer& buffer = context.buffer(); Vector result; for (auto& selection : selections) { ByteCount pos = 0; for (auto offset : offsets) { result.push_back({ buffer.advance(selection.min(), pos), buffer.advance(selection.min(), offset-1) }); pos = offset; } } selections = std::move(result); } template void regex_prompt(Context& context, const String prompt, T func) { SelectionList selections = context.selections(); context.input_handler().prompt(prompt, "", get_face("Prompt"), complete_nothing, [=](StringView str, PromptEvent event, Context& context) mutable { try { if (event != PromptEvent::Change and context.has_ui()) context.ui().info_hide(); selections.update(); context.selections() = selections; context.input_handler().set_prompt_face(get_face("Prompt")); if (event == PromptEvent::Abort) return; if (event == PromptEvent::Change and (str.empty() or not context.options()["incsearch"].get())) return; if (event == PromptEvent::Validate) context.push_jump(); Regex regex = str.empty() ? Regex{} : Regex{str.begin(), str.end()}; func(std::move(regex), event, context); } catch (RegexError& err) { if (event == PromptEvent::Validate) throw runtime_error("regex error: "_str + err.what()); else context.input_handler().set_prompt_face(get_face("Error")); } catch (std::runtime_error& err) { if (event == PromptEvent::Validate) throw runtime_error("regex error: "_str + err.what()); else { context.input_handler().set_prompt_face(get_face("Error")); if (context.has_ui()) { Face face = get_face("Information"); context.ui().info_show("regex error", err.what(), CharCoord{}, face, InfoStyle::Prompt); } } } catch (runtime_error&) { context.selections() = selections; // only validation should propagate errors, // incremental search should not. if (event == PromptEvent::Validate) throw; } }); } template void search(Context& context, NormalParams) { regex_prompt(context, direction == Forward ? "search:" : "reverse search:", [](Regex ex, PromptEvent event, Context& context) { if (ex.empty()) ex = Regex{context.main_sel_register_value("/").str()}; else if (event == PromptEvent::Validate) RegisterManager::instance()['/'] = String{ex.str()}; if (not ex.empty() and not ex.str().empty()) select_next_match(context.buffer(), context.selections(), ex); }); } template void search_next(Context& context, NormalParams params) { StringView str = context.main_sel_register_value("/"); if (not str.empty()) { try { Regex ex{str.begin(), str.end()}; do { select_next_match(context.buffer(), context.selections(), ex); } while (--params.count > 0); } catch (RegexError& err) { throw runtime_error("regex error: "_str + err.what()); } } else throw runtime_error("no search pattern"); } template void use_selection_as_search_pattern(Context& context, NormalParams) { Vector patterns; auto& sels = context.selections(); const auto& buffer = context.buffer(); for (auto& sel : sels) { auto begin = utf8::make_iterator(buffer.iterator_at(sel.min())); auto end = utf8::make_iterator(buffer.iterator_at(sel.max()))+1; auto content = "\\Q" + String{begin.base(), end.base()} + "\\E"; if (smart) { if (begin == buffer.begin() or (is_word(*begin) and not is_word(*(begin-1)))) content = "\\b" + content; if (end == buffer.end() or (is_word(*(end-1)) and not is_word(*end))) content = content + "\\b"; } patterns.push_back(std::move(content)); } RegisterManager::instance()['/'] = patterns; } void select_regex(Context& context, NormalParams) { regex_prompt(context, "select:", [](Regex ex, PromptEvent event, Context& context) { if (ex.empty()) ex = Regex{context.main_sel_register_value("/").str()}; else if (event == PromptEvent::Validate) RegisterManager::instance()['/'] = String{ex.str()}; if (not ex.empty() and not ex.str().empty()) select_all_matches(context.selections(), ex); }); } void split_regex(Context& context, NormalParams) { regex_prompt(context, "split:", [](Regex ex, PromptEvent event, Context& context) { if (ex.empty()) ex = Regex{context.main_sel_register_value("/").str()}; else if (event == PromptEvent::Validate) RegisterManager::instance()['/'] = String{ex.str()}; if (not ex.empty() and not ex.str().empty()) split_selections(context.selections(), ex); }); } void split_lines(Context& context, NormalParams) { auto& selections = context.selections(); auto& buffer = context.buffer(); Vector res; for (auto& sel : selections) { if (sel.anchor().line == sel.cursor().line) { res.push_back(std::move(sel)); continue; } auto min = sel.min(); auto max = sel.max(); res.push_back(keep_direction({min, {min.line, buffer[min.line].length()-1}}, sel)); for (auto line = min.line+1; line < max.line; ++line) res.push_back(keep_direction({line, {line, buffer[line].length()-1}}, sel)); res.push_back(keep_direction({max.line, max}, sel)); } selections = std::move(res); } void join_lines_select_spaces(Context& context, NormalParams) { auto& buffer = context.buffer(); Vector selections; for (auto& sel : context.selections()) { const LineCount min_line = sel.min().line; const LineCount max_line = sel.max().line; auto end_line = std::min(buffer.line_count()-1, max_line + (min_line == max_line ? 1 : 0)); for (LineCount line = min_line; line < end_line; ++line) { auto begin = buffer.iterator_at({line, buffer[line].length()-1}); auto end = begin+1; skip_while(end, buffer.end(), is_horizontal_blank); selections.push_back({begin.coord(), (end-1).coord()}); } } if (selections.empty()) return; context.selections() = selections; ScopedEdition edition(context); context.selections().insert(" "_str, InsertMode::Replace); } void join_lines(Context& context, NormalParams params) { SelectionList sels{context.selections()}; auto restore_sels = on_scope_end([&]{ sels.update(); context.selections() = std::move(sels); }); join_lines_select_spaces(context, params); } template void keep(Context& context, NormalParams) { constexpr const char* prompt = matching ? "keep matching:" : "keep not matching:"; regex_prompt(context, prompt, [](const Regex& ex, PromptEvent, Context& context) { if (ex.empty()) return; const Buffer& buffer = context.buffer(); Vector keep; for (auto& sel : context.selections()) { if (regex_search(buffer.iterator_at(sel.min()), utf8::next(buffer.iterator_at(sel.max()), buffer.end()), ex) == matching) keep.push_back(sel); } if (keep.empty()) throw runtime_error("no selections remaining"); context.set_selections(std::move(keep)); }); } void keep_pipe(Context& context, NormalParams) { context.input_handler().prompt( "keep pipe:", "", get_face("Prompt"), shell_complete, [](StringView cmdline, PromptEvent event, Context& context) { if (event != PromptEvent::Validate) return; const Buffer& buffer = context.buffer(); auto& shell_manager = ShellManager::instance(); Vector keep; for (auto& sel : context.selections()) { int status = 0; shell_manager.pipe(content(buffer, sel), cmdline, context, {}, EnvVarMap{}, &status); if (status == 0) keep.push_back(sel); } if (keep.empty()) throw runtime_error("no selections remaining"); context.set_selections(std::move(keep)); }); } template void indent(Context& context, NormalParams) { CharCount indent_width = context.options()["indentwidth"].get(); String indent = indent_width == 0 ? "\t" : String{' ', indent_width}; auto& buffer = context.buffer(); Vector sels; LineCount last_line = 0; for (auto& sel : context.selections()) { for (auto line = std::max(last_line, sel.min().line); line < sel.max().line+1; ++line) { if (indent_empty or buffer[line].length() > 1) sels.push_back({line, line}); } // avoid reindenting the same line if multiple selections are on it last_line = sel.max().line+1; } if (not sels.empty()) { ScopedEdition edition(context); SelectionList selections{buffer, std::move(sels)}; selections.insert(indent, InsertMode::Insert); } } template void deindent(Context& context, NormalParams) { CharCount tabstop = context.options()["tabstop"].get(); CharCount indent_width = context.options()["indentwidth"].get(); if (indent_width == 0) indent_width = tabstop; auto& buffer = context.buffer(); Vector sels; LineCount last_line = 0; for (auto& sel : context.selections()) { for (auto line = std::max(sel.min().line, last_line); line < sel.max().line+1; ++line) { CharCount width = 0; auto content = buffer[line]; for (auto column = 0_byte; column < content.length(); ++column) { const char c = content[column]; if (c == '\t') width = (width / tabstop + 1) * tabstop; else if (c == ' ') ++width; else { if (deindent_incomplete and width != 0) sels.push_back({ line, ByteCoord{line, column-1} }); break; } if (width == indent_width) { sels.push_back({ line, ByteCoord{line, column} }); break; } } } // avoid reindenting the same line if multiple selections are on it last_line = sel.max().line + 1; } if (not sels.empty()) { ScopedEdition edition(context); SelectionList selections{context.buffer(), std::move(sels)}; selections.erase(); } } template void select_object(Context& context, NormalParams params) { int level = params.count <= 0 ? 0 : params.count - 1; on_next_key_with_autoinfo(context, KeymapMode::None, [level](Key key, Context& context) { if (key.modifiers != Key::Modifiers::None) return; const Codepoint c = key.key; static constexpr struct { Codepoint key; Selection (*func)(const Buffer&, const Selection&, ObjectFlags); } selectors[] = { { 'w', select_word }, { 'W', select_word }, { 's', select_sentence }, { 'p', select_paragraph }, { ' ', select_whitespaces }, { 'i', select_indent }, { 'n', select_number }, }; for (auto& sel : selectors) { if (c == sel.key) return select(context, std::bind(sel.func, _1, _2, flags)); } static const struct { CodepointPair pair; Codepoint name; } surrounding_pairs[] = { { { '(', ')' }, 'b' }, { { '{', '}' }, 'B' }, { { '[', ']' }, 'r' }, { { '<', '>' }, 'a' }, { { '"', '"' }, 'Q' }, { { '\'', '\'' }, 'q' }, { { '`', '`' }, 'g' }, }; for (auto& sur : surrounding_pairs) { if (sur.pair.first == c or sur.pair.second == c or (sur.name != 0 and sur.name == c)) return select(context, std::bind(select_surrounding, _1, _2, sur.pair, level, flags)); } }, "select object", "b,(,): parenthesis block\n" "B,{,}: braces block \n" "r,[,]: brackets block \n" "a,<,>: angle block \n" "\",Q: double quote string\n" "',q: single quote string\n" "`,g: grave quote string \n" "w: word \n" "W: WORD \n" "s: sentence \n" "p: paragraph \n" "␣: whitespaces \n" "i: indent \n"); } template void scroll(Context& context, NormalParams) { static_assert(key == Key::PageUp or key == Key::PageDown, "scrool only implements PageUp and PageDown"); Window& window = context.window(); Buffer& buffer = context.buffer(); CharCoord 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(position.line), buffer.iterator_at(position.line+1), position.column); select_coord(buffer, cursor_pos.coord(), context.selections()); window.set_position(position); } template void copy_selections_on_next_lines(Context& context, NormalParams params) { auto& selections = context.selections(); auto& buffer = context.buffer(); Vector result; for (auto& sel : selections) { auto anchor = sel.anchor(); auto cursor = sel.cursor(); result.push_back(std::move(sel)); for (int i = 0; i < std::max(params.count, 1); ++i) { LineCount offset = (direction == Forward ? 1 : -1) * (i + 1); ByteCoord new_anchor{anchor.line + offset, anchor.column}; ByteCoordAndTarget new_cursor{cursor.line + offset, cursor.column, cursor.target}; if (buffer.is_valid(new_anchor) and buffer.is_valid(new_cursor)) result.emplace_back(new_anchor, new_cursor); } } selections = std::move(result); selections.sort_and_merge_overlapping(); } void rotate_selections(Context& context, NormalParams params) { context.selections().rotate_main(params.count != 0 ? params.count : 1); } void rotate_selections_content(Context& context, NormalParams params) { int group = params.count; int count = 1; auto strings = context.selections_content(); if (group == 0 or group > (int)strings.size()) group = (int)strings.size(); count = count % group; for (auto it = strings.begin(); it != strings.end(); ) { auto end = std::min(strings.end(), it + group); std::rotate(it, end-count, end); it = end; } context.selections().insert(strings, InsertMode::Replace); context.selections().rotate_main(count); } enum class SelectFlags { None = 0, Reverse = 1, Inclusive = 2, Extend = 4 }; template<> struct WithBitOps : std::true_type {}; template void select_to_next_char(Context& context, NormalParams params) { on_next_key_with_autoinfo(context, KeymapMode::None, [params](Key key, Context& context) { select( context, std::bind(flags & SelectFlags::Reverse ? select_to_reverse : select_to, _1, _2, key.key, params.count, flags & SelectFlags::Inclusive)); }, "select to next char","enter char to select to"); } static bool is_basic_alpha(Codepoint c) { return (c >= 'a' and c <= 'z') or (c >= 'A' and c <= 'Z'); } void start_or_end_macro_recording(Context& context, NormalParams) { if (context.input_handler().is_recording()) context.input_handler().stop_recording(); else on_next_key_with_autoinfo(context, KeymapMode::None, [](Key key, Context& context) { if (key.modifiers == Key::Modifiers::None and is_basic_alpha(key.key)) context.input_handler().start_recording(tolower(key.key)); }, "record macro", "enter macro name "); } void end_macro_recording(Context& context, NormalParams) { if (context.input_handler().is_recording()) context.input_handler().stop_recording(); } void replay_macro(Context& context, NormalParams params) { on_next_key_with_autoinfo(context, KeymapMode::None, [params](Key key, Context& context) mutable { if (key.modifiers == Key::Modifiers::None and is_basic_alpha(key.key)) { static bool running_macros[26] = {}; const char name = tolower(key.key); const size_t idx = (size_t)(name - 'a'); if (running_macros[idx]) throw runtime_error("recursive macros call detected"); ArrayView reg_val = RegisterManager::instance()[name].values(context); if (not reg_val.empty()) { running_macros[idx] = true; auto stop = on_scope_end([&]{ running_macros[idx] = false; }); auto keys = parse_keys(reg_val[0]); ScopedEdition edition(context); do { exec_keys(keys, context); } while (--params.count > 0); } } }, "replay macro", "enter macro name"); } template void jump(Context& context, NormalParams) { auto jump = (direction == Forward) ? context.jump_forward() : context.jump_backward(); Buffer& buffer = const_cast(jump.buffer()); BufferManager::instance().set_last_used_buffer(buffer); if (&buffer != &context.buffer()) context.change_buffer(buffer); context.selections() = jump; } void save_selections(Context& context, NormalParams) { context.push_jump(); context.print_status({ "saved " + to_string(context.selections().size()) + " selections", get_face("Information") }); } void align(Context& context, NormalParams) { auto& selections = context.selections(); auto& buffer = context.buffer(); const CharCount tabstop = context.options()["tabstop"].get(); Vector> columns; LineCount last_line = -1; size_t column = 0; for (auto& sel : selections) { auto line = sel.cursor().line; if (sel.anchor().line != line) throw runtime_error("align cannot work with multi line selections"); column = (line == last_line) ? column + 1 : 0; if (column >= columns.size()) columns.resize(column+1); columns[column].push_back(&sel); last_line = line; } const bool use_tabs = context.options()["aligntab"].get(); for (auto& col : columns) { CharCount maxcol = 0; for (auto& sel : col) maxcol = std::max(get_column(buffer, tabstop, sel->cursor()), maxcol); for (auto& sel : col) { auto insert_coord = sel->min(); auto lastcol = get_column(buffer, tabstop, sel->cursor()); String padstr; if (not use_tabs) padstr = String{ ' ', maxcol - lastcol }; else { auto inscol = get_column(buffer, tabstop, insert_coord); auto targetcol = maxcol - (lastcol - inscol); auto tabcol = inscol - (inscol % tabstop); auto tabs = (targetcol - tabcol) / tabstop; auto spaces = targetcol - (tabs ? (tabcol + tabs * tabstop) : inscol); padstr = String{ '\t', tabs } + String{ ' ', spaces }; } buffer.insert(buffer.iterator_at(insert_coord), std::move(padstr)); } selections.update(); } } void copy_indent(Context& context, NormalParams params) { int selection = params.count; auto& buffer = context.buffer(); auto& selections = context.selections(); Vector lines; for (auto sel : selections) { for (LineCount l = sel.min().line; l < sel.max().line + 1; ++l) lines.push_back(l); } if (selection > selections.size()) throw runtime_error("invalid selection index"); if (selection == 0) selection = context.selections().main_index() + 1; auto ref_line = selections[selection-1].min().line; auto line = buffer[ref_line]; auto it = line.begin(); while (it != line.end() and is_horizontal_blank(*it)) ++it; const StringView indent = line.substr(0_byte, (int)(it-line.begin())); ScopedEdition edition{context}; for (auto& l : lines) { if (l == ref_line) continue; auto line = buffer[l]; ByteCount i = 0; while (i < line.length() and is_horizontal_blank(line[i])) ++i; buffer.erase(buffer.iterator_at(l), buffer.iterator_at({l, i})); buffer.insert(buffer.iterator_at(l), indent); } } void tabs_to_spaces(Context& context, NormalParams params) { auto& buffer = context.buffer(); const CharCount opt_tabstop = context.options()["tabstop"].get(); const CharCount tabstop = params.count == 0 ? opt_tabstop : params.count; Vector tabs; Vector spaces; for (auto& sel : context.selections()) { for (auto it = buffer.iterator_at(sel.min()), end = buffer.iterator_at(sel.max())+1; it != end; ++it) { if (*it == '\t') { CharCount col = get_column(buffer, opt_tabstop, it.coord()); CharCount end_col = (col / tabstop + 1) * tabstop; tabs.push_back({ it.coord() }); spaces.push_back(String{ ' ', end_col - col }); } } } if (not tabs.empty()) SelectionList{ buffer, std::move(tabs) }.insert(spaces, InsertMode::Replace); } void spaces_to_tabs(Context& context, NormalParams params) { auto& buffer = context.buffer(); const CharCount opt_tabstop = context.options()["tabstop"].get(); const CharCount tabstop = params.count == 0 ? opt_tabstop : params.count; Vector spaces; for (auto& sel : context.selections()) { for (auto it = buffer.iterator_at(sel.min()), end = buffer.iterator_at(sel.max())+1; it != end;) { if (*it == ' ') { auto spaces_beg = it; auto spaces_end = spaces_beg+1; CharCount col = get_column(buffer, opt_tabstop, spaces_end.coord()); while (*spaces_end == ' ' and (col % tabstop) != 0) { ++spaces_end; ++col; } if ((col % tabstop) == 0) spaces.push_back({spaces_beg.coord(), (spaces_end-1).coord()}); else if (*spaces_end == '\t') spaces.push_back({spaces_beg.coord(), spaces_end.coord()}); it = spaces_end; } else ++it; } } if (not spaces.empty()) SelectionList{ buffer, std::move(spaces) }.insert("\t"_str, InsertMode::Replace); } void undo(Context& context, NormalParams) { Buffer& buffer = context.buffer(); size_t timestamp = buffer.timestamp(); bool res = buffer.undo(); if (res) { auto ranges = compute_modified_ranges(buffer, timestamp); if (not ranges.empty()) context.set_selections(std::move(ranges)); context.selections().avoid_eol(); } else if (not res) context.print_status({ "nothing left to undo", get_face("Information") }); } void redo(Context& context, NormalParams) { using namespace std::placeholders; Buffer& buffer = context.buffer(); size_t timestamp = buffer.timestamp(); bool res = buffer.redo(); if (res) { auto ranges = compute_modified_ranges(buffer, timestamp); if (not ranges.empty()) context.set_selections(std::move(ranges)); context.selections().avoid_eol(); } else if (not res) context.print_status({ "nothing left to redo", get_face("Information") }); } void exec_user_mappings(Context& context, NormalParams params) { on_next_key_with_autoinfo(context, KeymapMode::None, [params](Key key, Context& context) mutable { if (not context.keymaps().is_mapped(key, KeymapMode::User)) return; auto mapping = context.keymaps().get_mapping(key, KeymapMode::User); ScopedEdition edition(context); exec_keys(mapping, context); }, "user mapping", "enter user key"); } template class Repeated { public: constexpr Repeated(T t) : m_func(t) {} void operator() (Context& context, NormalParams params) { ScopedEdition edition(context); do { m_func(context, {0, params.reg}); } while(--params.count > 0); } private: T m_func; }; template constexpr Repeated repeated(T func) { return Repeated(func); } template void move(Context& context, NormalParams params) { kak_assert(mode == SelectMode::Replace or mode == SelectMode::Extend); Type offset(std::max(params.count,1)); if (direction == Backward) offset = -offset; auto& selections = context.selections(); for (auto& sel : selections) { auto cursor = context.has_window() ? context.window().offset_coord(sel.cursor(), offset) : context.buffer().offset_coord(sel.cursor(), offset); sel.anchor() = mode == SelectMode::Extend ? sel.anchor() : cursor; sel.cursor() = cursor; } selections.avoid_eol(); selections.sort_and_merge_overlapping(); } KeyMap keymap = { { 'h', { "move left", move } }, { 'j', { "move down", move } }, { 'k', { "move up", move } }, { 'l', { "move right", move } }, { 'H', { "extend left", move } }, { 'J', { "extend down", move } }, { 'K', { "extend up", move } }, { 'L', { "extend right", move } }, { 't', { "select to next character", select_to_next_char } }, { 'f', { "select to next character included", select_to_next_char } }, { 'T', { "extend to next character", select_to_next_char } }, { 'F', { "extend to next character included", select_to_next_char } }, { alt('t'), { "select to previous character", select_to_next_char } }, { alt('f'), { "select to previous character included", select_to_next_char } }, { alt('T'), { "extend to previous character", select_to_next_char } }, { alt('F'), { "extend to previous character included", select_to_next_char } }, { 'd', { "erase selected text", erase_selections } }, { 'c', { "change selected text", change } }, { 'i', { "insert before selected text", enter_insert_mode } }, { 'I', { "insert at line begin", enter_insert_mode } }, { 'a', { "insert after selected text", enter_insert_mode } }, { 'A', { "insert at line end", enter_insert_mode } }, { 'o', { "insert on new line below", enter_insert_mode } }, { 'O', { "insert on new line above", enter_insert_mode } }, { 'r', { "replace with character", replace_with_char } }, { 'g', { "go to location", goto_commands } }, { 'G', { "extend to location", goto_commands } }, { 'v', { "move view", view_commands } }, { 'y', { "yank selected text", yank } }, { 'p', { "paste after selected text", repeated(paste) } }, { 'P', { "paste before selected text", repeated(paste) } }, { alt('p'), { "paste every yanked selection after selected text", paste_all } }, { alt('P'), { "paste every yanked selection before selected text", paste_all } }, { 'R', { "replace selected text with yanked text", paste } }, { 's', { "select regex matches in selected text", select_regex } }, { 'S', { "split selected text on regex matches", split_regex } }, { alt('s'), { "split selected text on line ends", split_lines } }, { '.', { "repeat last insert command", repeat_last_insert } }, { '%', { "select whole buffer", [](Context& context, NormalParams) { select_buffer(context.selections()); } } }, { ':', { "enter command prompt", command } }, { '|', { "pipe each selection through filter and replace with output", pipe } }, { alt('|'), { "pipe each selection through command and ignore output", pipe } }, { '!', { "insert command output", insert_output } }, { alt('!'), { "append command output", insert_output } }, { ' ', { "remove all selection except main", [](Context& context, NormalParams p) { keep_selection(context.selections(), p.count ? p.count-1 : context.selections().main_index()); } } }, { alt(' '), { "remove main selection", [](Context& context, NormalParams p) { remove_selection(context.selections(), p.count ? p.count-1 : context.selections().main_index()); } } }, { ';', { "reduce selections to their cursor", [](Context& context, NormalParams) { clear_selections(context.selections()); } } }, { alt(';'), { "swap selections cursor and anchor", [](Context& context, NormalParams) { flip_selections(context.selections()); } } }, { 'w', { "select to next word start", repeated(make_select(select_to_next_word)) } }, { 'e', { "select to next word end", repeated(make_select(select_to_next_word_end)) } }, { 'b', { "select to prevous word start", repeated(make_select(select_to_previous_word)) } }, { 'W', { "extend to next word start", repeated(make_select(select_to_next_word)) } }, { 'E', { "extend to next word end", repeated(make_select(select_to_next_word_end)) } }, { 'B', { "extend to prevous word start", repeated(make_select(select_to_previous_word)) } }, { alt('w'), { "select to next WORD start", repeated(make_select(select_to_next_word)) } }, { alt('e'), { "select to next WORD end", repeated(make_select(select_to_next_word_end)) } }, { alt('b'), { "select to prevous WORD start", repeated(make_select(select_to_previous_word)) } }, { alt('W'), { "extend to next WORD start", repeated(make_select(select_to_next_word)) } }, { alt('E'), { "extend to next WORD end", repeated(make_select(select_to_next_word_end)) } }, { alt('B'), { "extend to prevous WORD start", repeated(make_select(select_to_previous_word)) } }, { alt('l'), { "select to line end", repeated(make_select(select_to_eol)) } }, { alt('L'), { "extend to line end", repeated(make_select(select_to_eol)) } }, { alt('h'), { "select to line begin", repeated(make_select(select_to_eol_reverse)) } }, { alt('H'), { "extend to line begin", repeated(make_select(select_to_eol_reverse)) } }, { 'x', { "select line", repeated(make_select(select_line)) } }, { 'X', { "extend line", repeated(make_select(select_line)) } }, { alt('x'), { "extend selections to whole lines", make_select(select_lines) } }, { alt('X'), { "crop selections to whole lines", make_select(trim_partial_lines) } }, { 'm', { "select to matching character", make_select(select_matching) } }, { 'M', { "extend to matching character", make_select(select_matching) } }, { '/', { "select next given regex match", search } }, { '?', { "extend with next given regex match", search } }, { alt('/'), { "select previous given regex match", search } }, { alt('?'), { "extend with previous given regex match", search } }, { 'n', { "select next current search pattern match", search_next } }, { 'N', { "extend with next current search pattern match", search_next } }, { alt('n'), { "select previous current search pattern match", search_next } }, { alt('N'), { "extend with previous current search pattern match", search_next } }, { '*', { "set search pattern to main selection content", use_selection_as_search_pattern } }, { alt('*'), { "set search pattern to main selection content, do not detect words", use_selection_as_search_pattern } }, { 'u', { "undo", undo } }, { 'U', { "redo", redo } }, { alt('i'), { "select inner object", select_object } }, { alt('a'), { "select whole object", select_object } }, { '[', { "select to object start", select_object } }, { ']', { "select to object end", select_object } }, { '{', { "extend to object start", select_object } }, { '}', { "extend to object end", select_object } }, { alt('['), { "select to inner object start", select_object } }, { alt(']'), { "select to inner object end", select_object } }, { alt('{'), { "extend to inner object start", select_object } }, { alt('}'), { "extend to inner object end", select_object } }, { alt('j'), { "join lines", join_lines } }, { alt('J'), { "join lines and select spaces", join_lines_select_spaces } }, { alt('k'), { "keep selections matching given regex", keep } }, { alt('K'), { "keep selections not matching given regex", keep } }, { '$', { "pipe each selection through shell command and keep the ones whose command succeed", keep_pipe } }, { '<', { "deindent", deindent } }, { '>', { "indent", indent } }, { alt('>'), { "indent, including empty lines", indent } }, { alt('<'), { "deindent, not including incomplete indent", deindent } }, { ctrl('i'), { "jump forward in jump list",jump } }, { ctrl('o'), { "jump backward in jump list", jump } }, { ctrl('s'), { "push current selections in jump list", save_selections } }, { alt('r'), { "rotate main selection", rotate_selections } }, { alt('R'), { "rotate selections content", rotate_selections_content } }, { 'q', { "replay recorded macro", replay_macro } }, { 'Q', { "start or end macro recording", start_or_end_macro_recording } }, { Key::Escape, { "end macro recording", end_macro_recording } }, { '`', { "convert to lower case in selections", for_each_char } }, { '~', { "convert to upper case in selections", for_each_char } }, { alt('`'), { "swap case in selections", for_each_char } }, { '&', { "align selection cursors", align } }, { alt('&'), { "copy indentation", copy_indent } }, { '@', { "convert tabs to spaces in selections", tabs_to_spaces } }, { alt('@'), { "convert spaces to tabs in selections", spaces_to_tabs } }, { 'C', { "copy selection on next lines", copy_selections_on_next_lines } }, { alt('C'), { "copy selection on previous lines", copy_selections_on_next_lines } }, { ',', { "user mappings", exec_user_mappings } }, { Key::Left, { "move left", move } }, { Key::Down, { "move down", move } }, { Key::Up, { "move up", move } }, { Key::Right, { "move right", move } }, { ctrl('b'), { "scroll one page up", scroll } }, { ctrl('f'), { "scroll one page down", scroll } }, { Key::PageUp, { "scroll one page up", scroll } }, { Key::PageDown, { "scroll one page down", scroll } }, }; }