Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

403WebShell
403Webshell
Server IP : 66.29.132.124  /  Your IP : 18.118.144.50
Web Server : LiteSpeed
System : Linux business141.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64
User : wavevlvu ( 1524)
PHP Version : 7.4.33
Disable Function : NONE
MySQL : OFF  |  cURL : ON  |  WGET : ON  |  Perl : ON  |  Python : ON  |  Sudo : OFF  |  Pkexec : OFF
Directory :  /proc/thread-self/root/proc/thread-self/root/opt/alt/ruby33/share/ruby/reline/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Command :


[ Back ]     

Current File : /proc/thread-self/root/proc/thread-self/root/opt/alt/ruby33/share/ruby/reline//line_editor.rb
require 'reline/kill_ring'
require 'reline/unicode'

require 'tempfile'

class Reline::LineEditor
  # TODO: Use "private alias_method" idiom after drop Ruby 2.5.
  attr_reader :byte_pointer
  attr_accessor :confirm_multiline_termination_proc
  attr_accessor :completion_proc
  attr_accessor :completion_append_character
  attr_accessor :output_modifier_proc
  attr_accessor :prompt_proc
  attr_accessor :auto_indent_proc
  attr_accessor :dig_perfect_match_proc
  attr_writer :output

  VI_MOTIONS = %i{
    ed_prev_char
    ed_next_char
    vi_zero
    ed_move_to_beg
    ed_move_to_end
    vi_to_column
    vi_next_char
    vi_prev_char
    vi_next_word
    vi_prev_word
    vi_to_next_char
    vi_to_prev_char
    vi_end_word
    vi_next_big_word
    vi_prev_big_word
    vi_end_big_word
  }

  module CompletionState
    NORMAL = :normal
    COMPLETION = :completion
    MENU = :menu
    MENU_WITH_PERFECT_MATCH = :menu_with_perfect_match
    PERFECT_MATCH = :perfect_match
  end

  RenderedScreen = Struct.new(:base_y, :lines, :cursor_y, keyword_init: true)

  CompletionJourneyState = Struct.new(:line_index, :pre, :target, :post, :list, :pointer)

  class MenuInfo
    attr_reader :list

    def initialize(list)
      @list = list
    end

    def lines(screen_width)
      return [] if @list.empty?

      list = @list.sort
      sizes = list.map { |item| Reline::Unicode.calculate_width(item) }
      item_width = sizes.max + 2
      num_cols = [screen_width / item_width, 1].max
      num_rows = list.size.fdiv(num_cols).ceil
      list_with_padding = list.zip(sizes).map { |item, size| item + ' ' * (item_width - size) }
      aligned = (list_with_padding + [nil] * (num_rows * num_cols - list_with_padding.size)).each_slice(num_rows).to_a.transpose
      aligned.map do |row|
        row.join.rstrip
      end
    end
  end

  MINIMUM_SCROLLBAR_HEIGHT = 1

  def initialize(config, encoding)
    @config = config
    @completion_append_character = ''
    @screen_size = [0, 0] # Should be initialized with actual winsize in LineEditor#reset
    reset_variables(encoding: encoding)
  end

  def io_gate
    Reline::IOGate
  end

  def set_pasting_state(in_pasting)
    # While pasting, text to be inserted is stored to @continuous_insertion_buffer.
    # After pasting, this buffer should be force inserted.
    process_insert(force: true) if @in_pasting && !in_pasting
    @in_pasting = in_pasting
  end

  private def check_mode_string
    if @config.show_mode_in_prompt
      if @config.editing_mode_is?(:vi_command)
        @config.vi_cmd_mode_string
      elsif @config.editing_mode_is?(:vi_insert)
        @config.vi_ins_mode_string
      elsif @config.editing_mode_is?(:emacs)
        @config.emacs_mode_string
      else
        '?'
      end
    end
  end

  private def check_multiline_prompt(buffer, mode_string)
    if @vi_arg
      prompt = "(arg: #{@vi_arg}) "
    elsif @searching_prompt
      prompt = @searching_prompt
    else
      prompt = @prompt
    end
    if !@is_multiline
      mode_string = check_mode_string
      prompt = mode_string + prompt if mode_string
      [prompt] + [''] * (buffer.size - 1)
    elsif @prompt_proc
      prompt_list = @prompt_proc.(buffer).map { |pr| pr.gsub("\n", "\\n") }
      prompt_list.map!{ prompt } if @vi_arg or @searching_prompt
      prompt_list = [prompt] if prompt_list.empty?
      prompt_list = prompt_list.map{ |pr| mode_string + pr } if mode_string
      prompt = prompt_list[@line_index]
      prompt = prompt_list[0] if prompt.nil?
      prompt = prompt_list.last if prompt.nil?
      if buffer.size > prompt_list.size
        (buffer.size - prompt_list.size).times do
          prompt_list << prompt_list.last
        end
      end
      prompt_list
    else
      prompt = mode_string + prompt if mode_string
      [prompt] * buffer.size
    end
  end

  def reset(prompt = '', encoding:)
    @screen_size = Reline::IOGate.get_screen_size
    reset_variables(prompt, encoding: encoding)
    @rendered_screen.base_y = Reline::IOGate.cursor_pos.y
    if ENV.key?('RELINE_ALT_SCROLLBAR')
      @full_block = '::'
      @upper_half_block = "''"
      @lower_half_block = '..'
      @block_elem_width = 2
    elsif Reline::IOGate.win?
      @full_block = '█'
      @upper_half_block = '▀'
      @lower_half_block = '▄'
      @block_elem_width = 1
    elsif @encoding == Encoding::UTF_8
      @full_block = '█'
      @upper_half_block = '▀'
      @lower_half_block = '▄'
      @block_elem_width = Reline::Unicode.calculate_width('█')
    else
      @full_block = '::'
      @upper_half_block = "''"
      @lower_half_block = '..'
      @block_elem_width = 2
    end
  end

  def handle_signal
    handle_interrupted
    handle_resized
  end

  private def handle_resized
    return unless @resized

    @screen_size = Reline::IOGate.get_screen_size
    @resized = false
    scroll_into_view
    Reline::IOGate.move_cursor_up @rendered_screen.cursor_y
    @rendered_screen.base_y = Reline::IOGate.cursor_pos.y
    @rendered_screen.lines = []
    @rendered_screen.cursor_y = 0
    render_differential
  end

  private def handle_interrupted
    return unless @interrupted

    @interrupted = false
    clear_dialogs
    scrolldown = render_differential
    Reline::IOGate.scroll_down scrolldown
    Reline::IOGate.move_cursor_column 0
    @rendered_screen.lines = []
    @rendered_screen.cursor_y = 0
    case @old_trap
    when 'DEFAULT', 'SYSTEM_DEFAULT'
      raise Interrupt
    when 'IGNORE'
      # Do nothing
    when 'EXIT'
      exit
    else
      @old_trap.call if @old_trap.respond_to?(:call)
    end
  end

  def set_signal_handlers
    Reline::IOGate.set_winch_handler do
      @resized = true
    end
    @old_trap = Signal.trap('INT') do
      @interrupted = true
    end
  end

  def finalize
    Signal.trap('INT', @old_trap)
  end

  def eof?
    @eof
  end

  def reset_variables(prompt = '', encoding:)
    @prompt = prompt.gsub("\n", "\\n")
    @mark_pointer = nil
    @encoding = encoding
    @is_multiline = false
    @finished = false
    @history_pointer = nil
    @kill_ring ||= Reline::KillRing.new
    @vi_clipboard = ''
    @vi_arg = nil
    @waiting_proc = nil
    @vi_waiting_operator = nil
    @vi_waiting_operator_arg = nil
    @completion_journey_state = nil
    @completion_state = CompletionState::NORMAL
    @perfect_matched = nil
    @menu_info = nil
    @searching_prompt = nil
    @first_char = true
    @just_cursor_moving = false
    @eof = false
    @continuous_insertion_buffer = String.new(encoding: @encoding)
    @scroll_partial_screen = 0
    @drop_terminate_spaces = false
    @in_pasting = false
    @auto_indent_proc = nil
    @dialogs = []
    @interrupted = false
    @resized = false
    @cache = {}
    @rendered_screen = RenderedScreen.new(base_y: 0, lines: [], cursor_y: 0)
    @past_lines = []
    @undoing = false
    reset_line
  end

  def reset_line
    @byte_pointer = 0
    @buffer_of_lines = [String.new(encoding: @encoding)]
    @line_index = 0
    @cache.clear
    @line_backup_in_history = nil
    @multibyte_buffer = String.new(encoding: 'ASCII-8BIT')
  end

  def multiline_on
    @is_multiline = true
  end

  def multiline_off
    @is_multiline = false
  end

  private def insert_new_line(cursor_line, next_line)
    @buffer_of_lines.insert(@line_index + 1, String.new(next_line, encoding: @encoding))
    @buffer_of_lines[@line_index] = cursor_line
    @line_index += 1
    @byte_pointer = 0
    if @auto_indent_proc && !@in_pasting
      if next_line.empty?
        (
          # For compatibility, use this calculation instead of just `process_auto_indent @line_index - 1, cursor_dependent: false`
          indent1 = @auto_indent_proc.(@buffer_of_lines.take(@line_index - 1).push(''), @line_index - 1, 0, true)
          indent2 = @auto_indent_proc.(@buffer_of_lines.take(@line_index), @line_index - 1, @buffer_of_lines[@line_index - 1].bytesize, false)
          indent = indent2 || indent1
          @buffer_of_lines[@line_index - 1] = ' ' * indent + @buffer_of_lines[@line_index - 1].gsub(/\A\s*/, '')
        )
        process_auto_indent @line_index, add_newline: true
      else
        process_auto_indent @line_index - 1, cursor_dependent: false
        process_auto_indent @line_index, add_newline: true # Need for compatibility
        process_auto_indent @line_index, cursor_dependent: false
      end
    end
  end

  private def split_by_width(str, max_width, offset: 0)
    Reline::Unicode.split_by_width(str, max_width, @encoding, offset: offset)
  end

  def current_byte_pointer_cursor
    calculate_width(current_line.byteslice(0, @byte_pointer))
  end

  private def calculate_nearest_cursor(cursor)
    line_to_calc = current_line
    new_cursor_max = calculate_width(line_to_calc)
    new_cursor = 0
    new_byte_pointer = 0
    height = 1
    max_width = screen_width
    if @config.editing_mode_is?(:vi_command)
      last_byte_size = Reline::Unicode.get_prev_mbchar_size(line_to_calc, line_to_calc.bytesize)
      if last_byte_size > 0
        last_mbchar = line_to_calc.byteslice(line_to_calc.bytesize - last_byte_size, last_byte_size)
        last_width = Reline::Unicode.get_mbchar_width(last_mbchar)
        end_of_line_cursor = new_cursor_max - last_width
      else
      end_of_line_cursor = new_cursor_max
      end
    else
    end_of_line_cursor = new_cursor_max
    end
    line_to_calc.grapheme_clusters.each do |gc|
      mbchar = gc.encode(Encoding::UTF_8)
      mbchar_width = Reline::Unicode.get_mbchar_width(mbchar)
      now = new_cursor + mbchar_width
      if now > end_of_line_cursor or now > cursor
        break
      end
      new_cursor += mbchar_width
      if new_cursor > max_width * height
        height += 1
      end
      new_byte_pointer += gc.bytesize
    end
    @byte_pointer = new_byte_pointer
  end

  def with_cache(key, *deps)
    cached_deps, value = @cache[key]
    if cached_deps != deps
      @cache[key] = [deps, value = yield(*deps, cached_deps, value)]
    end
    value
  end

  def modified_lines
    with_cache(__method__, whole_lines, finished?) do |whole, complete|
      modify_lines(whole, complete)
    end
  end

  def prompt_list
    with_cache(__method__, whole_lines, check_mode_string, @vi_arg, @searching_prompt) do |lines, mode_string|
      check_multiline_prompt(lines, mode_string)
    end
  end

  def screen_height
    @screen_size.first
  end

  def screen_width
    @screen_size.last
  end

  def screen_scroll_top
    @scroll_partial_screen
  end

  def wrapped_prompt_and_input_lines
    with_cache(__method__, @buffer_of_lines.size, modified_lines, prompt_list, screen_width) do |n, lines, prompts, width, prev_cache_key, cached_value|
      prev_n, prev_lines, prev_prompts, prev_width = prev_cache_key
      cached_wraps = {}
      if prev_width == width
        prev_n.times do |i|
          cached_wraps[[prev_prompts[i], prev_lines[i]]] = cached_value[i]
        end
      end

      n.times.map do |i|
        prompt = prompts[i] || ''
        line = lines[i] || ''
        if (cached = cached_wraps[[prompt, line]])
          next cached
        end
        *wrapped_prompts, code_line_prompt = split_by_width(prompt, width).first.compact
        wrapped_lines = split_by_width(line, width, offset: calculate_width(code_line_prompt, true)).first.compact
        wrapped_prompts.map { |p| [p, ''] } + [[code_line_prompt, wrapped_lines.first]] + wrapped_lines.drop(1).map { |c| ['', c] }
      end
    end
  end

  def calculate_overlay_levels(overlay_levels)
    levels = []
    overlay_levels.each do |x, w, l|
      levels.fill(l, x, w)
    end
    levels
  end

  def render_line_differential(old_items, new_items)
    old_levels = calculate_overlay_levels(old_items.zip(new_items).each_with_index.map {|((x, w, c), (nx, _nw, nc)), i| [x, w, c == nc && x == nx ? i : -1] if x }.compact)
    new_levels = calculate_overlay_levels(new_items.each_with_index.map { |(x, w), i| [x, w, i] if x }.compact).take(screen_width)
    base_x = 0
    new_levels.zip(old_levels).chunk { |n, o| n == o ? :skip : n || :blank }.each do |level, chunk|
      width = chunk.size
      if level == :skip
        # do nothing
      elsif level == :blank
        Reline::IOGate.move_cursor_column base_x
        @output.write "#{Reline::IOGate::RESET_COLOR}#{' ' * width}"
      else
        x, w, content = new_items[level]
        cover_begin = base_x != 0 && new_levels[base_x - 1] == level
        cover_end = new_levels[base_x + width] == level
        pos = 0
        unless x == base_x && w == width
          content, pos = Reline::Unicode.take_mbchar_range(content, base_x - x, width, cover_begin: cover_begin, cover_end: cover_end, padding: true)
        end
        Reline::IOGate.move_cursor_column x + pos
        @output.write "#{Reline::IOGate::RESET_COLOR}#{content}#{Reline::IOGate::RESET_COLOR}"
      end
      base_x += width
    end
    if old_levels.size > new_levels.size
      Reline::IOGate.move_cursor_column new_levels.size
      Reline::IOGate.erase_after_cursor
    end
  end

  # Calculate cursor position in word wrapped content.
  def wrapped_cursor_position
    prompt_width = calculate_width(prompt_list[@line_index], true)
    line_before_cursor = whole_lines[@line_index].byteslice(0, @byte_pointer)
    wrapped_line_before_cursor = split_by_width(' ' * prompt_width + line_before_cursor, screen_width).first.compact
    wrapped_cursor_y = wrapped_prompt_and_input_lines[0...@line_index].sum(&:size) + wrapped_line_before_cursor.size - 1
    wrapped_cursor_x = calculate_width(wrapped_line_before_cursor.last)
    [wrapped_cursor_x, wrapped_cursor_y]
  end

  def clear_dialogs
    @dialogs.each do |dialog|
      dialog.contents = nil
      dialog.trap_key = nil
    end
  end

  def update_dialogs(key = nil)
    wrapped_cursor_x, wrapped_cursor_y = wrapped_cursor_position
    @dialogs.each do |dialog|
      dialog.trap_key = nil
      update_each_dialog(dialog, wrapped_cursor_x, wrapped_cursor_y - screen_scroll_top, key)
    end
  end

  def render_finished
    clear_rendered_lines
    render_full_content
  end

  def clear_rendered_lines
    Reline::IOGate.move_cursor_up @rendered_screen.cursor_y
    Reline::IOGate.move_cursor_column 0

    num_lines = @rendered_screen.lines.size
    return unless num_lines && num_lines >= 1

    Reline::IOGate.move_cursor_down num_lines - 1
    (num_lines - 1).times do
      Reline::IOGate.erase_after_cursor
      Reline::IOGate.move_cursor_up 1
    end
    Reline::IOGate.erase_after_cursor
    @rendered_screen.lines = []
    @rendered_screen.cursor_y = 0
  end

  def render_full_content
    lines = @buffer_of_lines.size.times.map do |i|
      line = prompt_list[i] + modified_lines[i]
      wrapped_lines, = split_by_width(line, screen_width)
      wrapped_lines.last.empty? ? "#{line} " : line
    end
    @output.puts lines.map { |l| "#{l}\r\n" }.join
  end

  def print_nomultiline_prompt(prompt)
    return unless prompt && !@is_multiline

    # Readline's test `TestRelineAsReadline#test_readline` requires first output to be prompt, not cursor reset escape sequence.
    @rendered_screen.lines = [[[0, Reline::Unicode.calculate_width(prompt, true), prompt]]]
    @rendered_screen.cursor_y = 0
    @output.write prompt
  end

  def render_differential
    wrapped_cursor_x, wrapped_cursor_y = wrapped_cursor_position

    rendered_lines = @rendered_screen.lines
    new_lines = wrapped_prompt_and_input_lines.flatten(1)[screen_scroll_top, screen_height].map do |prompt, line|
      prompt_width = Reline::Unicode.calculate_width(prompt, true)
      [[0, prompt_width, prompt], [prompt_width, Reline::Unicode.calculate_width(line, true), line]]
    end
    if @menu_info
      @menu_info.lines(screen_width).each do |item|
        new_lines << [[0, Reline::Unicode.calculate_width(item), item]]
      end
      @menu_info = nil # TODO: do not change state here
    end

    @dialogs.each_with_index do |dialog, index|
      next unless dialog.contents

      x_range, y_range = dialog_range dialog, wrapped_cursor_y - screen_scroll_top
      y_range.each do |row|
        next if row < 0 || row >= screen_height
        dialog_rows = new_lines[row] ||= []
        # index 0 is for prompt, index 1 is for line, index 2.. is for dialog
        dialog_rows[index + 2] = [x_range.begin, dialog.width, dialog.contents[row - y_range.begin]]
      end
    end

    cursor_y = @rendered_screen.cursor_y
    if new_lines != rendered_lines
      # Hide cursor while rendering to avoid cursor flickering.
      Reline::IOGate.hide_cursor
      num_lines = [[new_lines.size, rendered_lines.size].max, screen_height].min
      if @rendered_screen.base_y + num_lines > screen_height
        Reline::IOGate.scroll_down(num_lines - cursor_y - 1)
        @rendered_screen.base_y = screen_height - num_lines
        cursor_y = num_lines - 1
      end
      num_lines.times do |i|
        rendered_line = rendered_lines[i] || []
        line_to_render = new_lines[i] || []
        next if rendered_line == line_to_render

        Reline::IOGate.move_cursor_down i - cursor_y
        cursor_y = i
        unless rendered_lines[i]
          Reline::IOGate.move_cursor_column 0
          Reline::IOGate.erase_after_cursor
        end
        render_line_differential(rendered_line, line_to_render)
      end
      @rendered_screen.lines = new_lines
      Reline::IOGate.show_cursor
    end
    y = wrapped_cursor_y - screen_scroll_top
    Reline::IOGate.move_cursor_column wrapped_cursor_x
    Reline::IOGate.move_cursor_down y - cursor_y
    @rendered_screen.cursor_y = y
    new_lines.size - y
  end

  def upper_space_height(wrapped_cursor_y)
    wrapped_cursor_y - screen_scroll_top
  end

  def rest_height(wrapped_cursor_y)
    screen_height - wrapped_cursor_y + screen_scroll_top - @rendered_screen.base_y - 1
  end

  def rerender
    render_differential unless @in_pasting
  end

  class DialogProcScope
    CompletionJourneyData = Struct.new(:preposing, :postposing, :list, :pointer)

    def initialize(line_editor, config, proc_to_exec, context)
      @line_editor = line_editor
      @config = config
      @proc_to_exec = proc_to_exec
      @context = context
      @cursor_pos = Reline::CursorPos.new
    end

    def context
      @context
    end

    def retrieve_completion_block(set_completion_quote_character = false)
      @line_editor.retrieve_completion_block(set_completion_quote_character)
    end

    def call_completion_proc_with_checking_args(pre, target, post)
      @line_editor.call_completion_proc_with_checking_args(pre, target, post)
    end

    def set_dialog(dialog)
      @dialog = dialog
    end

    def dialog
      @dialog
    end

    def set_cursor_pos(col, row)
      @cursor_pos.x = col
      @cursor_pos.y = row
    end

    def set_key(key)
      @key = key
    end

    def key
      @key
    end

    def cursor_pos
      @cursor_pos
    end

    def just_cursor_moving
      @line_editor.instance_variable_get(:@just_cursor_moving)
    end

    def screen_width
      @line_editor.screen_width
    end

    def screen_height
      @line_editor.screen_height
    end

    def preferred_dialog_height
      _wrapped_cursor_x, wrapped_cursor_y = @line_editor.wrapped_cursor_position
      [@line_editor.upper_space_height(wrapped_cursor_y), @line_editor.rest_height(wrapped_cursor_y), (screen_height + 6) / 5].max
    end

    def completion_journey_data
      @line_editor.dialog_proc_scope_completion_journey_data
    end

    def config
      @config
    end

    def call
      instance_exec(&@proc_to_exec)
    end
  end

  class Dialog
    attr_reader :name, :contents, :width
    attr_accessor :scroll_top, :pointer, :column, :vertical_offset, :trap_key

    def initialize(name, config, proc_scope)
      @name = name
      @config = config
      @proc_scope = proc_scope
      @width = nil
      @scroll_top = 0
      @trap_key = nil
    end

    def set_cursor_pos(col, row)
      @proc_scope.set_cursor_pos(col, row)
    end

    def width=(v)
      @width = v
    end

    def contents=(contents)
      @contents = contents
      if contents and @width.nil?
        @width = contents.map{ |line| Reline::Unicode.calculate_width(line, true) }.max
      end
    end

    def call(key)
      @proc_scope.set_dialog(self)
      @proc_scope.set_key(key)
      dialog_render_info = @proc_scope.call
      if @trap_key
        if @trap_key.any?{ |i| i.is_a?(Array) } # multiple trap
          @trap_key.each do |t|
            @config.add_oneshot_key_binding(t, @name)
          end
        elsif @trap_key.is_a?(Array)
          @config.add_oneshot_key_binding(@trap_key, @name)
        elsif @trap_key.is_a?(Integer) or @trap_key.is_a?(Reline::Key)
          @config.add_oneshot_key_binding([@trap_key], @name)
        end
      end
      dialog_render_info
    end
  end

  def add_dialog_proc(name, p, context = nil)
    dialog = Dialog.new(name, @config, DialogProcScope.new(self, @config, p, context))
    if index = @dialogs.find_index { |d| d.name == name }
      @dialogs[index] = dialog
    else
      @dialogs << dialog
    end
  end

  DIALOG_DEFAULT_HEIGHT = 20

  private def dialog_range(dialog, dialog_y)
    x_range = dialog.column...dialog.column + dialog.width
    y_range = dialog_y + dialog.vertical_offset...dialog_y + dialog.vertical_offset + dialog.contents.size
    [x_range, y_range]
  end

  private def update_each_dialog(dialog, cursor_column, cursor_row, key = nil)
    dialog.set_cursor_pos(cursor_column, cursor_row)
    dialog_render_info = dialog.call(key)
    if dialog_render_info.nil? or dialog_render_info.contents.nil? or dialog_render_info.contents.empty?
      dialog.contents = nil
      dialog.trap_key = nil
      return
    end
    contents = dialog_render_info.contents
    pointer = dialog.pointer
    if dialog_render_info.width
      dialog.width = dialog_render_info.width
    else
      dialog.width = contents.map { |l| calculate_width(l, true) }.max
    end
    height = dialog_render_info.height || DIALOG_DEFAULT_HEIGHT
    height = contents.size if contents.size < height
    if contents.size > height
      if dialog.pointer
        if dialog.pointer < 0
          dialog.scroll_top = 0
        elsif (dialog.pointer - dialog.scroll_top) >= (height - 1)
          dialog.scroll_top = dialog.pointer - (height - 1)
        elsif (dialog.pointer - dialog.scroll_top) < 0
          dialog.scroll_top = dialog.pointer
        end
        pointer = dialog.pointer - dialog.scroll_top
      else
        dialog.scroll_top = 0
      end
      contents = contents[dialog.scroll_top, height]
    end
    if dialog_render_info.scrollbar and dialog_render_info.contents.size > height
      bar_max_height = height * 2
      moving_distance = (dialog_render_info.contents.size - height) * 2
      position_ratio = dialog.scroll_top.zero? ? 0.0 : ((dialog.scroll_top * 2).to_f / moving_distance)
      bar_height = (bar_max_height * ((contents.size * 2).to_f / (dialog_render_info.contents.size * 2))).floor.to_i
      bar_height = MINIMUM_SCROLLBAR_HEIGHT if bar_height < MINIMUM_SCROLLBAR_HEIGHT
      scrollbar_pos = ((bar_max_height - bar_height) * position_ratio).floor.to_i
    else
      scrollbar_pos = nil
    end
    dialog.column = dialog_render_info.pos.x
    dialog.width += @block_elem_width if scrollbar_pos
    diff = (dialog.column + dialog.width) - screen_width
    if diff > 0
      dialog.column -= diff
    end
    if rest_height(screen_scroll_top + cursor_row) - dialog_render_info.pos.y >= height
      dialog.vertical_offset = dialog_render_info.pos.y + 1
    elsif cursor_row >= height
      dialog.vertical_offset = dialog_render_info.pos.y - height
    else
      dialog.vertical_offset = dialog_render_info.pos.y + 1
    end
    if dialog.column < 0
      dialog.column = 0
      dialog.width = screen_width
    end
    face = Reline::Face[dialog_render_info.face || :default]
    scrollbar_sgr = face[:scrollbar]
    default_sgr = face[:default]
    enhanced_sgr = face[:enhanced]
    dialog.contents = contents.map.with_index do |item, i|
      line_sgr = i == pointer ? enhanced_sgr : default_sgr
      str_width = dialog.width - (scrollbar_pos.nil? ? 0 : @block_elem_width)
      str, = Reline::Unicode.take_mbchar_range(item, 0, str_width, padding: true)
      colored_content = "#{line_sgr}#{str}"
      if scrollbar_pos
        if scrollbar_pos <= (i * 2) and (i * 2 + 1) < (scrollbar_pos + bar_height)
          colored_content + scrollbar_sgr + @full_block
        elsif scrollbar_pos <= (i * 2) and (i * 2) < (scrollbar_pos + bar_height)
          colored_content + scrollbar_sgr + @upper_half_block
        elsif scrollbar_pos <= (i * 2 + 1) and (i * 2) < (scrollbar_pos + bar_height)
          colored_content + scrollbar_sgr + @lower_half_block
        else
          colored_content + scrollbar_sgr + ' ' * @block_elem_width
        end
      else
        colored_content
      end
    end
  end

  private def modify_lines(before, complete)
    if after = @output_modifier_proc&.call("#{before.join("\n")}\n", complete: complete)
      after.lines("\n").map { |l| l.chomp('') }
    else
      before.map { |l| Reline::Unicode.escape_for_print(l) }
    end
  end

  def editing_mode
    @config.editing_mode
  end

  private def menu(_target, list)
    @menu_info = MenuInfo.new(list)
  end

  private def complete_internal_proc(list, is_menu)
    preposing, target, postposing = retrieve_completion_block
    list = list.select { |i|
      if i and not Encoding.compatible?(target.encoding, i.encoding)
        raise Encoding::CompatibilityError, "#{target.encoding.name} is not compatible with #{i.encoding.name}"
      end
      if @config.completion_ignore_case
        i&.downcase&.start_with?(target.downcase)
      else
        i&.start_with?(target)
      end
    }.uniq
    if is_menu
      menu(target, list)
      return nil
    end
    completed = list.inject { |memo, item|
      begin
        memo_mbchars = memo.unicode_normalize.grapheme_clusters
        item_mbchars = item.unicode_normalize.grapheme_clusters
      rescue Encoding::CompatibilityError
        memo_mbchars = memo.grapheme_clusters
        item_mbchars = item.grapheme_clusters
      end
      size = [memo_mbchars.size, item_mbchars.size].min
      result = +''
      size.times do |i|
        if @config.completion_ignore_case
          if memo_mbchars[i].casecmp?(item_mbchars[i])
            result << memo_mbchars[i]
          else
            break
          end
        else
          if memo_mbchars[i] == item_mbchars[i]
            result << memo_mbchars[i]
          else
            break
          end
        end
      end
      result
    }
    [target, preposing, completed, postposing]
  end

  private def perform_completion(list, just_show_list)
    case @completion_state
    when CompletionState::NORMAL
      @completion_state = CompletionState::COMPLETION
    when CompletionState::PERFECT_MATCH
      @dig_perfect_match_proc&.(@perfect_matched)
    end
    if just_show_list
      is_menu = true
    elsif @completion_state == CompletionState::MENU
      is_menu = true
    elsif @completion_state == CompletionState::MENU_WITH_PERFECT_MATCH
      is_menu = true
    else
      is_menu = false
    end
    result = complete_internal_proc(list, is_menu)
    if @completion_state == CompletionState::MENU_WITH_PERFECT_MATCH
      @completion_state = CompletionState::PERFECT_MATCH
    end
    return if result.nil?
    target, preposing, completed, postposing = result
    return if completed.nil?
    if target <= completed and (@completion_state == CompletionState::COMPLETION)
      if list.include?(completed)
        if list.one?
          @completion_state = CompletionState::PERFECT_MATCH
        else
          @completion_state = CompletionState::MENU_WITH_PERFECT_MATCH
          perform_completion(list, true) if @config.show_all_if_ambiguous
        end
        @perfect_matched = completed
      else
        @completion_state = CompletionState::MENU
        perform_completion(list, true) if @config.show_all_if_ambiguous
      end
      if not just_show_list and target < completed
        @buffer_of_lines[@line_index] = (preposing + completed + completion_append_character.to_s + postposing).split("\n")[@line_index] || String.new(encoding: @encoding)
        line_to_pointer = (preposing + completed + completion_append_character.to_s).split("\n")[@line_index] || String.new(encoding: @encoding)
        @byte_pointer = line_to_pointer.bytesize
      end
    end
  end

  def dialog_proc_scope_completion_journey_data
    return nil unless @completion_journey_state
    line_index = @completion_journey_state.line_index
    pre_lines = @buffer_of_lines[0...line_index].map { |line| line + "\n" }
    post_lines = @buffer_of_lines[(line_index + 1)..-1].map { |line| line + "\n" }
    DialogProcScope::CompletionJourneyData.new(
      pre_lines.join + @completion_journey_state.pre,
      @completion_journey_state.post + post_lines.join,
      @completion_journey_state.list,
      @completion_journey_state.pointer
    )
  end

  private def move_completed_list(direction)
    @completion_journey_state ||= retrieve_completion_journey_state
    return false unless @completion_journey_state

    if (delta = { up: -1, down: +1 }[direction])
      @completion_journey_state.pointer = (@completion_journey_state.pointer + delta) % @completion_journey_state.list.size
    end
    completed = @completion_journey_state.list[@completion_journey_state.pointer]
    set_current_line(@completion_journey_state.pre + completed + @completion_journey_state.post, @completion_journey_state.pre.bytesize + completed.bytesize)
    true
  end

  private def retrieve_completion_journey_state
    preposing, target, postposing = retrieve_completion_block
    list = call_completion_proc
    return unless list.is_a?(Array)

    candidates = list.select{ |item| item.start_with?(target) }
    return if candidates.empty?

    pre = preposing.split("\n", -1).last || ''
    post = postposing.split("\n", -1).first || ''
    CompletionJourneyState.new(
      @line_index, pre, target, post, [target] + candidates, 0
    )
  end

  private def run_for_operators(key, method_symbol, &block)
    if @vi_waiting_operator
      if VI_MOTIONS.include?(method_symbol)
        old_byte_pointer = @byte_pointer
        @vi_arg = (@vi_arg || 1) * @vi_waiting_operator_arg
        block.(true)
        unless @waiting_proc
          byte_pointer_diff = @byte_pointer - old_byte_pointer
          @byte_pointer = old_byte_pointer
          method_obj = method(@vi_waiting_operator)
          wrap_method_call(@vi_waiting_operator, method_obj, byte_pointer_diff)
          cleanup_waiting
        end
      else
        # Ignores operator when not motion is given.
        block.(false)
        cleanup_waiting
      end
      @vi_arg = nil
    else
      block.(false)
    end
  end

  private def argumentable?(method_obj)
    method_obj and method_obj.parameters.any? { |param| param[0] == :key and param[1] == :arg }
  end

  private def inclusive?(method_obj)
    # If a motion method with the keyword argument "inclusive" follows the
    # operator, it must contain the character at the cursor position.
    method_obj and method_obj.parameters.any? { |param| param[0] == :key and param[1] == :inclusive }
  end

  def wrap_method_call(method_symbol, method_obj, key, with_operator = false)
    if @config.editing_mode_is?(:emacs, :vi_insert) and @vi_waiting_operator.nil?
      not_insertion = method_symbol != :ed_insert
      process_insert(force: not_insertion)
    end
    if @vi_arg and argumentable?(method_obj)
      if with_operator and inclusive?(method_obj)
        method_obj.(key, arg: @vi_arg, inclusive: true)
      else
        method_obj.(key, arg: @vi_arg)
      end
    else
      if with_operator and inclusive?(method_obj)
        method_obj.(key, inclusive: true)
      else
        method_obj.(key)
      end
    end
  end

  private def cleanup_waiting
    @waiting_proc = nil
    @vi_waiting_operator = nil
    @vi_waiting_operator_arg = nil
    @searching_prompt = nil
    @drop_terminate_spaces = false
  end

  private def process_key(key, method_symbol)
    if key.is_a?(Symbol)
      cleanup_waiting
    elsif @waiting_proc
      old_byte_pointer = @byte_pointer
      @waiting_proc.call(key)
      if @vi_waiting_operator
        byte_pointer_diff = @byte_pointer - old_byte_pointer
        @byte_pointer = old_byte_pointer
        method_obj = method(@vi_waiting_operator)
        wrap_method_call(@vi_waiting_operator, method_obj, byte_pointer_diff)
        cleanup_waiting
      end
      @kill_ring.process
      return
    end

    if method_symbol and respond_to?(method_symbol, true)
      method_obj = method(method_symbol)
    end
    if method_symbol and key.is_a?(Symbol)
      if @vi_arg and argumentable?(method_obj)
        run_for_operators(key, method_symbol) do |with_operator|
          wrap_method_call(method_symbol, method_obj, key, with_operator)
        end
      else
        wrap_method_call(method_symbol, method_obj, key) if method_obj
      end
      @kill_ring.process
      if @vi_arg
        @vi_arg = nil
      end
    elsif @vi_arg
      if key.chr =~ /[0-9]/
        ed_argument_digit(key)
      else
        if argumentable?(method_obj)
          run_for_operators(key, method_symbol) do |with_operator|
            wrap_method_call(method_symbol, method_obj, key, with_operator)
          end
        elsif method_obj
          wrap_method_call(method_symbol, method_obj, key)
        else
          ed_insert(key) unless @config.editing_mode_is?(:vi_command)
        end
        @kill_ring.process
        if @vi_arg
          @vi_arg = nil
        end
      end
    elsif method_obj
      if method_symbol == :ed_argument_digit
        wrap_method_call(method_symbol, method_obj, key)
      else
        run_for_operators(key, method_symbol) do |with_operator|
          wrap_method_call(method_symbol, method_obj, key, with_operator)
        end
      end
      @kill_ring.process
    else
      ed_insert(key) unless @config.editing_mode_is?(:vi_command)
    end
  end

  private def normal_char(key)
    @multibyte_buffer << key.combined_char
    if @multibyte_buffer.size > 1
      if @multibyte_buffer.dup.force_encoding(@encoding).valid_encoding?
        process_key(@multibyte_buffer.dup.force_encoding(@encoding), nil)
        @multibyte_buffer.clear
      else
        # invalid
        return
      end
    else # single byte
      return if key.char >= 128 # maybe, first byte of multi byte
      method_symbol = @config.editing_mode.get_method(key.combined_char)
      if key.with_meta and method_symbol == :ed_unassigned
        if @config.editing_mode_is?(:vi_command, :vi_insert)
          # split ESC + key in vi mode
          method_symbol = @config.editing_mode.get_method("\e".ord)
          process_key("\e".ord, method_symbol)
          method_symbol = @config.editing_mode.get_method(key.char)
          process_key(key.char, method_symbol)
        end
      else
        process_key(key.combined_char, method_symbol)
      end
      @multibyte_buffer.clear
    end
    if @config.editing_mode_is?(:vi_command) and @byte_pointer > 0 and @byte_pointer == current_line.bytesize
      byte_size = Reline::Unicode.get_prev_mbchar_size(@buffer_of_lines[@line_index], @byte_pointer)
      @byte_pointer -= byte_size
    end
  end

  def update(key)
    modified = input_key(key)
    unless @in_pasting
      scroll_into_view
      @just_cursor_moving = !modified
      update_dialogs(key)
      @just_cursor_moving = false
    end
  end

  def input_key(key)
    save_old_buffer
    @config.reset_oneshot_key_bindings
    @dialogs.each do |dialog|
      if key.char.instance_of?(Symbol) and key.char == dialog.name
        return
      end
    end
    if key.char.nil?
      process_insert(force: true)
      if @first_char
        @eof = true
      end
      finish
      return
    end
    @first_char = false
    @completion_occurs = false

    if key.char.is_a?(Symbol)
      process_key(key.char, key.char)
    else
      normal_char(key)
    end
    unless @completion_occurs
      @completion_state = CompletionState::NORMAL
      @completion_journey_state = nil
    end

    push_past_lines unless @undoing
    @undoing = false

    if @in_pasting
      clear_dialogs
      return
    end

    modified = @old_buffer_of_lines != @buffer_of_lines
    if !@completion_occurs && modified && !@config.disable_completion && @config.autocompletion
      # Auto complete starts only when edited
      process_insert(force: true)
      @completion_journey_state = retrieve_completion_journey_state
    end
    modified
  end

  def save_old_buffer
    @old_buffer_of_lines = @buffer_of_lines.dup
    @old_byte_pointer = @byte_pointer.dup
    @old_line_index = @line_index.dup
  end

  def push_past_lines
    if @old_buffer_of_lines != @buffer_of_lines
      @past_lines.push([@old_buffer_of_lines, @old_byte_pointer, @old_line_index])
    end
    trim_past_lines
  end

  MAX_PAST_LINES = 100
  def trim_past_lines
    if @past_lines.size > MAX_PAST_LINES
      @past_lines.shift
    end
  end

  def scroll_into_view
    _wrapped_cursor_x, wrapped_cursor_y = wrapped_cursor_position
    if wrapped_cursor_y < screen_scroll_top
      @scroll_partial_screen = wrapped_cursor_y
    end
    if wrapped_cursor_y >= screen_scroll_top + screen_height
      @scroll_partial_screen = wrapped_cursor_y - screen_height + 1
    end
  end

  def call_completion_proc
    result = retrieve_completion_block(true)
    pre, target, post = result
    result = call_completion_proc_with_checking_args(pre, target, post)
    Reline.core.instance_variable_set(:@completion_quote_character, nil)
    result
  end

  def call_completion_proc_with_checking_args(pre, target, post)
    if @completion_proc and target
      argnum = @completion_proc.parameters.inject(0) { |result, item|
        case item.first
        when :req, :opt
          result + 1
        when :rest
          break 3
        end
      }
      case argnum
      when 1
        result = @completion_proc.(target)
      when 2
        result = @completion_proc.(target, pre)
      when 3..Float::INFINITY
        result = @completion_proc.(target, pre, post)
      end
    end
    result
  end

  private def process_auto_indent(line_index = @line_index, cursor_dependent: true, add_newline: false)
    return if @in_pasting
    return unless @auto_indent_proc

    line = @buffer_of_lines[line_index]
    byte_pointer = cursor_dependent && @line_index == line_index ? @byte_pointer : line.bytesize
    new_indent = @auto_indent_proc.(@buffer_of_lines.take(line_index + 1).push(''), line_index, byte_pointer, add_newline)
    return unless new_indent

    new_line = ' ' * new_indent + line.lstrip
    @buffer_of_lines[line_index] = new_line
    if @line_index == line_index
      indent_diff = new_line.bytesize - line.bytesize
      @byte_pointer = [@byte_pointer + indent_diff, 0].max
    end
  end

  def line()
    @buffer_of_lines.join("\n") unless eof?
  end

  def current_line
    @buffer_of_lines[@line_index]
  end

  def set_current_line(line, byte_pointer = nil)
    cursor = current_byte_pointer_cursor
    @buffer_of_lines[@line_index] = line
    if byte_pointer
      @byte_pointer = byte_pointer
    else
      calculate_nearest_cursor(cursor)
    end
    process_auto_indent
  end

  def set_current_lines(lines, byte_pointer = nil, line_index = 0)
    cursor = current_byte_pointer_cursor
    @buffer_of_lines = lines
    @line_index = line_index
    if byte_pointer
      @byte_pointer = byte_pointer
    else
      calculate_nearest_cursor(cursor)
    end
    process_auto_indent
  end

  def retrieve_completion_block(set_completion_quote_character = false)
    if Reline.completer_word_break_characters.empty?
      word_break_regexp = nil
    else
      word_break_regexp = /\A[#{Regexp.escape(Reline.completer_word_break_characters)}]/
    end
    if Reline.completer_quote_characters.empty?
      quote_characters_regexp = nil
    else
      quote_characters_regexp = /\A[#{Regexp.escape(Reline.completer_quote_characters)}]/
    end
    before = current_line.byteslice(0, @byte_pointer)
    rest = nil
    break_pointer = nil
    quote = nil
    closing_quote = nil
    escaped_quote = nil
    i = 0
    while i < @byte_pointer do
      slice = current_line.byteslice(i, @byte_pointer - i)
      unless slice.valid_encoding?
        i += 1
        next
      end
      if quote and slice.start_with?(closing_quote)
        quote = nil
        i += 1
        rest = nil
      elsif quote and slice.start_with?(escaped_quote)
        # skip
        i += 2
      elsif quote_characters_regexp and slice =~ quote_characters_regexp # find new "
        rest = $'
        quote = $&
        closing_quote = /(?!\\)#{Regexp.escape(quote)}/
        escaped_quote = /\\#{Regexp.escape(quote)}/
        i += 1
        break_pointer = i - 1
      elsif word_break_regexp and not quote and slice =~ word_break_regexp
        rest = $'
        i += 1
        before = current_line.byteslice(i, @byte_pointer - i)
        break_pointer = i
      else
        i += 1
      end
    end
    postposing = current_line.byteslice(@byte_pointer, current_line.bytesize - @byte_pointer)
    if rest
      preposing = current_line.byteslice(0, break_pointer)
      target = rest
      if set_completion_quote_character and quote
        Reline.core.instance_variable_set(:@completion_quote_character, quote)
        if postposing !~ /(?!\\)#{Regexp.escape(quote)}/ # closing quote
          insert_text(quote)
        end
      end
    else
      preposing = ''
      if break_pointer
        preposing = current_line.byteslice(0, break_pointer)
      else
        preposing = ''
      end
      target = before
    end
    lines = whole_lines
    if @line_index > 0
      preposing = lines[0..(@line_index - 1)].join("\n") + "\n" + preposing
    end
    if (lines.size - 1) > @line_index
      postposing = postposing + "\n" + lines[(@line_index + 1)..-1].join("\n")
    end
    [preposing.encode(@encoding), target.encode(@encoding), postposing.encode(@encoding)]
  end

  def confirm_multiline_termination
    temp_buffer = @buffer_of_lines.dup
    @confirm_multiline_termination_proc.(temp_buffer.join("\n") + "\n")
  end

  def insert_pasted_text(text)
    save_old_buffer
    pre = @buffer_of_lines[@line_index].byteslice(0, @byte_pointer)
    post = @buffer_of_lines[@line_index].byteslice(@byte_pointer..)
    lines = (pre + text.gsub(/\r\n?/, "\n") + post).split("\n", -1)
    lines << '' if lines.empty?
    @buffer_of_lines[@line_index, 1] = lines
    @line_index += lines.size - 1
    @byte_pointer = @buffer_of_lines[@line_index].bytesize - post.bytesize
    push_past_lines
  end

  def insert_text(text)
    if @buffer_of_lines[@line_index].bytesize == @byte_pointer
      @buffer_of_lines[@line_index] += text
    else
      @buffer_of_lines[@line_index] = byteinsert(@buffer_of_lines[@line_index], @byte_pointer, text)
    end
    @byte_pointer += text.bytesize
    process_auto_indent
  end

  def delete_text(start = nil, length = nil)
    if start.nil? and length.nil?
      if @buffer_of_lines.size == 1
        @buffer_of_lines[@line_index] = ''
        @byte_pointer = 0
      elsif @line_index == (@buffer_of_lines.size - 1) and @line_index > 0
        @buffer_of_lines.pop
        @line_index -= 1
        @byte_pointer = 0
      elsif @line_index < (@buffer_of_lines.size - 1)
        @buffer_of_lines.delete_at(@line_index)
        @byte_pointer = 0
      end
    elsif not start.nil? and not length.nil?
      if current_line
        before = current_line.byteslice(0, start)
        after = current_line.byteslice(start + length, current_line.bytesize)
        set_current_line(before + after)
      end
    elsif start.is_a?(Range)
      range = start
      first = range.first
      last = range.last
      last = current_line.bytesize - 1 if last > current_line.bytesize
      last += current_line.bytesize if last < 0
      first += current_line.bytesize if first < 0
      range = range.exclude_end? ? first...last : first..last
      line = current_line.bytes.reject.with_index{ |c, i| range.include?(i) }.map{ |c| c.chr(Encoding::ASCII_8BIT) }.join.force_encoding(@encoding)
      set_current_line(line)
    else
      set_current_line(current_line.byteslice(0, start))
    end
  end

  def byte_pointer=(val)
    @byte_pointer = val
  end

  def whole_lines
    @buffer_of_lines.dup
  end

  def whole_buffer
    whole_lines.join("\n")
  end

  def finished?
    @finished
  end

  def finish
    @finished = true
    @config.reset
  end

  private def byteslice!(str, byte_pointer, size)
    new_str = str.byteslice(0, byte_pointer)
    new_str << str.byteslice(byte_pointer + size, str.bytesize)
    [new_str, str.byteslice(byte_pointer, size)]
  end

  private def byteinsert(str, byte_pointer, other)
    new_str = str.byteslice(0, byte_pointer)
    new_str << other
    new_str << str.byteslice(byte_pointer, str.bytesize)
    new_str
  end

  private def calculate_width(str, allow_escape_code = false)
    Reline::Unicode.calculate_width(str, allow_escape_code)
  end

  private def key_delete(key)
    if @config.editing_mode_is?(:vi_insert)
      ed_delete_next_char(key)
    elsif @config.editing_mode_is?(:emacs)
      em_delete(key)
    end
  end

  private def key_newline(key)
    if @is_multiline
      next_line = current_line.byteslice(@byte_pointer, current_line.bytesize - @byte_pointer)
      cursor_line = current_line.byteslice(0, @byte_pointer)
      insert_new_line(cursor_line, next_line)
    end
  end

  private def complete(_key)
    return if @config.disable_completion

    process_insert(force: true)
    if @config.autocompletion
      @completion_state = CompletionState::NORMAL
      @completion_occurs = move_completed_list(:down)
    else
      @completion_journey_state = nil
      result = call_completion_proc
      if result.is_a?(Array)
        @completion_occurs = true
        perform_completion(result, false)
      end
    end
  end

  private def completion_journey_move(direction)
    return if @config.disable_completion

    process_insert(force: true)
    @completion_state = CompletionState::NORMAL
    @completion_occurs = move_completed_list(direction)
  end

  private def menu_complete(_key)
    completion_journey_move(:down)
  end

  private def menu_complete_backward(_key)
    completion_journey_move(:up)
  end

  private def completion_journey_up(_key)
    completion_journey_move(:up) if @config.autocompletion
  end

  # Editline:: +ed-unassigned+ This  editor command always results in an error.
  # GNU Readline:: There is no corresponding macro.
  private def ed_unassigned(key) end # do nothing

  private def process_insert(force: false)
    return if @continuous_insertion_buffer.empty? or (@in_pasting and not force)
    insert_text(@continuous_insertion_buffer)
    @continuous_insertion_buffer.clear
  end

  # Editline:: +ed-insert+ (vi input: almost all; emacs: printable characters)
  #            In insert mode, insert the input character left of the cursor
  #            position. In replace mode, overwrite the character at the
  #            cursor and move the cursor to the right by one character
  #            position. Accept an argument to do this repeatedly. It is an
  #            error if the input character is the NUL character (+Ctrl-@+).
  #            Failure to enlarge the edit buffer also results in an error.
  # Editline:: +ed-digit+ (emacs: 0 to 9) If in argument input mode, append
  #            the input digit to the argument being read. Otherwise, call
  #            +ed-insert+. It is an error if the input character is not a
  #            digit or if the existing argument is already greater than a
  #            million.
  # GNU Readline:: +self-insert+ (a, b, A, 1, !, …) Insert yourself.
  private def ed_insert(key)
    if key.instance_of?(String)
      begin
        key.encode(Encoding::UTF_8)
      rescue Encoding::UndefinedConversionError
        return
      end
      str = key
    else
      begin
        key.chr.encode(Encoding::UTF_8)
      rescue Encoding::UndefinedConversionError
        return
      end
      str = key.chr
    end
    if @in_pasting
      @continuous_insertion_buffer << str
      return
    elsif not @continuous_insertion_buffer.empty?
      process_insert
    end

    insert_text(str)
  end
  alias_method :ed_digit, :ed_insert
  alias_method :self_insert, :ed_insert

  private def ed_quoted_insert(str, arg: 1)
    @waiting_proc = proc { |key|
      arg.times do
        if key == "\C-j".ord or key == "\C-m".ord
          key_newline(key)
        elsif key == 0
          # Ignore NUL.
        else
          ed_insert(key)
        end
      end
      @waiting_proc = nil
    }
  end
  alias_method :quoted_insert, :ed_quoted_insert

  private def ed_next_char(key, arg: 1)
    byte_size = Reline::Unicode.get_next_mbchar_size(current_line, @byte_pointer)
    if (@byte_pointer < current_line.bytesize)
      @byte_pointer += byte_size
    elsif @config.editing_mode_is?(:emacs) and @byte_pointer == current_line.bytesize and @line_index < @buffer_of_lines.size - 1
      @byte_pointer = 0
      @line_index += 1
    end
    arg -= 1
    ed_next_char(key, arg: arg) if arg > 0
  end
  alias_method :forward_char, :ed_next_char

  private def ed_prev_char(key, arg: 1)
    if @byte_pointer > 0
      byte_size = Reline::Unicode.get_prev_mbchar_size(current_line, @byte_pointer)
      @byte_pointer -= byte_size
    elsif @config.editing_mode_is?(:emacs) and @byte_pointer == 0 and @line_index > 0
      @line_index -= 1
      @byte_pointer = current_line.bytesize
    end
    arg -= 1
    ed_prev_char(key, arg: arg) if arg > 0
  end
  alias_method :backward_char, :ed_prev_char

  private def vi_first_print(key)
    @byte_pointer, = Reline::Unicode.vi_first_print(current_line)
  end

  private def ed_move_to_beg(key)
    @byte_pointer = 0
  end
  alias_method :beginning_of_line, :ed_move_to_beg
  alias_method :vi_zero, :ed_move_to_beg

  private def ed_move_to_end(key)
    @byte_pointer = current_line.bytesize
  end
  alias_method :end_of_line, :ed_move_to_end

  private def generate_searcher(search_key)
    search_word = String.new(encoding: @encoding)
    multibyte_buf = String.new(encoding: 'ASCII-8BIT')
    hit_pointer = nil
    lambda do |key|
      search_again = false
      case key
      when "\C-h".ord, "\C-?".ord
        grapheme_clusters = search_word.grapheme_clusters
        if grapheme_clusters.size > 0
          grapheme_clusters.pop
          search_word = grapheme_clusters.join
        end
      when "\C-r".ord, "\C-s".ord
        search_again = true if search_key == key
        search_key = key
      else
        multibyte_buf << key
        if multibyte_buf.dup.force_encoding(@encoding).valid_encoding?
          search_word << multibyte_buf.dup.force_encoding(@encoding)
          multibyte_buf.clear
        end
      end
      hit = nil
      if not search_word.empty? and @line_backup_in_history&.include?(search_word)
        hit_pointer = Reline::HISTORY.size
        hit = @line_backup_in_history
      else
        if search_again
          if search_word.empty? and Reline.last_incremental_search
            search_word = Reline.last_incremental_search
          end
          if @history_pointer
            case search_key
            when "\C-r".ord
              history_pointer_base = 0
              history = Reline::HISTORY[0..(@history_pointer - 1)]
            when "\C-s".ord
              history_pointer_base = @history_pointer + 1
              history = Reline::HISTORY[(@history_pointer + 1)..-1]
            end
          else
            history_pointer_base = 0
            history = Reline::HISTORY
          end
        elsif @history_pointer
          case search_key
          when "\C-r".ord
            history_pointer_base = 0
            history = Reline::HISTORY[0..@history_pointer]
          when "\C-s".ord
            history_pointer_base = @history_pointer
            history = Reline::HISTORY[@history_pointer..-1]
          end
        else
          history_pointer_base = 0
          history = Reline::HISTORY
        end
        case search_key
        when "\C-r".ord
          hit_index = history.rindex { |item|
            item.include?(search_word)
          }
        when "\C-s".ord
          hit_index = history.index { |item|
            item.include?(search_word)
          }
        end
        if hit_index
          hit_pointer = history_pointer_base + hit_index
          hit = Reline::HISTORY[hit_pointer]
        end
      end
      case search_key
      when "\C-r".ord
        prompt_name = 'reverse-i-search'
      when "\C-s".ord
        prompt_name = 'i-search'
      end
      prompt_name = "failed #{prompt_name}" unless hit
      [search_word, prompt_name, hit_pointer]
    end
  end

  private def incremental_search_history(key)
    unless @history_pointer
      @line_backup_in_history = whole_buffer
    end
    searcher = generate_searcher(key)
    @searching_prompt = "(reverse-i-search)`': "
    termination_keys = ["\C-j".ord]
    termination_keys.concat(@config.isearch_terminators&.chars&.map(&:ord)) if @config.isearch_terminators
    @waiting_proc = ->(k) {
      case k
      when *termination_keys
        if @history_pointer
          buffer = Reline::HISTORY[@history_pointer]
        else
          buffer = @line_backup_in_history
        end
        @buffer_of_lines = buffer.split("\n")
        @buffer_of_lines = [String.new(encoding: @encoding)] if @buffer_of_lines.empty?
        @line_index = @buffer_of_lines.size - 1
        @searching_prompt = nil
        @waiting_proc = nil
        @byte_pointer = 0
      when "\C-g".ord
        @buffer_of_lines = @line_backup_in_history.split("\n")
        @buffer_of_lines = [String.new(encoding: @encoding)] if @buffer_of_lines.empty?
        @line_index = @buffer_of_lines.size - 1
        move_history(nil, line: :end, cursor: :end, save_buffer: false)
        @searching_prompt = nil
        @waiting_proc = nil
        @byte_pointer = 0
      else
        chr = k.is_a?(String) ? k : k.chr(Encoding::ASCII_8BIT)
        if chr.match?(/[[:print:]]/) or k == "\C-h".ord or k == "\C-?".ord or k == "\C-r".ord or k == "\C-s".ord
          search_word, prompt_name, hit_pointer = searcher.call(k)
          Reline.last_incremental_search = search_word
          @searching_prompt = "(%s)`%s'" % [prompt_name, search_word]
          @searching_prompt += ': ' unless @is_multiline
          move_history(hit_pointer, line: :end, cursor: :end, save_buffer: false) if hit_pointer
        else
          if @history_pointer
            line = Reline::HISTORY[@history_pointer]
          else
            line = @line_backup_in_history
          end
          @line_backup_in_history = whole_buffer
          @buffer_of_lines = line.split("\n")
          @buffer_of_lines = [String.new(encoding: @encoding)] if @buffer_of_lines.empty?
          @line_index = @buffer_of_lines.size - 1
          @searching_prompt = nil
          @waiting_proc = nil
          @byte_pointer = 0
        end
      end
    }
  end

  private def vi_search_prev(key)
    incremental_search_history(key)
  end
  alias_method :reverse_search_history, :vi_search_prev

  private def vi_search_next(key)
    incremental_search_history(key)
  end
  alias_method :forward_search_history, :vi_search_next

  private def search_history(prefix, pointer_range)
    pointer_range.each do |pointer|
      lines = Reline::HISTORY[pointer].split("\n")
      lines.each_with_index do |line, index|
        return [pointer, index] if line.start_with?(prefix)
      end
    end
    nil
  end

  private def ed_search_prev_history(key, arg: 1)
    substr = current_line.byteslice(0, @byte_pointer)
    return if @history_pointer == 0
    return if @history_pointer.nil? && substr.empty? && !current_line.empty?

    history_range = 0...(@history_pointer || Reline::HISTORY.size)
    h_pointer, line_index = search_history(substr, history_range.reverse_each)
    return unless h_pointer
    move_history(h_pointer, line: line_index || :start, cursor: @byte_pointer)
    arg -= 1
    ed_search_prev_history(key, arg: arg) if arg > 0
  end
  alias_method :history_search_backward, :ed_search_prev_history

  private def ed_search_next_history(key, arg: 1)
    substr = current_line.byteslice(0, @byte_pointer)
    return if @history_pointer.nil?

    history_range = @history_pointer + 1...Reline::HISTORY.size
    h_pointer, line_index = search_history(substr, history_range)
    return if h_pointer.nil? and not substr.empty?

    move_history(h_pointer, line: line_index || :start, cursor: @byte_pointer)
    arg -= 1
    ed_search_next_history(key, arg: arg) if arg > 0
  end
  alias_method :history_search_forward, :ed_search_next_history

  private def move_history(history_pointer, line:, cursor:, save_buffer: true)
    history_pointer ||= Reline::HISTORY.size
    return if history_pointer < 0 || history_pointer > Reline::HISTORY.size
    old_history_pointer = @history_pointer || Reline::HISTORY.size
    if old_history_pointer == Reline::HISTORY.size
      @line_backup_in_history = save_buffer ? whole_buffer : ''
    else
      Reline::HISTORY[old_history_pointer] = whole_buffer if save_buffer
    end
    if history_pointer == Reline::HISTORY.size
      buf = @line_backup_in_history
      @history_pointer = @line_backup_in_history = nil
    else
      buf = Reline::HISTORY[history_pointer]
      @history_pointer = history_pointer
    end
    @buffer_of_lines = buf.split("\n")
    @buffer_of_lines = [String.new(encoding: @encoding)] if @buffer_of_lines.empty?
    @line_index = line == :start ? 0 : line == :end ? @buffer_of_lines.size - 1 : line
    @byte_pointer = cursor == :start ? 0 : cursor == :end ? current_line.bytesize : cursor
  end

  private def ed_prev_history(key, arg: 1)
    if @line_index > 0
      cursor = current_byte_pointer_cursor
      @line_index -= 1
      calculate_nearest_cursor(cursor)
      return
    end
    move_history(
      (@history_pointer || Reline::HISTORY.size) - 1,
      line: :end,
      cursor: @config.editing_mode_is?(:vi_command) ? :start : :end,
    )
    arg -= 1
    ed_prev_history(key, arg: arg) if arg > 0
  end
  alias_method :previous_history, :ed_prev_history

  private def ed_next_history(key, arg: 1)
    if @line_index < (@buffer_of_lines.size - 1)
      cursor = current_byte_pointer_cursor
      @line_index += 1
      calculate_nearest_cursor(cursor)
      return
    end
    move_history(
      (@history_pointer || Reline::HISTORY.size) + 1,
      line: :start,
      cursor: @config.editing_mode_is?(:vi_command) ? :start : :end,
    )
    arg -= 1
    ed_next_history(key, arg: arg) if arg > 0
  end
  alias_method :next_history, :ed_next_history

  private def ed_newline(key)
    process_insert(force: true)
    if @is_multiline
      if @config.editing_mode_is?(:vi_command)
        if @line_index < (@buffer_of_lines.size - 1)
          ed_next_history(key) # means cursor down
        else
          # should check confirm_multiline_termination to finish?
          finish
        end
      else
        if @line_index == (@buffer_of_lines.size - 1)
          if confirm_multiline_termination
            finish
          else
            key_newline(key)
          end
        else
          # should check confirm_multiline_termination to finish?
          @line_index = @buffer_of_lines.size - 1
          @byte_pointer = current_line.bytesize
          finish
        end
      end
    else
      finish
    end
  end

  private def em_delete_prev_char(key, arg: 1)
    arg.times do
      if @byte_pointer == 0 and @line_index > 0
        @byte_pointer = @buffer_of_lines[@line_index - 1].bytesize
        @buffer_of_lines[@line_index - 1] += @buffer_of_lines.delete_at(@line_index)
        @line_index -= 1
      elsif @byte_pointer > 0
        byte_size = Reline::Unicode.get_prev_mbchar_size(current_line, @byte_pointer)
        line, = byteslice!(current_line, @byte_pointer - byte_size, byte_size)
        set_current_line(line, @byte_pointer - byte_size)
      end
    end
    process_auto_indent
  end
  alias_method :backward_delete_char, :em_delete_prev_char

  # Editline:: +ed-kill-line+ (vi command: +D+, +Ctrl-K+; emacs: +Ctrl-K+,
  #            +Ctrl-U+) + Kill from the cursor to the end of the line.
  # GNU Readline:: +kill-line+ (+C-k+) Kill the text from point to the end of
  #                the line. With a negative numeric argument, kill backward
  #                from the cursor to the beginning of the current line.
  private def ed_kill_line(key)
    if current_line.bytesize > @byte_pointer
      line, deleted = byteslice!(current_line, @byte_pointer, current_line.bytesize - @byte_pointer)
      set_current_line(line, line.bytesize)
      @kill_ring.append(deleted)
    elsif @byte_pointer == current_line.bytesize and @buffer_of_lines.size > @line_index + 1
      set_current_line(current_line + @buffer_of_lines.delete_at(@line_index + 1), current_line.bytesize)
    end
  end
  alias_method :kill_line, :ed_kill_line

  # Editline:: +vi_change_to_eol+ (vi command: +C+) + Kill and change from the cursor to the end of the line.
  private def vi_change_to_eol(key)
    ed_kill_line(key)

    @config.editing_mode = :vi_insert
  end

  # Editline:: +vi-kill-line-prev+ (vi: +Ctrl-U+) Delete the string from the
  #            beginning  of the edit buffer to the cursor and save it to the
  #            cut buffer.
  # GNU Readline:: +unix-line-discard+ (+C-u+) Kill backward from the cursor
  #                to the beginning of the current line.
  private def vi_kill_line_prev(key)
    if @byte_pointer > 0
      line, deleted = byteslice!(current_line, 0, @byte_pointer)
      set_current_line(line, 0)
      @kill_ring.append(deleted, true)
    end
  end
  alias_method :unix_line_discard, :vi_kill_line_prev

  # Editline:: +em-kill-line+ (not bound) Delete the entire contents of the
  #            edit buffer and save it to the cut buffer. +vi-kill-line-prev+
  # GNU Readline:: +kill-whole-line+ (not bound) Kill all characters on the
  #                current line, no matter where point is.
  private def em_kill_line(key)
    if current_line.size > 0
      @kill_ring.append(current_line.dup, true)
      set_current_line('', 0)
    end
  end
  alias_method :kill_whole_line, :em_kill_line

  private def em_delete(key)
    if current_line.empty? and @buffer_of_lines.size == 1 and key == "\C-d".ord
      @eof = true
      finish
    elsif @byte_pointer < current_line.bytesize
      splitted_last = current_line.byteslice(@byte_pointer, current_line.bytesize)
      mbchar = splitted_last.grapheme_clusters.first
      line, = byteslice!(current_line, @byte_pointer, mbchar.bytesize)
      set_current_line(line)
    elsif @byte_pointer == current_line.bytesize and @buffer_of_lines.size > @line_index + 1
      set_current_line(current_line + @buffer_of_lines.delete_at(@line_index + 1), current_line.bytesize)
    end
  end
  alias_method :delete_char, :em_delete

  private def em_delete_or_list(key)
    if current_line.empty? or @byte_pointer < current_line.bytesize
      em_delete(key)
    elsif !@config.autocompletion # show completed list
      result = call_completion_proc
      if result.is_a?(Array)
        perform_completion(result, true)
      end
    end
  end
  alias_method :delete_char_or_list, :em_delete_or_list

  private def em_yank(key)
    yanked = @kill_ring.yank
    insert_text(yanked) if yanked
  end
  alias_method :yank, :em_yank

  private def em_yank_pop(key)
    yanked, prev_yank = @kill_ring.yank_pop
    if yanked
      line, = byteslice!(current_line, @byte_pointer - prev_yank.bytesize, prev_yank.bytesize)
      set_current_line(line, @byte_pointer - prev_yank.bytesize)
      insert_text(yanked)
    end
  end
  alias_method :yank_pop, :em_yank_pop

  private def ed_clear_screen(key)
    Reline::IOGate.clear_screen
    @screen_size = Reline::IOGate.get_screen_size
    @rendered_screen.lines = []
    @rendered_screen.base_y = 0
    @rendered_screen.cursor_y = 0
  end
  alias_method :clear_screen, :ed_clear_screen

  private def em_next_word(key)
    if current_line.bytesize > @byte_pointer
      byte_size, _ = Reline::Unicode.em_forward_word(current_line, @byte_pointer)
      @byte_pointer += byte_size
    end
  end
  alias_method :forward_word, :em_next_word

  private def ed_prev_word(key)
    if @byte_pointer > 0
      byte_size, _ = Reline::Unicode.em_backward_word(current_line, @byte_pointer)
      @byte_pointer -= byte_size
    end
  end
  alias_method :backward_word, :ed_prev_word

  private def em_delete_next_word(key)
    if current_line.bytesize > @byte_pointer
      byte_size, _ = Reline::Unicode.em_forward_word(current_line, @byte_pointer)
      line, word = byteslice!(current_line, @byte_pointer, byte_size)
      set_current_line(line)
      @kill_ring.append(word)
    end
  end
  alias_method :kill_word, :em_delete_next_word

  private def ed_delete_prev_word(key)
    if @byte_pointer > 0
      byte_size, _ = Reline::Unicode.em_backward_word(current_line, @byte_pointer)
      line, word = byteslice!(current_line, @byte_pointer - byte_size, byte_size)
      set_current_line(line, @byte_pointer - byte_size)
      @kill_ring.append(word, true)
    end
  end
  alias_method :backward_kill_word, :ed_delete_prev_word

  private def ed_transpose_chars(key)
    if @byte_pointer > 0
      if @byte_pointer < current_line.bytesize
        byte_size = Reline::Unicode.get_next_mbchar_size(current_line, @byte_pointer)
        @byte_pointer += byte_size
      end
      back1_byte_size = Reline::Unicode.get_prev_mbchar_size(current_line, @byte_pointer)
      if (@byte_pointer - back1_byte_size) > 0
        back2_byte_size = Reline::Unicode.get_prev_mbchar_size(current_line, @byte_pointer - back1_byte_size)
        back2_pointer = @byte_pointer - back1_byte_size - back2_byte_size
        line, back2_mbchar = byteslice!(current_line, back2_pointer, back2_byte_size)
        set_current_line(byteinsert(line, @byte_pointer - back2_byte_size, back2_mbchar))
      end
    end
  end
  alias_method :transpose_chars, :ed_transpose_chars

  private def ed_transpose_words(key)
    left_word_start, middle_start, right_word_start, after_start = Reline::Unicode.ed_transpose_words(current_line, @byte_pointer)
    before = current_line.byteslice(0, left_word_start)
    left_word = current_line.byteslice(left_word_start, middle_start - left_word_start)
    middle = current_line.byteslice(middle_start, right_word_start - middle_start)
    right_word = current_line.byteslice(right_word_start, after_start - right_word_start)
    after = current_line.byteslice(after_start, current_line.bytesize - after_start)
    return if left_word.empty? or right_word.empty?
    from_head_to_left_word = before + right_word + middle + left_word
    set_current_line(from_head_to_left_word + after, from_head_to_left_word.bytesize)
  end
  alias_method :transpose_words, :ed_transpose_words

  private def em_capitol_case(key)
    if current_line.bytesize > @byte_pointer
      byte_size, _, new_str = Reline::Unicode.em_forward_word_with_capitalization(current_line, @byte_pointer)
      before = current_line.byteslice(0, @byte_pointer)
      after = current_line.byteslice((@byte_pointer + byte_size)..-1)
      set_current_line(before + new_str + after, @byte_pointer + new_str.bytesize)
    end
  end
  alias_method :capitalize_word, :em_capitol_case

  private def em_lower_case(key)
    if current_line.bytesize > @byte_pointer
      byte_size, = Reline::Unicode.em_forward_word(current_line, @byte_pointer)
      part = current_line.byteslice(@byte_pointer, byte_size).grapheme_clusters.map { |mbchar|
        mbchar =~ /[A-Z]/ ? mbchar.downcase : mbchar
      }.join
      rest = current_line.byteslice((@byte_pointer + byte_size)..-1)
      line = current_line.byteslice(0, @byte_pointer) + part
      set_current_line(line + rest, line.bytesize)
    end
  end
  alias_method :downcase_word, :em_lower_case

  private def em_upper_case(key)
    if current_line.bytesize > @byte_pointer
      byte_size, = Reline::Unicode.em_forward_word(current_line, @byte_pointer)
      part = current_line.byteslice(@byte_pointer, byte_size).grapheme_clusters.map { |mbchar|
        mbchar =~ /[a-z]/ ? mbchar.upcase : mbchar
      }.join
      rest = current_line.byteslice((@byte_pointer + byte_size)..-1)
      line = current_line.byteslice(0, @byte_pointer) + part
      set_current_line(line + rest, line.bytesize)
    end
  end
  alias_method :upcase_word, :em_upper_case

  private def em_kill_region(key)
    if @byte_pointer > 0
      byte_size, _ = Reline::Unicode.em_big_backward_word(current_line, @byte_pointer)
      line, deleted = byteslice!(current_line, @byte_pointer - byte_size, byte_size)
      set_current_line(line, @byte_pointer - byte_size)
      @kill_ring.append(deleted, true)
    end
  end
  alias_method :unix_word_rubout, :em_kill_region

  private def copy_for_vi(text)
    if @config.editing_mode_is?(:vi_insert) or @config.editing_mode_is?(:vi_command)
      @vi_clipboard = text
    end
  end

  private def vi_insert(key)
    @config.editing_mode = :vi_insert
  end

  private def vi_add(key)
    @config.editing_mode = :vi_insert
    ed_next_char(key)
  end

  private def vi_command_mode(key)
    ed_prev_char(key)
    @config.editing_mode = :vi_command
  end
  alias_method :vi_movement_mode, :vi_command_mode

  private def vi_next_word(key, arg: 1)
    if current_line.bytesize > @byte_pointer
      byte_size, _ = Reline::Unicode.vi_forward_word(current_line, @byte_pointer, @drop_terminate_spaces)
      @byte_pointer += byte_size
    end
    arg -= 1
    vi_next_word(key, arg: arg) if arg > 0
  end

  private def vi_prev_word(key, arg: 1)
    if @byte_pointer > 0
      byte_size, _ = Reline::Unicode.vi_backward_word(current_line, @byte_pointer)
      @byte_pointer -= byte_size
    end
    arg -= 1
    vi_prev_word(key, arg: arg) if arg > 0
  end

  private def vi_end_word(key, arg: 1, inclusive: false)
    if current_line.bytesize > @byte_pointer
      byte_size, _ = Reline::Unicode.vi_forward_end_word(current_line, @byte_pointer)
      @byte_pointer += byte_size
    end
    arg -= 1
    if inclusive and arg.zero?
      byte_size = Reline::Unicode.get_next_mbchar_size(current_line, @byte_pointer)
      if byte_size > 0
        @byte_pointer += byte_size
      end
    end
    vi_end_word(key, arg: arg) if arg > 0
  end

  private def vi_next_big_word(key, arg: 1)
    if current_line.bytesize > @byte_pointer
      byte_size, _ = Reline::Unicode.vi_big_forward_word(current_line, @byte_pointer)
      @byte_pointer += byte_size
    end
    arg -= 1
    vi_next_big_word(key, arg: arg) if arg > 0
  end

  private def vi_prev_big_word(key, arg: 1)
    if @byte_pointer > 0
      byte_size, _ = Reline::Unicode.vi_big_backward_word(current_line, @byte_pointer)
      @byte_pointer -= byte_size
    end
    arg -= 1
    vi_prev_big_word(key, arg: arg) if arg > 0
  end

  private def vi_end_big_word(key, arg: 1, inclusive: false)
    if current_line.bytesize > @byte_pointer
      byte_size, _ = Reline::Unicode.vi_big_forward_end_word(current_line, @byte_pointer)
      @byte_pointer += byte_size
    end
    arg -= 1
    if inclusive and arg.zero?
      byte_size = Reline::Unicode.get_next_mbchar_size(current_line, @byte_pointer)
      if byte_size > 0
        @byte_pointer += byte_size
      end
    end
    vi_end_big_word(key, arg: arg) if arg > 0
  end

  private def vi_delete_prev_char(key)
    if @byte_pointer == 0 and @line_index > 0
      @byte_pointer = @buffer_of_lines[@line_index - 1].bytesize
      @buffer_of_lines[@line_index - 1] += @buffer_of_lines.delete_at(@line_index)
      @line_index -= 1
      process_auto_indent cursor_dependent: false
    elsif @byte_pointer > 0
      byte_size = Reline::Unicode.get_prev_mbchar_size(current_line, @byte_pointer)
      @byte_pointer -= byte_size
      line, _ = byteslice!(current_line, @byte_pointer, byte_size)
      set_current_line(line)
    end
  end

  private def vi_insert_at_bol(key)
    ed_move_to_beg(key)
    @config.editing_mode = :vi_insert
  end

  private def vi_add_at_eol(key)
    ed_move_to_end(key)
    @config.editing_mode = :vi_insert
  end

  private def ed_delete_prev_char(key, arg: 1)
    deleted = +''
    arg.times do
      if @byte_pointer > 0
        byte_size = Reline::Unicode.get_prev_mbchar_size(current_line, @byte_pointer)
        @byte_pointer -= byte_size
        line, mbchar = byteslice!(current_line, @byte_pointer, byte_size)
        set_current_line(line)
        deleted.prepend(mbchar)
      end
    end
    copy_for_vi(deleted)
  end

  private def vi_change_meta(key, arg: nil)
    if @vi_waiting_operator
      set_current_line('', 0) if @vi_waiting_operator == :vi_change_meta_confirm && arg.nil?
      @vi_waiting_operator = nil
      @vi_waiting_operator_arg = nil
    else
      @drop_terminate_spaces = true
      @vi_waiting_operator = :vi_change_meta_confirm
      @vi_waiting_operator_arg = arg || 1
    end
  end

  private def vi_change_meta_confirm(byte_pointer_diff)
    vi_delete_meta_confirm(byte_pointer_diff)
    @config.editing_mode = :vi_insert
    @drop_terminate_spaces = false
  end

  private def vi_delete_meta(key, arg: nil)
    if @vi_waiting_operator
      set_current_line('', 0) if @vi_waiting_operator == :vi_delete_meta_confirm && arg.nil?
      @vi_waiting_operator = nil
      @vi_waiting_operator_arg = nil
    else
      @vi_waiting_operator = :vi_delete_meta_confirm
      @vi_waiting_operator_arg = arg || 1
    end
  end

  private def vi_delete_meta_confirm(byte_pointer_diff)
    if byte_pointer_diff > 0
      line, cut = byteslice!(current_line, @byte_pointer, byte_pointer_diff)
    elsif byte_pointer_diff < 0
      line, cut = byteslice!(current_line, @byte_pointer + byte_pointer_diff, -byte_pointer_diff)
    end
    copy_for_vi(cut)
    set_current_line(line || '', @byte_pointer + (byte_pointer_diff < 0 ? byte_pointer_diff : 0))
  end

  private def vi_yank(key, arg: nil)
    if @vi_waiting_operator
      copy_for_vi(current_line) if @vi_waiting_operator == :vi_yank_confirm && arg.nil?
      @vi_waiting_operator = nil
      @vi_waiting_operator_arg = nil
    else
      @vi_waiting_operator = :vi_yank_confirm
      @vi_waiting_operator_arg = arg || 1
    end
  end

  private def vi_yank_confirm(byte_pointer_diff)
    if byte_pointer_diff > 0
      cut = current_line.byteslice(@byte_pointer, byte_pointer_diff)
    elsif byte_pointer_diff < 0
      cut = current_line.byteslice(@byte_pointer + byte_pointer_diff, -byte_pointer_diff)
    end
    copy_for_vi(cut)
  end

  private def vi_list_or_eof(key)
    if current_line.empty? and @buffer_of_lines.size == 1
      set_current_line('', 0)
      @eof = true
      finish
    else
      ed_newline(key)
    end
  end
  alias_method :vi_end_of_transmission, :vi_list_or_eof
  alias_method :vi_eof_maybe, :vi_list_or_eof

  private def ed_delete_next_char(key, arg: 1)
    byte_size = Reline::Unicode.get_next_mbchar_size(current_line, @byte_pointer)
    unless current_line.empty? || byte_size == 0
      line, mbchar = byteslice!(current_line, @byte_pointer, byte_size)
      copy_for_vi(mbchar)
      if @byte_pointer > 0 && current_line.bytesize == @byte_pointer + byte_size
        byte_size = Reline::Unicode.get_prev_mbchar_size(line, @byte_pointer)
        set_current_line(line, @byte_pointer - byte_size)
      else
        set_current_line(line, @byte_pointer)
      end
    end
    arg -= 1
    ed_delete_next_char(key, arg: arg) if arg > 0
  end

  private def vi_to_history_line(key)
    if Reline::HISTORY.empty?
      return
    end
    move_history(0, line: :start, cursor: :start)
  end

  private def vi_histedit(key)
    path = Tempfile.open { |fp|
      fp.write whole_lines.join("\n")
      fp.path
    }
    system("#{ENV['EDITOR']} #{path}")
    @buffer_of_lines = File.read(path).split("\n")
    @buffer_of_lines = [String.new(encoding: @encoding)] if @buffer_of_lines.empty?
    @line_index = 0
    finish
  end

  private def vi_paste_prev(key, arg: 1)
    if @vi_clipboard.size > 0
      cursor_point = @vi_clipboard.grapheme_clusters[0..-2].join
      set_current_line(byteinsert(current_line, @byte_pointer, @vi_clipboard), @byte_pointer + cursor_point.bytesize)
    end
    arg -= 1
    vi_paste_prev(key, arg: arg) if arg > 0
  end

  private def vi_paste_next(key, arg: 1)
    if @vi_clipboard.size > 0
      byte_size = Reline::Unicode.get_next_mbchar_size(current_line, @byte_pointer)
      line = byteinsert(current_line, @byte_pointer + byte_size, @vi_clipboard)
      set_current_line(line, @byte_pointer + @vi_clipboard.bytesize)
    end
    arg -= 1
    vi_paste_next(key, arg: arg) if arg > 0
  end

  private def ed_argument_digit(key)
    if @vi_arg.nil?
      if key.chr.to_i.zero?
        if key.anybits?(0b10000000)
          unescaped_key = key ^ 0b10000000
          unless unescaped_key.chr.to_i.zero?
            @vi_arg = unescaped_key.chr.to_i
          end
        end
      else
        @vi_arg = key.chr.to_i
      end
    else
      @vi_arg = @vi_arg * 10 + key.chr.to_i
    end
  end

  private def vi_to_column(key, arg: 0)
    # Implementing behavior of vi, not Readline's vi-mode.
    @byte_pointer, = current_line.grapheme_clusters.inject([0, 0]) { |(total_byte_size, total_width), gc|
      mbchar_width = Reline::Unicode.get_mbchar_width(gc)
      break [total_byte_size, total_width] if (total_width + mbchar_width) >= arg
      [total_byte_size + gc.bytesize, total_width + mbchar_width]
    }
  end

  private def vi_replace_char(key, arg: 1)
    @waiting_proc = ->(k) {
      if arg == 1
        byte_size = Reline::Unicode.get_next_mbchar_size(current_line, @byte_pointer)
        before = current_line.byteslice(0, @byte_pointer)
        remaining_point = @byte_pointer + byte_size
        after = current_line.byteslice(remaining_point, current_line.bytesize - remaining_point)
        set_current_line(before + k.chr + after)
        @waiting_proc = nil
      elsif arg > 1
        byte_size = 0
        arg.times do
          byte_size += Reline::Unicode.get_next_mbchar_size(current_line, @byte_pointer + byte_size)
        end
        before = current_line.byteslice(0, @byte_pointer)
        remaining_point = @byte_pointer + byte_size
        after = current_line.byteslice(remaining_point, current_line.bytesize - remaining_point)
        replaced = k.chr * arg
        set_current_line(before + replaced + after, @byte_pointer + replaced.bytesize)
        @waiting_proc = nil
      end
    }
  end

  private def vi_next_char(key, arg: 1, inclusive: false)
    @waiting_proc = ->(key_for_proc) { search_next_char(key_for_proc, arg, inclusive: inclusive) }
  end

  private def vi_to_next_char(key, arg: 1, inclusive: false)
    @waiting_proc = ->(key_for_proc) { search_next_char(key_for_proc, arg, need_prev_char: true, inclusive: inclusive) }
  end

  private def search_next_char(key, arg, need_prev_char: false, inclusive: false)
    if key.instance_of?(String)
      inputed_char = key
    else
      inputed_char = key.chr
    end
    prev_total = nil
    total = nil
    found = false
    current_line.byteslice(@byte_pointer..-1).grapheme_clusters.each do |mbchar|
      # total has [byte_size, cursor]
      unless total
        # skip cursor point
        width = Reline::Unicode.get_mbchar_width(mbchar)
        total = [mbchar.bytesize, width]
      else
        if inputed_char == mbchar
          arg -= 1
          if arg.zero?
            found = true
            break
          end
        end
        width = Reline::Unicode.get_mbchar_width(mbchar)
        prev_total = total
        total = [total.first + mbchar.bytesize, total.last + width]
      end
    end
    if not need_prev_char and found and total
      byte_size, _ = total
      @byte_pointer += byte_size
    elsif need_prev_char and found and prev_total
      byte_size, _ = prev_total
      @byte_pointer += byte_size
    end
    if inclusive
      byte_size = Reline::Unicode.get_next_mbchar_size(current_line, @byte_pointer)
      if byte_size > 0
        @byte_pointer += byte_size
      end
    end
    @waiting_proc = nil
  end

  private def vi_prev_char(key, arg: 1)
    @waiting_proc = ->(key_for_proc) { search_prev_char(key_for_proc, arg) }
  end

  private def vi_to_prev_char(key, arg: 1)
    @waiting_proc = ->(key_for_proc) { search_prev_char(key_for_proc, arg, true) }
  end

  private def search_prev_char(key, arg, need_next_char = false)
    if key.instance_of?(String)
      inputed_char = key
    else
      inputed_char = key.chr
    end
    prev_total = nil
    total = nil
    found = false
    current_line.byteslice(0..@byte_pointer).grapheme_clusters.reverse_each do |mbchar|
      # total has [byte_size, cursor]
      unless total
        # skip cursor point
        width = Reline::Unicode.get_mbchar_width(mbchar)
        total = [mbchar.bytesize, width]
      else
        if inputed_char == mbchar
          arg -= 1
          if arg.zero?
            found = true
            break
          end
        end
        width = Reline::Unicode.get_mbchar_width(mbchar)
        prev_total = total
        total = [total.first + mbchar.bytesize, total.last + width]
      end
    end
    if not need_next_char and found and total
      byte_size, _ = total
      @byte_pointer -= byte_size
    elsif need_next_char and found and prev_total
      byte_size, _ = prev_total
      @byte_pointer -= byte_size
    end
    @waiting_proc = nil
  end

  private def vi_join_lines(key, arg: 1)
    if @buffer_of_lines.size > @line_index + 1
      next_line = @buffer_of_lines.delete_at(@line_index + 1).lstrip
      set_current_line(current_line + ' ' + next_line, current_line.bytesize)
    end
    arg -= 1
    vi_join_lines(key, arg: arg) if arg > 0
  end

  private def em_set_mark(key)
    @mark_pointer = [@byte_pointer, @line_index]
  end
  alias_method :set_mark, :em_set_mark

  private def em_exchange_mark(key)
    return unless @mark_pointer
    new_pointer = [@byte_pointer, @line_index]
    @byte_pointer, @line_index = @mark_pointer
    @mark_pointer = new_pointer
  end
  alias_method :exchange_point_and_mark, :em_exchange_mark

  private def emacs_editing_mode(key)
    @config.editing_mode = :emacs
  end

  private def vi_editing_mode(key)
    @config.editing_mode = :vi_insert
  end

  private def undo(_key)
    return if @past_lines.empty?

    @undoing = true

    target_lines, target_cursor_x, target_cursor_y = @past_lines.last
    set_current_lines(target_lines, target_cursor_x, target_cursor_y)

    @past_lines.pop
  end
end

Youez - 2016 - github.com/yon3zu
LinuXploit