node/lib/internal/readline/interface.js

'use strict';

const {
  ArrayFrom,
  ArrayPrototypeFilter,
  ArrayPrototypeJoin,
  ArrayPrototypeMap,
  ArrayPrototypePop,
  ArrayPrototypePush,
  ArrayPrototypeReverse,
  ArrayPrototypeShift,
  ArrayPrototypeUnshift,
  DateNow,
  FunctionPrototypeCall,
  MathCeil,
  MathFloor,
  MathMax,
  MathMaxApply,
  NumberIsFinite,
  ObjectDefineProperty,
  ObjectSetPrototypeOf,
  RegExpPrototypeExec,
  SafeStringIterator,
  StringPrototypeCodePointAt,
  StringPrototypeEndsWith,
  StringPrototypeIncludes,
  StringPrototypeRepeat,
  StringPrototypeReplaceAll,
  StringPrototypeSlice,
  StringPrototypeSplit,
  StringPrototypeStartsWith,
  Symbol,
  SymbolAsyncIterator,
  SymbolDispose,
} = primordials;

const {
  AbortError,
  codes: {
    ERR_INVALID_ARG_VALUE,
    ERR_USE_AFTER_CLOSE,
  },
} = require('internal/errors');

const {
  validateAbortSignal,
  validateString,
  validateUint32,
} = require('internal/validators');
const {
  assignFunctionName,
  kEmptyObject,
} = require('internal/util');
const {
  inspect,
  getStringWidth,
  stripVTControlCharacters,
} = require('internal/util/inspect');
const EventEmitter = require('events');
const { addAbortListener } = require('internal/events/abort_listener');
const {
  charLengthAt,
  charLengthLeft,
  commonPrefix,
  kSubstringSearch,
} = require('internal/readline/utils');
let emitKeypressEvents;
let kFirstEventParam;
const {
  clearScreenDown,
  cursorTo,
  moveCursor,
} = require('internal/readline/callbacks');

const { StringDecoder } = require('string_decoder');
const { ReplHistory } = require('internal/repl/history');

const kMaxUndoRedoStackSize = 2048;
const kMincrlfDelay = 100;
/**
 * The end of a line is signaled by either one of the following:
 *  - \r\n
 *  - \n
 *  - \r followed by something other than \n
 *  - \u2028 (Unicode 'LINE SEPARATOR')
 *  - \u2029 (Unicode 'PARAGRAPH SEPARATOR')
 */
const lineEnding = /\r?\n|\r(?!\n)|\u2028|\u2029/g;

const kLineObjectStream = Symbol('line object stream');
const kQuestionCancel = Symbol('kQuestionCancel');
const kQuestion = Symbol('kQuestion');

// GNU readline library - keyseq-timeout is 500ms (default)
const ESCAPE_CODE_TIMEOUT = 500;

// Max length of the kill ring
const kMaxLengthOfKillRing = 32;

const kMultilinePrompt = Symbol('| ');

const kAddHistory = Symbol('_addHistory');
const kBeforeEdit = Symbol('_beforeEdit');
const kDecoder = Symbol('_decoder');
const kDeleteLeft = Symbol('_deleteLeft');
const kDeleteLineLeft = Symbol('_deleteLineLeft');
const kDeleteLineRight = Symbol('_deleteLineRight');
const kDeleteRight = Symbol('_deleteRight');
const kDeleteWordLeft = Symbol('_deleteWordLeft');
const kDeleteWordRight = Symbol('_deleteWordRight');
const kGetDisplayPos = Symbol('_getDisplayPos');
const kHistoryNext = Symbol('_historyNext');
const kMoveDownOrHistoryNext = Symbol('_moveDownOrHistoryNext');
const kHistoryPrev = Symbol('_historyPrev');
const kMoveUpOrHistoryPrev = Symbol('_moveUpOrHistoryPrev');
const kInsertString = Symbol('_insertString');
const kLine = Symbol('_line');
const kLine_buffer = Symbol('_line_buffer');
const kKillRing = Symbol('_killRing');
const kKillRingCursor = Symbol('_killRingCursor');
const kMoveCursor = Symbol('_moveCursor');
const kNormalWrite = Symbol('_normalWrite');
const kOldPrompt = Symbol('_oldPrompt');
const kOnLine = Symbol('_onLine');
const kSetLine = Symbol('_setLine');
const kPreviousKey = Symbol('_previousKey');
const kPrompt = Symbol('_prompt');
const kPushToKillRing = Symbol('_pushToKillRing');
const kPushToUndoStack = Symbol('_pushToUndoStack');
const kQuestionCallback = Symbol('_questionCallback');
const kLastCommandErrored = Symbol('_lastCommandErrored');
const kQuestionReject = Symbol('_questionReject');
const kRedo = Symbol('_redo');
const kRedoStack = Symbol('_redoStack');
const kRefreshLine = Symbol('_refreshLine');
const kSawKeyPress = Symbol('_sawKeyPress');
const kSawReturnAt = Symbol('_sawReturnAt');
const kSetRawMode = Symbol('_setRawMode');
const kTabComplete = Symbol('_tabComplete');
const kTabCompleter = Symbol('_tabCompleter');
const kTtyWrite = Symbol('_ttyWrite');
const kUndo = Symbol('_undo');
const kUndoStack = Symbol('_undoStack');
const kIsMultiline = Symbol('_isMultiline');
const kWordLeft = Symbol('_wordLeft');
const kWordRight = Symbol('_wordRight');
const kWriteToOutput = Symbol('_writeToOutput');
const kYank = Symbol('_yank');
const kYanking = Symbol('_yanking');
const kYankPop = Symbol('_yankPop');
const kSavePreviousState = Symbol('_savePreviousState');
const kRestorePreviousState = Symbol('_restorePreviousState');
const kPreviousLine = Symbol('_previousLine');
const kPreviousCursor = Symbol('_previousCursor');
const kPreviousCursorCols = Symbol('_previousCursorCols');
const kMultilineMove = Symbol('_multilineMove');
const kPreviousPrevRows = Symbol('_previousPrevRows');
const kAddNewLineOnTTY = Symbol('_addNewLineOnTTY');

function InterfaceConstructor(input, output, completer, terminal) {
  this[kSawReturnAt] = 0;
  // TODO(BridgeAR): Document this property. The name is not ideal, so we
  // might want to expose an alias and document that instead.
  this.isCompletionEnabled = true;
  this[kSawKeyPress] = false;
  this[kPreviousKey] = null;
  this.escapeCodeTimeout = ESCAPE_CODE_TIMEOUT;
  this.tabSize = 8;

  FunctionPrototypeCall(EventEmitter, this);

  let crlfDelay;
  let prompt = '> ';
  let signal;

  if (input?.input) {
    // An options object was given
    output = input.output;
    completer = input.completer;
    terminal = input.terminal;
    signal = input.signal;

    // It is possible to configure the history through the input object
    const historySize = input.historySize;
    const history = input.history;
    const removeHistoryDuplicates = input.removeHistoryDuplicates;

    if (input.tabSize !== undefined) {
      validateUint32(input.tabSize, 'tabSize', true);
      this.tabSize = input.tabSize;
    }
    if (input.prompt !== undefined) {
      prompt = input.prompt;
    }
    if (input.escapeCodeTimeout !== undefined) {
      if (NumberIsFinite(input.escapeCodeTimeout)) {
        this.escapeCodeTimeout = input.escapeCodeTimeout;
      } else {
        throw new ERR_INVALID_ARG_VALUE(
          'input.escapeCodeTimeout',
          this.escapeCodeTimeout,
        );
      }
    }

    if (signal) {
      validateAbortSignal(signal, 'options.signal');
    }

    crlfDelay = input.crlfDelay;
    input = input.input;

    input.size = historySize;
    input.history = history;
    input.removeHistoryDuplicates = removeHistoryDuplicates;
  }

  this.setupHistoryManager(input);

  if (completer !== undefined && typeof completer !== 'function') {
    throw new ERR_INVALID_ARG_VALUE('completer', completer);
  }

  // Backwards compat; check the isTTY prop of the output stream
  //  when `terminal` was not specified
  if (terminal === undefined && !(output === null || output === undefined)) {
    terminal = !!output.isTTY;
  }

  const self = this;

  this.line = '';
  this[kIsMultiline] = false;
  this[kSubstringSearch] = null;
  this.output = output;
  this.input = input;
  this[kUndoStack] = [];
  this[kRedoStack] = [];
  this[kPreviousCursorCols] = -1;

  // The kill ring is a global list of blocks of text that were previously
  // killed (deleted). If its size exceeds kMaxLengthOfKillRing, the oldest
  // element will be removed to make room for the latest deletion. With kill
  // ring, users are able to recall (yank) or cycle (yank pop) among previously
  // killed texts, quite similar to the behavior of Emacs.
  this[kKillRing] = [];
  this[kKillRingCursor] = 0;

  this.crlfDelay = crlfDelay ?
    MathMax(kMincrlfDelay, crlfDelay) :
    kMincrlfDelay;
  this.completer = completer;

  this.setPrompt(prompt);

  this.terminal = !!terminal;

  function onerror(err) {
    self.emit('error', err);
  }

  function ondata(data) {
    self[kNormalWrite](data);
  }

  function onend() {
    if (
      typeof self[kLine_buffer] === 'string' &&
        self[kLine_buffer].length > 0
    ) {
      self.emit('line', self[kLine_buffer]);
    }
    self.close();
  }

  function ontermend() {
    if (typeof self.line === 'string' && self.line.length > 0) {
      self.emit('line', self.line);
    }
    self.close();
  }

  function onkeypress(s, key) {
    self[kTtyWrite](s, key);
    if (key?.sequence) {
      // If the key.sequence is half of a surrogate pair
      // (>= 0xd800 and <= 0xdfff), refresh the line so
      // the character is displayed appropriately.
      const ch = StringPrototypeCodePointAt(key.sequence, 0);
      if (ch >= 0xd800 && ch <= 0xdfff) self[kRefreshLine]();
    }
  }

  function onresize() {
    self[kRefreshLine]();
  }

  this[kLineObjectStream] = undefined;

  input.on('error', onerror);

  if (!this.terminal) {
    function onSelfCloseWithoutTerminal() {
      input.removeListener('data', ondata);
      input.removeListener('error', onerror);
      input.removeListener('end', onend);
    }

    input.on('data', ondata);
    input.on('end', onend);
    self.once('close', onSelfCloseWithoutTerminal);
    this[kDecoder] = new StringDecoder('utf8');
  } else {
    function onSelfCloseWithTerminal() {
      input.removeListener('keypress', onkeypress);
      input.removeListener('error', onerror);
      input.removeListener('end', ontermend);
      if (output !== null && output !== undefined) {
        output.removeListener('resize', onresize);
      }
    }

    emitKeypressEvents ??= require('internal/readline/emitKeypressEvents');
    emitKeypressEvents(input, this);

    // `input` usually refers to stdin
    input.on('keypress', onkeypress);
    input.on('end', ontermend);

    this[kSetRawMode](true);
    this.terminal = true;

    // Cursor position on the line.
    this.cursor = 0;

    if (output !== null && output !== undefined)
      output.on('resize', onresize);

    self.once('close', onSelfCloseWithTerminal);
  }

  if (signal) {
    const onAborted = () => self.close();
    if (signal.aborted) {
      process.nextTick(onAborted);
    } else {
      const disposable = addAbortListener(signal, onAborted);
      self.once('close', disposable[SymbolDispose]);
    }
  }

  // Current line
  this[kSetLine]('');

  input.resume();
}

ObjectSetPrototypeOf(InterfaceConstructor.prototype, EventEmitter.prototype);
ObjectSetPrototypeOf(InterfaceConstructor, EventEmitter);

class Interface extends InterfaceConstructor {
  get columns() {
    if (this.output?.columns) return this.output.columns;
    return Infinity;
  }

  /**
   * Sets the prompt written to the output.
   * @param {string} prompt
   * @returns {void}
   */
  setPrompt(prompt) {
    this[kPrompt] = prompt;
  }

  /**
   * Returns the current prompt used by `rl.prompt()`.
   * @returns {string}
   */
  getPrompt() {
    return this[kPrompt];
  }

  setupHistoryManager(options) {
    this.historyManager = new ReplHistory(this, options);

    if (options.onHistoryFileLoaded) {
      this.historyManager.initialize(options.onHistoryFileLoaded);
    }

    ObjectDefineProperty(this, 'history', {
      __proto__: null, configurable: true, enumerable: true,
      get() { return this.historyManager.history; },
      set(newHistory) { return this.historyManager.history = newHistory; },
    });

    ObjectDefineProperty(this, 'historyIndex', {
      __proto__: null, configurable: true, enumerable: true,
      get() { return this.historyManager.index; },
      set(historyIndex) { return this.historyManager.index = historyIndex; },
    });

    ObjectDefineProperty(this, 'historySize', {
      __proto__: null, configurable: true, enumerable: true,
      get() { return this.historyManager.size; },
    });

    ObjectDefineProperty(this, 'isFlushing', {
      __proto__: null, configurable: true, enumerable: true,
      get() { return this.historyManager.isFlushing; },
    });
  }

  [kSetRawMode](mode) {
    const wasInRawMode = this.input.isRaw;

    if (typeof this.input.setRawMode === 'function') {
      this.input.setRawMode(mode);
    }

    return wasInRawMode;
  }

  /**
   * Writes the configured `prompt` to a new line in `output`.
   * @param {boolean} [preserveCursor]
   * @returns {void}
   */
  prompt(preserveCursor) {
    if (this.paused) this.resume();
    if (this.terminal && process.env.TERM !== 'dumb') {
      if (!preserveCursor) this.cursor = 0;
      this[kRefreshLine]();
    } else {
      this[kWriteToOutput](this[kPrompt]);
    }
  }

  [kQuestion](query, cb) {
    if (this.closed) {
      throw new ERR_USE_AFTER_CLOSE('readline');
    }
    if (this[kQuestionCallback]) {
      this.prompt();
    } else {
      this[kOldPrompt] = this[kPrompt];
      this.setPrompt(query);
      this[kQuestionCallback] = cb;
      this.prompt();
    }
  }

  [kSetLine](line = '') {
    this.line = line;
    this[kIsMultiline] = StringPrototypeIncludes(line, '\n');
  }

  [kOnLine](line) {
    if (this[kQuestionCallback]) {
      const cb = this[kQuestionCallback];
      this[kQuestionCallback] = null;
      this.setPrompt(this[kOldPrompt]);
      cb(line);
    } else {
      this.emit('line', line);
    }
  }

  [kBeforeEdit](oldText, oldCursor) {
    this[kPushToUndoStack](oldText, oldCursor);
  }

  [kQuestionCancel]() {
    if (this[kQuestionCallback]) {
      this[kQuestionCallback] = null;
      this.setPrompt(this[kOldPrompt]);
      this.clearLine();
    }
  }

  [kWriteToOutput](stringToWrite) {
    validateString(stringToWrite, 'stringToWrite');

    if (this.output !== null && this.output !== undefined) {
      this.output.write(stringToWrite);
    }
  }

  [kAddHistory]() {
    return this.historyManager.addHistory(this[kIsMultiline], this[kLastCommandErrored]);
  }

  [kRefreshLine]() {
    // line length
    const line = this[kPrompt] + this.line;
    const dispPos = this[kGetDisplayPos](line);
    const lineCols = dispPos.cols;
    const lineRows = dispPos.rows;

    // cursor position
    const cursorPos = this.getCursorPos();

    // First move to the bottom of the current line, based on cursor pos
    const prevRows = this.prevRows || 0;
    if (prevRows > 0) {
      moveCursor(this.output, 0, -prevRows);
    }

    // Cursor to left edge.
    cursorTo(this.output, 0);
    // erase data
    clearScreenDown(this.output);

    if (this[kIsMultiline]) {
      const lines = StringPrototypeSplit(this.line, '\n');
      // Write first line with normal prompt
      this[kWriteToOutput](this[kPrompt] + lines[0]);

      // For continuation lines, add the "|" prefix
      for (let i = 1; i < lines.length; i++) {
        this[kWriteToOutput](`\n${kMultilinePrompt.description}` + lines[i]);
      }
    } else {
      // Write the prompt and the current buffer content.
      this[kWriteToOutput](line);
    }

    // Force terminal to allocate a new line
    if (lineCols === 0) {
      this[kWriteToOutput](' ');
    }

    // Move cursor to original position.
    cursorTo(this.output, cursorPos.cols);

    const diff = lineRows - cursorPos.rows;
    if (diff > 0) {
      moveCursor(this.output, 0, -diff);
    }

    this.prevRows = cursorPos.rows;
  }

  /**
   * Closes the `readline.Interface` instance.
   * @returns {void}
   */
  close() {
    if (this.closed) return;
    this.pause();
    if (this.terminal) {
      this[kSetRawMode](false);
    }
    this.closed = true;
    this.emit('close');
  }

  /**
   * Pauses the `input` stream.
   * @returns {void | Interface}
   */
  pause() {
    if (this.closed) {
      throw new ERR_USE_AFTER_CLOSE('readline');
    }
    if (this.paused) return;
    this.input.pause();
    this.paused = true;
    this.emit('pause');
    return this;
  }

  /**
   * Resumes the `input` stream if paused.
   * @returns {void | Interface}
   */
  resume() {
    if (this.closed) {
      throw new ERR_USE_AFTER_CLOSE('readline');
    }
    if (!this.paused) return;
    this.input.resume();
    this.paused = false;
    this.emit('resume');
    return this;
  }

  /**
   * Writes either `data` or a `key` sequence identified by
   * `key` to the `output`.
   * @param {string} d
   * @param {{
   *   ctrl?: boolean;
   *   meta?: boolean;
   *   shift?: boolean;
   *   name?: string;
   *   }} [key]
   * @returns {void}
   */
  write(d, key) {
    if (this.closed) {
      throw new ERR_USE_AFTER_CLOSE('readline');
    }
    if (this.paused) this.resume();
    if (this.terminal) {
      this[kTtyWrite](d, key);
    } else {
      this[kNormalWrite](d);
    }
  }

  [kNormalWrite](b) {
    if (b === undefined) {
      return;
    }
    let string = this[kDecoder].write(b);
    if (
      this[kSawReturnAt] &&
      DateNow() - this[kSawReturnAt] <= this.crlfDelay
    ) {
      if (StringPrototypeCodePointAt(string) === 10) string = StringPrototypeSlice(string, 1);
      this[kSawReturnAt] = 0;
    }

    // Run test() on the new string chunk, not on the entire line buffer.
    let newPartContainsEnding = RegExpPrototypeExec(lineEnding, string);
    if (newPartContainsEnding !== null) {
      if (this[kLine_buffer]) {
        string = this[kLine_buffer] + string;
        this[kLine_buffer] = null;
        lineEnding.lastIndex = 0; // Start the search from the beginning of the string.
        newPartContainsEnding = RegExpPrototypeExec(lineEnding, string);
      }
      this[kSawReturnAt] = StringPrototypeEndsWith(string, '\r') ?
        DateNow() :
        0;

      const indexes = [0, newPartContainsEnding.index, lineEnding.lastIndex];
      let nextMatch;
      while ((nextMatch = RegExpPrototypeExec(lineEnding, string)) !== null) {
        ArrayPrototypePush(indexes, nextMatch.index, lineEnding.lastIndex);
      }
      const lastIndex = indexes.length - 1;
      // Either '' or (conceivably) the unfinished portion of the next line
      this[kLine_buffer] = StringPrototypeSlice(string, indexes[lastIndex]);
      for (let i = 1; i < lastIndex; i += 2) {
        this[kOnLine](StringPrototypeSlice(string, indexes[i - 1], indexes[i]));
      }
    } else if (string) {
      // No newlines this time, save what we have for next time
      if (this[kLine_buffer]) {
        this[kLine_buffer] += string;
      } else {
        this[kLine_buffer] = string;
      }
    }
  }

  [kInsertString](c) {
    this[kBeforeEdit](this.line, this.cursor);
    if (!this.isCompletionEnabled) {
      this.line += c;
      this.cursor += c.length;
      this[kWriteToOutput](c);
      return;
    }
    if (this.cursor < this.line.length) {
      const beg = StringPrototypeSlice(this.line, 0, this.cursor);
      const end = StringPrototypeSlice(
        this.line,
        this.cursor,
        this.line.length,
      );
      this[kSetLine](beg + c + end);
      this.cursor += c.length;
      this[kRefreshLine]();
    } else {
      const oldPos = this.getCursorPos();
      this.line += c;
      this.cursor += c.length;
      const newPos = this.getCursorPos();

      if (oldPos.rows < newPos.rows) {
        this[kRefreshLine]();
      } else {
        this[kWriteToOutput](c);
      }
    }
  }

  async [kTabComplete](lastKeypressWasTab) {
    this.pause();
    const string = StringPrototypeSlice(this.line, 0, this.cursor);
    let value;
    try {
      value = await this.completer(string);
    } catch (err) {
      this[kWriteToOutput](`Tab completion error: ${inspect(err)}`);
      return;
    } finally {
      this.resume();
    }
    this[kTabCompleter](lastKeypressWasTab, value);
  }

  [kTabCompleter](lastKeypressWasTab, { 0: completions, 1: completeOn }) {
    // Result and the text that was completed.

    if (!completions || completions.length === 0) {
      return;
    }

    // If there is a common prefix to all matches, then apply that portion.
    const prefix = commonPrefix(
      ArrayPrototypeFilter(completions, (e) => e !== ''),
    );
    if (StringPrototypeStartsWith(prefix, completeOn) &&
        prefix.length > completeOn.length) {
      this[kInsertString](StringPrototypeSlice(prefix, completeOn.length));
      return;
    } else if (!StringPrototypeStartsWith(completeOn, prefix)) {
      this[kSetLine](StringPrototypeSlice(this.line,
                                          0,
                                          this.cursor - completeOn.length) +
                  prefix +
                  StringPrototypeSlice(this.line,
                                       this.cursor,
                                       this.line.length));
      this.cursor = this.cursor - completeOn.length + prefix.length;
      this[kRefreshLine]();
      return;
    }

    if (!lastKeypressWasTab) {
      return;
    }

    this[kBeforeEdit](this.line, this.cursor);

    // Apply/show completions.
    const completionsWidth = ArrayPrototypeMap(completions, (e) =>
      getStringWidth(e),
    );
    const width = MathMaxApply(completionsWidth) + 2; // 2 space padding
    let maxColumns = MathFloor(this.columns / width) || 1;
    if (maxColumns === Infinity) {
      maxColumns = 1;
    }
    let output = '\r\n';
    let lineIndex = 0;
    let whitespace = 0;
    for (let i = 0; i < completions.length; i++) {
      const completion = completions[i];
      if (completion === '' || lineIndex === maxColumns) {
        output += '\r\n';
        lineIndex = 0;
        whitespace = 0;
      } else {
        output += StringPrototypeRepeat(' ', whitespace);
      }
      if (completion !== '') {
        output += completion;
        whitespace = width - completionsWidth[i];
        lineIndex++;
      } else {
        output += '\r\n';
      }
    }
    if (lineIndex !== 0) {
      output += '\r\n\r\n';
    }
    this[kWriteToOutput](output);
    this[kRefreshLine]();
  }

  [kWordLeft]() {
    if (this.cursor > 0) {
      // Reverse the string and match a word near beginning
      // to avoid quadratic time complexity
      const leading = StringPrototypeSlice(this.line, 0, this.cursor);
      const reversed = ArrayPrototypeJoin(
        ArrayPrototypeReverse(ArrayFrom(leading)),
        '',
      );
      const match = RegExpPrototypeExec(/^\s*(?:[^\w\s]+|\w+)?/, reversed);
      this[kMoveCursor](-match[0].length);
    }
  }

  [kWordRight]() {
    if (this.cursor < this.line.length) {
      const trailing = StringPrototypeSlice(this.line, this.cursor);
      const match = RegExpPrototypeExec(/^(?:\s+|[^\w\s]+|\w+)\s*/, trailing);
      this[kMoveCursor](match[0].length);
    }
  }

  [kDeleteLeft]() {
    if (this.cursor > 0 && this.line.length > 0) {
      this[kBeforeEdit](this.line, this.cursor);
      // The number of UTF-16 units comprising the character to the left
      const charSize = charLengthLeft(this.line, this.cursor);
      this.line =
        StringPrototypeSlice(this.line, 0, this.cursor - charSize) +
        StringPrototypeSlice(this.line, this.cursor, this.line.length);

      this.cursor -= charSize;
      this[kRefreshLine]();
    }
  }

  [kDeleteRight]() {
    if (this.cursor < this.line.length) {
      this[kBeforeEdit](this.line, this.cursor);
      // The number of UTF-16 units comprising the character to the left
      const charSize = charLengthAt(this.line, this.cursor);
      this.line =
        StringPrototypeSlice(this.line, 0, this.cursor) +
        StringPrototypeSlice(
          this.line,
          this.cursor + charSize,
          this.line.length,
        );
      this[kRefreshLine]();
    }
  }

  [kDeleteWordLeft]() {
    if (this.cursor > 0) {
      this[kBeforeEdit](this.line, this.cursor);
      // Reverse the string and match a word near beginning
      // to avoid quadratic time complexity
      let leading = StringPrototypeSlice(this.line, 0, this.cursor);
      const reversed = ArrayPrototypeJoin(
        ArrayPrototypeReverse(ArrayFrom(leading)),
        '',
      );
      const match = RegExpPrototypeExec(/^\s*(?:[^\w\s]+|\w+)?/, reversed);
      leading = StringPrototypeSlice(
        leading,
        0,
        leading.length - match[0].length,
      );
      this.line =
        leading +
        StringPrototypeSlice(this.line, this.cursor, this.line.length);
      this.cursor = leading.length;
      this[kRefreshLine]();
    }
  }

  [kDeleteWordRight]() {
    if (this.cursor < this.line.length) {
      this[kBeforeEdit](this.line, this.cursor);
      const trailing = StringPrototypeSlice(this.line, this.cursor);
      const match = RegExpPrototypeExec(/^(?:\s+|\W+|\w+)\s*/, trailing);
      this.line =
        StringPrototypeSlice(this.line, 0, this.cursor) +
        StringPrototypeSlice(trailing, match[0].length);
      this[kRefreshLine]();
    }
  }

  [kDeleteLineLeft]() {
    this[kBeforeEdit](this.line, this.cursor);
    const del = StringPrototypeSlice(this.line, 0, this.cursor);
    this[kSetLine](StringPrototypeSlice(this.line, this.cursor));
    this.cursor = 0;
    this[kPushToKillRing](del);
    this[kRefreshLine]();
  }

  [kDeleteLineRight]() {
    this[kBeforeEdit](this.line, this.cursor);
    const del = StringPrototypeSlice(this.line, this.cursor);
    this[kSetLine](StringPrototypeSlice(this.line, 0, this.cursor));
    this[kPushToKillRing](del);
    this[kRefreshLine]();
  }

  [kPushToKillRing](del) {
    if (!del || del === this[kKillRing][0]) return;
    ArrayPrototypeUnshift(this[kKillRing], del);
    this[kKillRingCursor] = 0;
    while (this[kKillRing].length > kMaxLengthOfKillRing)
      ArrayPrototypePop(this[kKillRing]);
  }

  [kYank]() {
    if (this[kKillRing].length > 0) {
      this[kYanking] = true;
      this[kInsertString](this[kKillRing][this[kKillRingCursor]]);
    }
  }

  [kYankPop]() {
    if (!this[kYanking]) {
      return;
    }
    if (this[kKillRing].length > 1) {
      const lastYank = this[kKillRing][this[kKillRingCursor]];
      this[kKillRingCursor]++;
      if (this[kKillRingCursor] >= this[kKillRing].length) {
        this[kKillRingCursor] = 0;
      }
      const currentYank = this[kKillRing][this[kKillRingCursor]];
      const head =
            StringPrototypeSlice(this.line, 0, this.cursor - lastYank.length);
      const tail =
            StringPrototypeSlice(this.line, this.cursor);
      this[kSetLine](head + currentYank + tail);
      this.cursor = head.length + currentYank.length;
      this[kRefreshLine]();
    }
  }

  [kSavePreviousState]() {
    this[kPreviousLine] = this.line;
    this[kPreviousCursor] = this.cursor;
    this[kPreviousPrevRows] = this.prevRows;
  }

  [kRestorePreviousState]() {
    this[kSetLine](this[kPreviousLine]);
    this.cursor = this[kPreviousCursor];
    this.prevRows = this[kPreviousPrevRows];
  }

  clearLine() {
    this[kMoveCursor](+Infinity);
    this[kWriteToOutput]('\r\n');
    this[kSetLine]('');
    this.cursor = 0;
    this.prevRows = 0;
  }

  [kLine]() {
    this[kSavePreviousState]();
    const line = this[kAddHistory]();
    this[kUndoStack] = [];
    this[kRedoStack] = [];
    this.clearLine();
    this[kOnLine](line);
  }


  // TODO(puskin94): edit [kTtyWrite] to make call this function on a new key combination
  //                 to make it add a new line in the middle of a "complete" multiline.
  //                 I tried with shift + enter but it is not detected. Find a new one.
  //                 Make sure to call this[kSavePreviousState](); && this.clearLine();
  //                 before calling this[kAddNewLineOnTTY] to simulate what [kLine] is doing.

  // When this function is called, the actual cursor is at the very end of the whole string,
  // No matter where the new line was entered.
  // This function should only be used when the output is a TTY
  [kAddNewLineOnTTY]() {
    // Restore terminal state and store current line
    this[kRestorePreviousState]();
    const originalLine = this.line;

    // Split the line at the current cursor position
    const beforeCursor = StringPrototypeSlice(this.line, 0, this.cursor);
    let afterCursor = StringPrototypeSlice(this.line, this.cursor, this.line.length);

    // Add the new line where the cursor is at
    this[kSetLine](`${beforeCursor}\n${afterCursor}`);

    // To account for the new line
    this.cursor += 1;

    const hasContentAfterCursor = afterCursor.length > 0;
    const cursorIsNotOnFirstLine = this.prevRows > 0;
    let needsRewriteFirstLine = false;

    // Handle cursor positioning based on different scenarios
    if (hasContentAfterCursor) {
      const splitBeg = StringPrototypeSplit(beforeCursor, '\n');
      // Determine if we need to rewrite the first line
      needsRewriteFirstLine = splitBeg.length < 2;

      // If the cursor is not on the first line
      if (cursorIsNotOnFirstLine) {
        const splitEnd = StringPrototypeSplit(afterCursor, '\n');

        // If the cursor when I pressed enter was at least on the second line
        // I need to completely erase the line where the cursor was pressed because it is possible
        // That it was pressed in the middle of the line, hence I need to write the whole line.
        // To achieve that, I need to reach the line above the current line coming from the end
        const dy = splitEnd.length + 1;

        // Calculate how many Xs we need to move on the right to get to the end of the line
        const dxEndOfLineAbove = (splitBeg[splitBeg.length - 2] || '').length + kMultilinePrompt.description.length;
        moveCursor(this.output, dxEndOfLineAbove, -dy);

        // This is the line that was split in the middle
        // Just add it to the rest of the line that will be printed later
        afterCursor = `${splitBeg[splitBeg.length - 1]}\n${afterCursor}`;
      } else {
        // Otherwise, go to the very beginning of the first line and erase everything
        const dy = StringPrototypeSplit(originalLine, '\n').length;
        moveCursor(this.output, 0, -dy);
      }

      // Erase from the cursor to the end of the line
      clearScreenDown(this.output);

      if (cursorIsNotOnFirstLine) {
        this[kWriteToOutput]('\n');
      }
    }

    if (needsRewriteFirstLine) {
      this[kWriteToOutput](`${this[kPrompt]}${beforeCursor}\n${kMultilinePrompt.description}`);
    } else {
      this[kWriteToOutput](kMultilinePrompt.description);
    }

    // Write the rest and restore the cursor to where the user left it
    if (hasContentAfterCursor) {
      // Save the cursor pos, we need to come back here
      const oldCursor = this.getCursorPos();

      // Write everything after the cursor which has been deleted by clearScreenDown
      const formattedEndContent = StringPrototypeReplaceAll(
        afterCursor,
        '\n',
        `\n${kMultilinePrompt.description}`,
      );

      this[kWriteToOutput](formattedEndContent);

      const newCursor = this[kGetDisplayPos](this.line);

      // Go back to where the cursor was, with relative movement
      moveCursor(this.output, oldCursor.cols - newCursor.cols, oldCursor.rows - newCursor.rows);

      // Setting how many rows we have on top of the cursor
      // Necessary for kRefreshLine
      this.prevRows = oldCursor.rows;
    } else {
      // Setting how many rows we have on top of the cursor
      // Necessary for kRefreshLine
      this.prevRows = StringPrototypeSplit(this.line, '\n').length - 1;
    }
  }

  [kPushToUndoStack](text, cursor) {
    if (ArrayPrototypePush(this[kUndoStack], { text, cursor }) >
        kMaxUndoRedoStackSize) {
      ArrayPrototypeShift(this[kUndoStack]);
    }
  }

  [kUndo]() {
    if (this[kUndoStack].length <= 0) return;

    ArrayPrototypePush(
      this[kRedoStack],
      { text: this.line, cursor: this.cursor },
    );

    const entry = ArrayPrototypePop(this[kUndoStack]);
    this[kSetLine](entry.text);
    this.cursor = entry.cursor;

    this[kRefreshLine]();
  }

  [kRedo]() {
    if (this[kRedoStack].length <= 0) return;

    ArrayPrototypePush(
      this[kUndoStack],
      { text: this.line, cursor: this.cursor },
    );

    const entry = ArrayPrototypePop(this[kRedoStack]);
    this[kSetLine](entry.text);
    this.cursor = entry.cursor;

    this[kRefreshLine]();
  }

  [kMultilineMove](direction, splitLines, { rows, cols }) {
    const curr = splitLines[rows];
    const down = direction === 1;
    const adj = splitLines[rows + direction];
    const promptLen = kMultilinePrompt.description.length;
    let amountToMove;
    // Clamp distance to end of current + prompt + next/prev line + newline
    const clamp = down ?
      curr.length - cols + promptLen + adj.length + 1 :
      -cols + 1;
    const shouldClamp = cols > adj.length + 1;

    if (shouldClamp) {
      if (this[kPreviousCursorCols] === -1) {
        this[kPreviousCursorCols] = cols;
      }
      amountToMove = clamp;
    } else {
      if (down) {
        amountToMove = curr.length + 1;
      } else {
        amountToMove = -adj.length - 1;
      }
      if (this[kPreviousCursorCols] !== -1) {
        if (this[kPreviousCursorCols] <= adj.length) {
          amountToMove += this[kPreviousCursorCols] - cols;
          this[kPreviousCursorCols] = -1;
        } else {
          amountToMove = clamp;
        }
      }
    }

    this[kMoveCursor](amountToMove);
  }

  [kMoveDownOrHistoryNext]() {
    const cursorPos = this.getCursorPos();
    const splitLines = StringPrototypeSplit(this.line, '\n');
    if (this[kIsMultiline] && cursorPos.rows < splitLines.length - 1) {
      this[kMultilineMove](1, splitLines, cursorPos);
      return;
    }
    this[kPreviousCursorCols] = -1;
    this[kHistoryNext]();
  }

  // TODO(BridgeAR): Add underscores to the search part and a red background in
  // case no match is found. This should only be the visual part and not the
  // actual line content!
  // TODO(BridgeAR): In case the substring based search is active and the end is
  // reached, show a comment how to search the history as before. E.g., using
  // <ctrl> + N. Only show this after two/three UPs or DOWNs, not on the first
  // one.
  [kHistoryNext]() {
    if (!this.historyManager.canNavigateToNext()) { return; }

    this[kBeforeEdit](this.line, this.cursor);
    this[kSetLine](this.historyManager.navigateToNext(this[kSubstringSearch]));
    this.cursor = this.line.length; // Set cursor to end of line.
    this[kRefreshLine]();
  }

  [kMoveUpOrHistoryPrev]() {
    const cursorPos = this.getCursorPos();
    if (this[kIsMultiline] && cursorPos.rows > 0) {
      const splitLines = StringPrototypeSplit(this.line, '\n');
      this[kMultilineMove](-1, splitLines, cursorPos);
      return;
    }
    this[kPreviousCursorCols] = -1;
    this[kHistoryPrev]();
  }

  [kHistoryPrev]() {
    if (!this.historyManager.canNavigateToPrevious()) { return; }

    this[kBeforeEdit](this.line, this.cursor);
    this[kSetLine](this.historyManager.navigateToPrevious(this[kSubstringSearch]));
    this.cursor = this.line.length; // Set cursor to end of line.
    this[kRefreshLine]();
  }

  // Returns the last character's display position of the given string
  [kGetDisplayPos](str) {
    let offset = 0;
    const col = this.columns;
    let rows = 0;
    str = stripVTControlCharacters(str);

    for (const char of new SafeStringIterator(str)) {
      if (char === '\n') {
        // Rows must be incremented by 1 even if offset = 0 or col = +Infinity.
        rows += MathCeil(offset / col) || 1;
        // Only add prefix offset for continuation lines in user input (not prompts)
        offset = this[kIsMultiline] ? kMultilinePrompt.description.length : 0;
        continue;
      }
      // Tabs must be aligned by an offset of the tab size.
      if (char === '\t') {
        offset += this.tabSize - (offset % this.tabSize);
        continue;
      }
      const width = getStringWidth(char, false /* stripVTControlCharacters */);
      if (width === 0 || width === 1) {
        offset += width;
      } else {
        // width === 2
        if ((offset + 1) % col === 0) {
          offset++;
        }
        offset += 2;
      }
    }

    const cols = offset % col;
    rows += (offset - cols) / col;

    return { cols, rows };
  }

  /**
   * Returns the real position of the cursor in relation
   * to the input prompt + string.
   * @returns {{
   *   rows: number;
   *   cols: number;
   *   }}
   */
  getCursorPos() {
    const strBeforeCursor = this[kPrompt] + StringPrototypeSlice(this.line, 0, this.cursor);

    return this[kGetDisplayPos](strBeforeCursor);
  }

  // This function moves cursor dx places to the right
  // (-dx for left) and refreshes the line if it is needed.
  [kMoveCursor](dx) {
    if (dx === 0) {
      return;
    }
    const oldPos = this.getCursorPos();
    this.cursor += dx;

    // Bounds check
    if (this.cursor < 0) {
      this.cursor = 0;
    } else if (this.cursor > this.line.length) {
      this.cursor = this.line.length;
    }

    const newPos = this.getCursorPos();

    // Check if cursor stayed on the line.
    if (oldPos.rows === newPos.rows) {
      const diffWidth = newPos.cols - oldPos.cols;
      moveCursor(this.output, diffWidth, 0);
    } else {
      this[kRefreshLine]();
    }
  }

  // Handle a write from the tty
  [kTtyWrite](s, key) {
    const previousKey = this[kPreviousKey];
    key ||= kEmptyObject;
    this[kPreviousKey] = key;
    let shouldResetPreviousCursorCols = true;

    if (!key.meta || key.name !== 'y') {
      // Reset yanking state unless we are doing yank pop.
      this[kYanking] = false;
    }

    // Activate or deactivate substring search.
    if (
      (key.name === 'up' || key.name === 'down') &&
      !key.ctrl &&
      !key.meta &&
      !key.shift
    ) {
      if (this[kSubstringSearch] === null && !this[kIsMultiline]) {
        this[kSubstringSearch] = StringPrototypeSlice(
          this.line,
          0,
          this.cursor,
        );
      }
    } else if (this[kSubstringSearch] !== null) {
      this[kSubstringSearch] = null;
      // Reset the index in case there's no match.
      if (this.history.length === this.historyIndex) {
        this.historyIndex = -1;
      }
    }

    // Undo & Redo
    if (typeof key.sequence === 'string') {
      switch (StringPrototypeCodePointAt(key.sequence, 0)) {
        case 0x1f:
          this[kUndo]();
          return;
        case 0x1e:
          this[kRedo]();
          return;
        default:
          break;
      }
    }

    // Ignore escape key, fixes
    // https://github.com/nodejs/node-v0.x-archive/issues/2876.
    if (key.name === 'escape') return;

    if (key.ctrl && key.shift) {
      /* Control and shift pressed */
      switch (key.name) {
        // TODO(BridgeAR): The transmitted escape sequence is `\b` and that is
        // identical to <ctrl>-h. It should have a unique escape sequence.
        case 'backspace':
          this[kDeleteLineLeft]();
          break;

        case 'delete':
          this[kDeleteLineRight]();
          break;
      }
    } else if (key.ctrl) {
      /* Control key pressed */

      switch (key.name) {
        case 'c':
          if (this.listenerCount('SIGINT') > 0) {
            this.emit('SIGINT');
          } else {
            // This readline instance is finished
            this.close();
            this[kQuestionReject]?.(new AbortError('Aborted with Ctrl+C'));
          }
          break;

        case 'h': // delete left
          this[kDeleteLeft]();
          break;

        case 'd': // delete right or EOF
          if (this.cursor === 0 && this.line.length === 0) {
            // This readline instance is finished
            this.close();
            this[kQuestionReject]?.(new AbortError('Aborted with Ctrl+D'));
          } else if (this.cursor < this.line.length) {
            this[kDeleteRight]();
          }
          break;

        case 'u': // Delete from current to start of line
          this[kDeleteLineLeft]();
          break;

        case 'k': // Delete from current to end of line
          this[kDeleteLineRight]();
          break;

        case 'a': // Go to the start of the line
          this[kMoveCursor](-Infinity);
          break;

        case 'e': // Go to the end of the line
          this[kMoveCursor](+Infinity);
          break;

        case 'b': // back one character
          this[kMoveCursor](-charLengthLeft(this.line, this.cursor));
          break;

        case 'f': // Forward one character
          this[kMoveCursor](+charLengthAt(this.line, this.cursor));
          break;

        case 'l': // Clear the whole screen
          cursorTo(this.output, 0, 0);
          clearScreenDown(this.output);
          this[kRefreshLine]();
          break;

        case 'n': // next history item
          this[kHistoryNext]();
          break;

        case 'p': // Previous history item
          this[kHistoryPrev]();
          break;

        case 'y': // Yank killed string
          this[kYank]();
          break;

        case 'z':
          if (process.platform === 'win32') break;
          if (this.listenerCount('SIGTSTP') > 0) {
            this.emit('SIGTSTP');
          } else {
            process.once('SIGCONT', () => {
              // Don't raise events if stream has already been abandoned.
              if (!this.paused) {
                // Stream must be paused and resumed after SIGCONT to catch
                // SIGINT, SIGTSTP, and EOF.
                this.pause();
                this.emit('SIGCONT');
              }
              // Explicitly re-enable "raw mode" and move the cursor to
              // the correct position.
              // See https://github.com/joyent/node/issues/3295.
              this[kSetRawMode](true);
              this[kRefreshLine]();
            });
            this[kSetRawMode](false);
            process.kill(process.pid, 'SIGTSTP');
          }
          break;

        case 'w': // Delete backwards to a word boundary
        // TODO(BridgeAR): The transmitted escape sequence is `\b` and that is
        // identical to <ctrl>-h. It should have a unique escape sequence.
        // Falls through
        case 'backspace':
          this[kDeleteWordLeft]();
          break;

        case 'delete': // Delete forward to a word boundary
          this[kDeleteWordRight]();
          break;

        case 'left':
          this[kWordLeft]();
          break;

        case 'right':
          this[kWordRight]();
          break;
      }
    } else if (key.meta) {
      /* Meta key pressed */

      switch (key.name) {
        case 'b': // backward word
          this[kWordLeft]();
          break;

        case 'f': // forward word
          this[kWordRight]();
          break;

        case 'd': // delete forward word
        case 'delete':
          this[kDeleteWordRight]();
          break;

        case 'backspace': // Delete backwards to a word boundary
          this[kDeleteWordLeft]();
          break;

        case 'y': // Doing yank pop
          this[kYankPop]();
          break;
      }
    } else {
      /* No modifier keys used */

      // \r bookkeeping is only relevant if a \n comes right after.
      if (this[kSawReturnAt] && key.name !== 'enter') this[kSawReturnAt] = 0;

      switch (key.name) {
        case 'return': // Carriage return, i.e. \r
          this[kSawReturnAt] = DateNow();
          this[kLine]();
          break;

        case 'enter':
          // When key interval > crlfDelay
          if (
            this[kSawReturnAt] === 0 ||
            DateNow() - this[kSawReturnAt] > this.crlfDelay
          ) {
            this[kLine]();
          }
          this[kSawReturnAt] = 0;
          break;

        case 'backspace':
          this[kDeleteLeft]();
          break;

        case 'delete':
          this[kDeleteRight]();
          break;

        case 'left':
          // Obtain the code point to the left
          this[kMoveCursor](-charLengthLeft(this.line, this.cursor));
          break;

        case 'right':
          this[kMoveCursor](+charLengthAt(this.line, this.cursor));
          break;

        case 'home':
          this[kMoveCursor](-Infinity);
          break;

        case 'end':
          this[kMoveCursor](+Infinity);
          break;

        case 'up':
          shouldResetPreviousCursorCols = false;
          this[kMoveUpOrHistoryPrev]();
          break;

        case 'down':
          shouldResetPreviousCursorCols = false;
          this[kMoveDownOrHistoryNext]();
          break;

        case 'tab':
          // If tab completion enabled, do that...
          if (
            typeof this.completer === 'function' &&
            this.isCompletionEnabled
          ) {
            const lastKeypressWasTab =
              previousKey && previousKey.name === 'tab';
            this[kTabComplete](lastKeypressWasTab);
            break;
          }
        // falls through
        default:
          if (typeof s === 'string' && s) {
            // Erase state of previous searches.
            lineEnding.lastIndex = 0;
            let nextMatch;
            // Keep track of the end of the last match.
            let lastIndex = 0;
            while ((nextMatch = RegExpPrototypeExec(lineEnding, s)) !== null) {
              this[kInsertString](StringPrototypeSlice(s, lastIndex, nextMatch.index));
              ({ lastIndex } = lineEnding);
              this[kLine]();
              // Restore lastIndex as the call to kLine could have mutated it.
              lineEnding.lastIndex = lastIndex;
            }
            // This ensures that the last line is written if it doesn't end in a newline.
            // Note that the last line may be the first line, in which case this still works.
            this[kInsertString](StringPrototypeSlice(s, lastIndex));
          }
      }
    }
    if (shouldResetPreviousCursorCols) {
      this[kPreviousCursorCols] = -1;
    }
  }

  /**
   * Creates an `AsyncIterator` object that iterates through
   * each line in the input stream as a string.
   * @returns {AsyncIterableIterator<string>}
   */
  [SymbolAsyncIterator]() {
    if (this[kLineObjectStream] === undefined) {
      kFirstEventParam ??= require('internal/events/symbols').kFirstEventParam;
      this[kLineObjectStream] = EventEmitter.on(
        this, 'line', {
          close: ['close'],
          highWaterMark: 1024,
          [kFirstEventParam]: true,
        });
    }
    return this[kLineObjectStream];
  }
}
Interface.prototype[SymbolDispose] = assignFunctionName(SymbolDispose, function() {
  this.close();
});

module.exports = {
  Interface,
  InterfaceConstructor,
  kAddHistory,
  kDecoder,
  kDeleteLeft,
  kDeleteLineLeft,
  kDeleteLineRight,
  kDeleteRight,
  kDeleteWordLeft,
  kDeleteWordRight,
  kGetDisplayPos,
  kHistoryNext,
  kHistoryPrev,
  kInsertString,
  kIsMultiline,
  kLine,
  kLine_buffer,
  kMoveCursor,
  kNormalWrite,
  kOldPrompt,
  kOnLine,
  kSetLine,
  kPreviousKey,
  kPrompt,
  kQuestion,
  kQuestionCallback,
  kQuestionCancel,
  kQuestionReject,
  kRefreshLine,
  kSawKeyPress,
  kSawReturnAt,
  kSetRawMode,
  kTabComplete,
  kTabCompleter,
  kTtyWrite,
  kWordLeft,
  kWordRight,
  kWriteToOutput,
  kMultilinePrompt,
  kRestorePreviousState,
  kAddNewLineOnTTY,
  kLastCommandErrored,
};