lts/lib/readline.js
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
// Inspiration for this code comes from Salvatore Sanfilippo's linenoise.
// https://github.com/antirez/linenoise
// Reference:
// * http://invisible-island.net/xterm/ctlseqs/ctlseqs.html
// * http://www.3waylabs.com/nw/WWW/products/wizcon/vt220.html
'use strict';
const {
DateNow,
MathCeil,
MathFloor,
MathMax,
NumberIsFinite,
NumberIsNaN,
ObjectDefineProperty,
ObjectSetPrototypeOf,
Symbol,
SymbolAsyncIterator,
} = primordials;
const {
ERR_INVALID_CALLBACK,
ERR_INVALID_CURSOR_POS,
ERR_INVALID_OPT_VALUE
} = require('internal/errors').codes;
const { validateString } = require('internal/validators');
const {
inspect,
getStringWidth,
stripVTControlCharacters,
} = require('internal/util/inspect');
const EventEmitter = require('events');
const {
charLengthAt,
charLengthLeft,
commonPrefix,
CSI,
emitKeys,
kSubstringSearch,
} = require('internal/readline/utils');
const { clearTimeout, setTimeout } = require('timers');
const {
kEscape,
kClearToLineBeginning,
kClearToLineEnd,
kClearLine,
kClearScreenDown
} = CSI;
const { StringDecoder } = require('string_decoder');
// Lazy load Readable for startup performance.
let Readable;
const kHistorySize = 30;
const kMincrlfDelay = 100;
// \r\n, \n, or \r followed by something other than \n
const lineEnding = /\r?\n|\r(?!\n)/;
const kLineObjectStream = Symbol('line object stream');
const KEYPRESS_DECODER = Symbol('keypress-decoder');
const ESCAPE_DECODER = Symbol('escape-decoder');
// GNU readline library - keyseq-timeout is 500ms (default)
const ESCAPE_CODE_TIMEOUT = 500;
function createInterface(input, output, completer, terminal) {
return new Interface(input, output, completer, terminal);
}
function Interface(input, output, completer, terminal) {
if (!(this instanceof Interface)) {
return new Interface(input, output, completer, terminal);
}
this._sawReturnAt = 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._sawKeyPress = false;
this._previousKey = null;
this.escapeCodeTimeout = ESCAPE_CODE_TIMEOUT;
EventEmitter.call(this);
let historySize;
let removeHistoryDuplicates = false;
let crlfDelay;
let prompt = '> ';
if (input && input.input) {
// An options object was given
output = input.output;
completer = input.completer;
terminal = input.terminal;
historySize = input.historySize;
removeHistoryDuplicates = input.removeHistoryDuplicates;
if (input.prompt !== undefined) {
prompt = input.prompt;
}
if (input.escapeCodeTimeout !== undefined) {
if (NumberIsFinite(input.escapeCodeTimeout)) {
this.escapeCodeTimeout = input.escapeCodeTimeout;
} else {
throw new ERR_INVALID_OPT_VALUE(
'escapeCodeTimeout',
this.escapeCodeTimeout
);
}
}
crlfDelay = input.crlfDelay;
input = input.input;
}
if (completer && typeof completer !== 'function') {
throw new ERR_INVALID_OPT_VALUE('completer', completer);
}
if (historySize === undefined) {
historySize = kHistorySize;
}
if (typeof historySize !== 'number' ||
NumberIsNaN(historySize) ||
historySize < 0) {
throw new ERR_INVALID_OPT_VALUE.RangeError('historySize', historySize);
}
// 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[kSubstringSearch] = null;
this.output = output;
this.input = input;
this.historySize = historySize;
this.removeHistoryDuplicates = !!removeHistoryDuplicates;
this.crlfDelay = crlfDelay ?
MathMax(kMincrlfDelay, crlfDelay) : kMincrlfDelay;
// Check arity, 2 - for async, 1 for sync
if (typeof completer === 'function') {
this.completer = completer.length === 2 ?
completer :
function completerWrapper(v, cb) {
cb(null, completer(v));
};
}
this.setPrompt(prompt);
this.terminal = !!terminal;
if (process.env.TERM === 'dumb') {
this._ttyWrite = _ttyWriteDumb.bind(this);
}
function ondata(data) {
self._normalWrite(data);
}
function onend() {
if (typeof self._line_buffer === 'string' &&
self._line_buffer.length > 0) {
self.emit('line', self._line_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._ttyWrite(s, key);
if (key && 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 = key.sequence.codePointAt(0);
if (ch >= 0xd800 && ch <= 0xdfff)
self._refreshLine();
}
}
function onresize() {
self._refreshLine();
}
this[kLineObjectStream] = undefined;
if (!this.terminal) {
function onSelfCloseWithoutTerminal() {
input.removeListener('data', ondata);
input.removeListener('end', onend);
}
input.on('data', ondata);
input.on('end', onend);
self.once('close', onSelfCloseWithoutTerminal);
this._decoder = new StringDecoder('utf8');
} else {
function onSelfCloseWithTerminal() {
input.removeListener('keypress', onkeypress);
input.removeListener('end', ontermend);
if (output !== null && output !== undefined) {
output.removeListener('resize', onresize);
}
}
emitKeypressEvents(input, this);
// `input` usually refers to stdin
input.on('keypress', onkeypress);
input.on('end', ontermend);
// Current line
this.line = '';
this._setRawMode(true);
this.terminal = true;
// Cursor position on the line.
this.cursor = 0;
this.history = [];
this.historyIndex = -1;
if (output !== null && output !== undefined)
output.on('resize', onresize);
self.once('close', onSelfCloseWithTerminal);
}
input.resume();
}
ObjectSetPrototypeOf(Interface.prototype, EventEmitter.prototype);
ObjectSetPrototypeOf(Interface, EventEmitter);
ObjectDefineProperty(Interface.prototype, 'columns', {
configurable: true,
enumerable: true,
get: function() {
if (this.output && this.output.columns)
return this.output.columns;
return Infinity;
}
});
Interface.prototype.setPrompt = function(prompt) {
this._prompt = prompt;
};
Interface.prototype._setRawMode = function(mode) {
const wasInRawMode = this.input.isRaw;
if (typeof this.input.setRawMode === 'function') {
this.input.setRawMode(mode);
}
return wasInRawMode;
};
Interface.prototype.prompt = function(preserveCursor) {
if (this.paused) this.resume();
if (this.terminal && process.env.TERM !== 'dumb') {
if (!preserveCursor) this.cursor = 0;
this._refreshLine();
} else {
this._writeToOutput(this._prompt);
}
};
Interface.prototype.question = function(query, cb) {
if (typeof cb === 'function') {
if (this._questionCallback) {
this.prompt();
} else {
this._oldPrompt = this._prompt;
this.setPrompt(query);
this._questionCallback = cb;
this.prompt();
}
}
};
Interface.prototype._onLine = function(line) {
if (this._questionCallback) {
const cb = this._questionCallback;
this._questionCallback = null;
this.setPrompt(this._oldPrompt);
cb(line);
} else {
this.emit('line', line);
}
};
Interface.prototype._writeToOutput = function _writeToOutput(stringToWrite) {
validateString(stringToWrite, 'stringToWrite');
if (this.output !== null && this.output !== undefined) {
this.output.write(stringToWrite);
}
};
Interface.prototype._addHistory = function() {
if (this.line.length === 0) return '';
// If the history is disabled then return the line
if (this.historySize === 0) return this.line;
// If the trimmed line is empty then return the line
if (this.line.trim().length === 0) return this.line;
if (this.history.length === 0 || this.history[0] !== this.line) {
if (this.removeHistoryDuplicates) {
// Remove older history line if identical to new one
const dupIndex = this.history.indexOf(this.line);
if (dupIndex !== -1) this.history.splice(dupIndex, 1);
}
this.history.unshift(this.line);
// Only store so many
if (this.history.length > this.historySize) this.history.pop();
}
this.historyIndex = -1;
return this.history[0];
};
Interface.prototype._refreshLine = function() {
// line length
const line = this._prompt + this.line;
const dispPos = this._getDisplayPos(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);
// Write the prompt and the current buffer content.
this._writeToOutput(line);
// Force terminal to allocate a new line
if (lineCols === 0) {
this._writeToOutput(' ');
}
// 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;
};
Interface.prototype.close = function() {
if (this.closed) return;
this.pause();
if (this.terminal) {
this._setRawMode(false);
}
this.closed = true;
this.emit('close');
};
Interface.prototype.pause = function() {
if (this.paused) return;
this.input.pause();
this.paused = true;
this.emit('pause');
return this;
};
Interface.prototype.resume = function() {
if (!this.paused) return;
this.input.resume();
this.paused = false;
this.emit('resume');
return this;
};
Interface.prototype.write = function(d, key) {
if (this.paused) this.resume();
if (this.terminal) {
this._ttyWrite(d, key);
} else {
this._normalWrite(d);
}
};
Interface.prototype._normalWrite = function(b) {
if (b === undefined) {
return;
}
let string = this._decoder.write(b);
if (this._sawReturnAt &&
DateNow() - this._sawReturnAt <= this.crlfDelay) {
string = string.replace(/^\n/, '');
this._sawReturnAt = 0;
}
// Run test() on the new string chunk, not on the entire line buffer.
const newPartContainsEnding = lineEnding.test(string);
if (this._line_buffer) {
string = this._line_buffer + string;
this._line_buffer = null;
}
if (newPartContainsEnding) {
this._sawReturnAt = string.endsWith('\r') ? DateNow() : 0;
// Got one or more newlines; process into "line" events
const lines = string.split(lineEnding);
// Either '' or (conceivably) the unfinished portion of the next line
string = lines.pop();
this._line_buffer = string;
for (let n = 0; n < lines.length; n++)
this._onLine(lines[n]);
} else if (string) {
// No newlines this time, save what we have for next time
this._line_buffer = string;
}
};
Interface.prototype._insertString = function(c) {
if (this.cursor < this.line.length) {
const beg = this.line.slice(0, this.cursor);
const end = this.line.slice(this.cursor, this.line.length);
this.line = beg + c + end;
this.cursor += c.length;
this._refreshLine();
} else {
this.line += c;
this.cursor += c.length;
if (this.getCursorPos().cols === 0) {
this._refreshLine();
} else {
this._writeToOutput(c);
}
}
};
Interface.prototype._tabComplete = function(lastKeypressWasTab) {
this.pause();
this.completer(this.line.slice(0, this.cursor), (err, value) => {
this.resume();
if (err) {
this._writeToOutput(`Tab completion error: ${inspect(err)}`);
return;
}
// Result and the text that was completed.
const [completions, completeOn] = value;
if (!completions || completions.length === 0) {
return;
}
// If there is a common prefix to all matches, then apply that portion.
const prefix = commonPrefix(completions.filter((e) => e !== ''));
if (prefix.length > completeOn.length) {
this._insertString(prefix.slice(completeOn.length));
return;
}
if (!lastKeypressWasTab) {
return;
}
// Apply/show completions.
const completionsWidth = completions.map((e) => getStringWidth(e));
const width = MathMax(...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 += ' '.repeat(whitespace);
}
if (completion !== '') {
output += completion;
whitespace = width - completionsWidth[i];
lineIndex++;
} else {
output += '\r\n';
}
}
if (lineIndex !== 0) {
output += '\r\n\r\n';
}
this._writeToOutput(output);
this._refreshLine();
});
};
Interface.prototype._wordLeft = function() {
if (this.cursor > 0) {
// Reverse the string and match a word near beginning
// to avoid quadratic time complexity
const leading = this.line.slice(0, this.cursor);
const reversed = leading.split('').reverse().join('');
const match = reversed.match(/^\s*(?:[^\w\s]+|\w+)?/);
this._moveCursor(-match[0].length);
}
};
Interface.prototype._wordRight = function() {
if (this.cursor < this.line.length) {
const trailing = this.line.slice(this.cursor);
const match = trailing.match(/^(?:\s+|[^\w\s]+|\w+)\s*/);
this._moveCursor(match[0].length);
}
};
Interface.prototype._deleteLeft = function() {
if (this.cursor > 0 && this.line.length > 0) {
// The number of UTF-16 units comprising the character to the left
const charSize = charLengthLeft(this.line, this.cursor);
this.line = this.line.slice(0, this.cursor - charSize) +
this.line.slice(this.cursor, this.line.length);
this.cursor -= charSize;
this._refreshLine();
}
};
Interface.prototype._deleteRight = function() {
if (this.cursor < this.line.length) {
// The number of UTF-16 units comprising the character to the left
const charSize = charLengthAt(this.line, this.cursor);
this.line = this.line.slice(0, this.cursor) +
this.line.slice(this.cursor + charSize, this.line.length);
this._refreshLine();
}
};
Interface.prototype._deleteWordLeft = function() {
if (this.cursor > 0) {
// Reverse the string and match a word near beginning
// to avoid quadratic time complexity
let leading = this.line.slice(0, this.cursor);
const reversed = leading.split('').reverse().join('');
const match = reversed.match(/^\s*(?:[^\w\s]+|\w+)?/);
leading = leading.slice(0, leading.length - match[0].length);
this.line = leading + this.line.slice(this.cursor, this.line.length);
this.cursor = leading.length;
this._refreshLine();
}
};
Interface.prototype._deleteWordRight = function() {
if (this.cursor < this.line.length) {
const trailing = this.line.slice(this.cursor);
const match = trailing.match(/^(?:\s+|\W+|\w+)\s*/);
this.line = this.line.slice(0, this.cursor) +
trailing.slice(match[0].length);
this._refreshLine();
}
};
Interface.prototype._deleteLineLeft = function() {
this.line = this.line.slice(this.cursor);
this.cursor = 0;
this._refreshLine();
};
Interface.prototype._deleteLineRight = function() {
this.line = this.line.slice(0, this.cursor);
this._refreshLine();
};
Interface.prototype.clearLine = function() {
this._moveCursor(+Infinity);
this._writeToOutput('\r\n');
this.line = '';
this.cursor = 0;
this.prevRows = 0;
};
Interface.prototype._line = function() {
const line = this._addHistory();
this.clearLine();
this._onLine(line);
};
// 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.
Interface.prototype._historyNext = function() {
if (this.historyIndex >= 0) {
const search = this[kSubstringSearch] || '';
let index = this.historyIndex - 1;
while (index >= 0 &&
(!this.history[index].startsWith(search) ||
this.line === this.history[index])) {
index--;
}
if (index === -1) {
this.line = search;
} else {
this.line = this.history[index];
}
this.historyIndex = index;
this.cursor = this.line.length; // Set cursor to end of line.
this._refreshLine();
}
};
Interface.prototype._historyPrev = function() {
if (this.historyIndex < this.history.length && this.history.length) {
const search = this[kSubstringSearch] || '';
let index = this.historyIndex + 1;
while (index < this.history.length &&
(!this.history[index].startsWith(search) ||
this.line === this.history[index])) {
index++;
}
if (index === this.history.length) {
this.line = search;
} else {
this.line = this.history[index];
}
this.historyIndex = index;
this.cursor = this.line.length; // Set cursor to end of line.
this._refreshLine();
}
};
// Returns the last character's display position of the given string
Interface.prototype._getDisplayPos = function(str) {
let offset = 0;
const col = this.columns;
let rows = 0;
str = stripVTControlCharacters(str);
for (const char of str) {
if (char === '\n') {
// Rows must be incremented by 1 even if offset = 0 or col = +Infinity.
rows += MathCeil(offset / col) || 1;
offset = 0;
continue;
}
// Tabs must be aligned by an offset of 8.
// TODO(BridgeAR): Make the tab size configurable.
if (char === '\t') {
offset += 8 - (offset % 8);
continue;
}
const width = getStringWidth(char);
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 current cursor's position and line
Interface.prototype.getCursorPos = function() {
const strBeforeCursor = this._prompt + this.line.substring(0, this.cursor);
return this._getDisplayPos(strBeforeCursor);
};
Interface.prototype._getCursorPos = Interface.prototype.getCursorPos;
// This function moves cursor dx places to the right
// (-dx for left) and refreshes the line if it is needed.
Interface.prototype._moveCursor = function(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._refreshLine();
}
};
function _ttyWriteDumb(s, key) {
key = key || {};
if (key.name === 'escape') return;
if (this._sawReturnAt && key.name !== 'enter')
this._sawReturnAt = 0;
if (key.ctrl) {
if (key.name === 'c') {
if (this.listenerCount('SIGINT') > 0) {
this.emit('SIGINT');
} else {
// This readline instance is finished
this.close();
}
return;
} else if (key.name === 'd') {
this.close();
return;
}
}
switch (key.name) {
case 'return': // Carriage return, i.e. \r
this._sawReturnAt = DateNow();
this._line();
break;
case 'enter':
// When key interval > crlfDelay
if (this._sawReturnAt === 0 ||
DateNow() - this._sawReturnAt > this.crlfDelay) {
this._line();
}
this._sawReturnAt = 0;
break;
default:
if (typeof s === 'string' && s) {
this.line += s;
this.cursor += s.length;
this._writeToOutput(s);
}
}
}
// Handle a write from the tty
Interface.prototype._ttyWrite = function(s, key) {
const previousKey = this._previousKey;
key = key || {};
this._previousKey = key;
// Activate or deactivate substring search.
if ((key.name === 'up' || key.name === 'down') &&
!key.ctrl && !key.meta && !key.shift) {
if (this[kSubstringSearch] === null) {
this[kSubstringSearch] = this.line.slice(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;
}
}
// 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._deleteLineLeft();
break;
case 'delete':
this._deleteLineRight();
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();
}
break;
case 'h': // delete left
this._deleteLeft();
break;
case 'd': // delete right or EOF
if (this.cursor === 0 && this.line.length === 0) {
// This readline instance is finished
this.close();
} else if (this.cursor < this.line.length) {
this._deleteRight();
}
break;
case 'u': // Delete from current to start of line
this._deleteLineLeft();
break;
case 'k': // Delete from current to end of line
this._deleteLineRight();
break;
case 'a': // Go to the start of the line
this._moveCursor(-Infinity);
break;
case 'e': // Go to the end of the line
this._moveCursor(+Infinity);
break;
case 'b': // back one character
this._moveCursor(-charLengthLeft(this.line, this.cursor));
break;
case 'f': // Forward one character
this._moveCursor(+charLengthAt(this.line, this.cursor));
break;
case 'l': // Clear the whole screen
cursorTo(this.output, 0, 0);
clearScreenDown(this.output);
this._refreshLine();
break;
case 'n': // next history item
this._historyNext();
break;
case 'p': // Previous history item
this._historyPrev();
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._setRawMode(true);
this._refreshLine();
});
this._setRawMode(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._deleteWordLeft();
break;
case 'delete': // Delete forward to a word boundary
this._deleteWordRight();
break;
case 'left':
this._wordLeft();
break;
case 'right':
this._wordRight();
break;
}
} else if (key.meta) {
/* Meta key pressed */
switch (key.name) {
case 'b': // backward word
this._wordLeft();
break;
case 'f': // forward word
this._wordRight();
break;
case 'd': // delete forward word
case 'delete':
this._deleteWordRight();
break;
case 'backspace': // Delete backwards to a word boundary
this._deleteWordLeft();
break;
}
} else {
/* No modifier keys used */
// \r bookkeeping is only relevant if a \n comes right after.
if (this._sawReturnAt && key.name !== 'enter')
this._sawReturnAt = 0;
switch (key.name) {
case 'return': // Carriage return, i.e. \r
this._sawReturnAt = DateNow();
this._line();
break;
case 'enter':
// When key interval > crlfDelay
if (this._sawReturnAt === 0 ||
DateNow() - this._sawReturnAt > this.crlfDelay) {
this._line();
}
this._sawReturnAt = 0;
break;
case 'backspace':
this._deleteLeft();
break;
case 'delete':
this._deleteRight();
break;
case 'left':
// Obtain the code point to the left
this._moveCursor(-charLengthLeft(this.line, this.cursor));
break;
case 'right':
this._moveCursor(+charLengthAt(this.line, this.cursor));
break;
case 'home':
this._moveCursor(-Infinity);
break;
case 'end':
this._moveCursor(+Infinity);
break;
case 'up':
this._historyPrev();
break;
case 'down':
this._historyNext();
break;
case 'tab':
// If tab completion enabled, do that...
if (typeof this.completer === 'function' && this.isCompletionEnabled) {
const lastKeypressWasTab = previousKey && previousKey.name === 'tab';
this._tabComplete(lastKeypressWasTab);
break;
}
// falls through
default:
if (typeof s === 'string' && s) {
const lines = s.split(/\r\n|\n|\r/);
for (let i = 0, len = lines.length; i < len; i++) {
if (i > 0) {
this._line();
}
this._insertString(lines[i]);
}
}
}
}
};
Interface.prototype[SymbolAsyncIterator] = function() {
if (this[kLineObjectStream] === undefined) {
if (Readable === undefined) {
Readable = require('stream').Readable;
}
const readable = new Readable({
objectMode: true,
read: () => {
this.resume();
},
destroy: (err, cb) => {
this.off('line', lineListener);
this.off('close', closeListener);
this.close();
cb(err);
}
});
const lineListener = (input) => {
if (!readable.push(input)) {
this.pause();
}
};
const closeListener = () => {
readable.push(null);
};
this.on('line', lineListener);
this.on('close', closeListener);
this[kLineObjectStream] = readable;
}
return this[kLineObjectStream][SymbolAsyncIterator]();
};
/**
* accepts a readable Stream instance and makes it emit "keypress" events
*/
function emitKeypressEvents(stream, iface = {}) {
if (stream[KEYPRESS_DECODER]) return;
stream[KEYPRESS_DECODER] = new StringDecoder('utf8');
stream[ESCAPE_DECODER] = emitKeys(stream);
stream[ESCAPE_DECODER].next();
const triggerEscape = () => stream[ESCAPE_DECODER].next('');
const { escapeCodeTimeout = ESCAPE_CODE_TIMEOUT } = iface;
let timeoutId;
function onData(input) {
if (stream.listenerCount('keypress') > 0) {
const string = stream[KEYPRESS_DECODER].write(input);
if (string) {
clearTimeout(timeoutId);
// This supports characters of length 2.
iface._sawKeyPress = charLengthAt(string, 0) === string.length;
iface.isCompletionEnabled = false;
let length = 0;
for (const character of string) {
length += character.length;
if (length === string.length) {
iface.isCompletionEnabled = true;
}
try {
stream[ESCAPE_DECODER].next(character);
// Escape letter at the tail position
if (length === string.length && character === kEscape) {
timeoutId = setTimeout(triggerEscape, escapeCodeTimeout);
}
} catch (err) {
// If the generator throws (it could happen in the `keypress`
// event), we need to restart it.
stream[ESCAPE_DECODER] = emitKeys(stream);
stream[ESCAPE_DECODER].next();
throw err;
}
}
}
} else {
// Nobody's watching anyway
stream.removeListener('data', onData);
stream.on('newListener', onNewListener);
}
}
function onNewListener(event) {
if (event === 'keypress') {
stream.on('data', onData);
stream.removeListener('newListener', onNewListener);
}
}
if (stream.listenerCount('keypress') > 0) {
stream.on('data', onData);
} else {
stream.on('newListener', onNewListener);
}
}
/**
* moves the cursor to the x and y coordinate on the given stream
*/
function cursorTo(stream, x, y, callback) {
if (callback !== undefined && typeof callback !== 'function')
throw new ERR_INVALID_CALLBACK(callback);
if (typeof y === 'function') {
callback = y;
y = undefined;
}
if (stream == null || (typeof x !== 'number' && typeof y !== 'number')) {
if (typeof callback === 'function')
process.nextTick(callback, null);
return true;
}
if (typeof x !== 'number')
throw new ERR_INVALID_CURSOR_POS();
const data = typeof y !== 'number' ? CSI`${x + 1}G` : CSI`${y + 1};${x + 1}H`;
return stream.write(data, callback);
}
/**
* moves the cursor relative to its current location
*/
function moveCursor(stream, dx, dy, callback) {
if (callback !== undefined && typeof callback !== 'function')
throw new ERR_INVALID_CALLBACK(callback);
if (stream == null || !(dx || dy)) {
if (typeof callback === 'function')
process.nextTick(callback, null);
return true;
}
let data = '';
if (dx < 0) {
data += CSI`${-dx}D`;
} else if (dx > 0) {
data += CSI`${dx}C`;
}
if (dy < 0) {
data += CSI`${-dy}A`;
} else if (dy > 0) {
data += CSI`${dy}B`;
}
return stream.write(data, callback);
}
/**
* clears the current line the cursor is on:
* -1 for left of the cursor
* +1 for right of the cursor
* 0 for the entire line
*/
function clearLine(stream, dir, callback) {
if (callback !== undefined && typeof callback !== 'function')
throw new ERR_INVALID_CALLBACK(callback);
if (stream === null || stream === undefined) {
if (typeof callback === 'function')
process.nextTick(callback, null);
return true;
}
const type = dir < 0 ?
kClearToLineBeginning :
dir > 0 ?
kClearToLineEnd :
kClearLine;
return stream.write(type, callback);
}
/**
* clears the screen from the current position of the cursor down
*/
function clearScreenDown(stream, callback) {
if (callback !== undefined && typeof callback !== 'function')
throw new ERR_INVALID_CALLBACK(callback);
if (stream === null || stream === undefined) {
if (typeof callback === 'function')
process.nextTick(callback, null);
return true;
}
return stream.write(kClearScreenDown, callback);
}
module.exports = {
Interface,
clearLine,
clearScreenDown,
createInterface,
cursorTo,
emitKeypressEvents,
moveCursor
};