'use strict'; const { ArrayPrototypeSlice, ArrayPrototypeSort, RegExpPrototypeExec, StringFromCharCode, StringPrototypeCharCodeAt, StringPrototypeCodePointAt, StringPrototypeSlice, StringPrototypeToLowerCase, Symbol, } = primordials; const kUTF16SurrogateThreshold = 0x10000; // 2 ** 16 const kEscape = '\x1b'; const kSubstringSearch = Symbol('kSubstringSearch'); function CSI(strings, ...args) { let ret = `${kEscape}[`; for (let n = 0; n < strings.length; n++) { ret += strings[n]; if (n < args.length) ret += args[n]; } return ret; } CSI.kEscape = kEscape; CSI.kClearToLineBeginning = CSI`1K`; CSI.kClearToLineEnd = CSI`0K`; CSI.kClearLine = CSI`2K`; CSI.kClearScreenDown = CSI`0J`; // TODO(BridgeAR): Treat combined characters as single character, i.e, // 'a\u0301' and '\u0301a' (both have the same visual output). // Check Canonical_Combining_Class in // http://userguide.icu-project.org/strings/properties function charLengthLeft(str, i) { if (i <= 0) return 0; if ((i > 1 && StringPrototypeCodePointAt(str, i - 2) >= kUTF16SurrogateThreshold) || StringPrototypeCodePointAt(str, i - 1) >= kUTF16SurrogateThreshold) { return 2; } return 1; } function charLengthAt(str, i) { if (str.length <= i) { // Pretend to move to the right. This is necessary to autocomplete while // moving to the right. return 1; } return StringPrototypeCodePointAt(str, i) >= kUTF16SurrogateThreshold ? 2 : 1; } /* Some patterns seen in terminal key escape codes, derived from combos seen at http://www.midnight-commander.org/browser/lib/tty/key.c ESC letter ESC [ letter ESC [ modifier letter ESC [ 1 ; modifier letter ESC [ num char ESC [ num ; modifier char ESC O letter ESC O modifier letter ESC O 1 ; modifier letter ESC N letter ESC [ [ num ; modifier char ESC [ [ 1 ; modifier letter ESC ESC [ num char ESC ESC O letter - char is usually ~ but $ and ^ also happen with rxvt - modifier is 1 + (shift * 1) + (left_alt * 2) + (ctrl * 4) + (right_alt * 8) - two leading ESCs apparently mean the same as one leading ESC */ function* emitKeys(stream) { while (true) { let ch = yield; let s = ch; let escaped = false; const key = { sequence: null, name: undefined, ctrl: false, meta: false, shift: false, }; if (ch === kEscape) { escaped = true; s += (ch = yield); if (ch === kEscape) { s += (ch = yield); } } if (escaped && (ch === 'O' || ch === '[')) { // ANSI escape sequence let code = ch; let modifier = 0; if (ch === 'O') { // ESC O letter // ESC O modifier letter s += (ch = yield); if (ch >= '0' && ch <= '9') { modifier = (ch >> 0) - 1; s += (ch = yield); } code += ch; } else if (ch === '[') { // ESC [ letter // ESC [ modifier letter // ESC [ [ modifier letter // ESC [ [ num char s += (ch = yield); if (ch === '[') { // \x1b[[A // ^--- escape codes might have a second bracket code += ch; s += (ch = yield); } /* * Here and later we try to buffer just enough data to get * a complete ascii sequence. * * We have basically two classes of ascii characters to process: * * * 1. `\x1b[24;5~` should be parsed as { code: '[24~', modifier: 5 } * * This particular example is featuring Ctrl+F12 in xterm. * * - `;5` part is optional, e.g. it could be `\x1b[24~` * - first part can contain one or two digits * - there is also special case when there can be 3 digits * but without modifier. They are the case of paste bracket mode * * So the generic regexp is like /^(?:\d\d?(;\d)?[~^$]|\d{3}~)$/ * * * 2. `\x1b[1;5H` should be parsed as { code: '[H', modifier: 5 } * * This particular example is featuring Ctrl+Home in xterm. * * - `1;5` part is optional, e.g. it could be `\x1b[H` * - `1;` part is optional, e.g. it could be `\x1b[5H` * * So the generic regexp is like /^((\d;)?\d)?[A-Za-z]$/ * */ const cmdStart = s.length - 1; // Skip one or two leading digits if (ch >= '0' && ch <= '9') { s += (ch = yield); if (ch >= '0' && ch <= '9') { s += (ch = yield); if (ch >= '0' && ch <= '9') { s += (ch = yield); } } } // skip modifier if (ch === ';') { s += (ch = yield); if (ch >= '0' && ch <= '9') { s += yield; } } /* * We buffered enough data, now trying to extract code * and modifier from it */ const cmd = StringPrototypeSlice(s, cmdStart); let match; if ((match = RegExpPrototypeExec(/^(?:(\d\d?)(?:;(\d))?([~^$])|(\d{3}~))$/, cmd))) { if (match[4]) { code += match[4]; } else { code += match[1] + match[3]; modifier = (match[2] || 1) - 1; } } else if ( (match = RegExpPrototypeExec(/^((\d;)?(\d))?([A-Za-z])$/, cmd)) ) { code += match[4]; modifier = (match[3] || 1) - 1; } else { code += cmd; } } // Parse the key modifier key.ctrl = !!(modifier & 4); key.meta = !!(modifier & 10); key.shift = !!(modifier & 1); key.code = code; // Parse the key itself switch (code) { /* xterm/gnome ESC [ letter (with modifier) */ case '[P': key.name = 'f1'; break; case '[Q': key.name = 'f2'; break; case '[R': key.name = 'f3'; break; case '[S': key.name = 'f4'; break; /* xterm/gnome ESC O letter (without modifier) */ case 'OP': key.name = 'f1'; break; case 'OQ': key.name = 'f2'; break; case 'OR': key.name = 'f3'; break; case 'OS': key.name = 'f4'; break; /* xterm/rxvt ESC [ number ~ */ case '[11~': key.name = 'f1'; break; case '[12~': key.name = 'f2'; break; case '[13~': key.name = 'f3'; break; case '[14~': key.name = 'f4'; break; /* paste bracket mode */ case '[200~': key.name = 'paste-start'; break; case '[201~': key.name = 'paste-end'; break; /* from Cygwin and used in libuv */ case '[[A': key.name = 'f1'; break; case '[[B': key.name = 'f2'; break; case '[[C': key.name = 'f3'; break; case '[[D': key.name = 'f4'; break; case '[[E': key.name = 'f5'; break; /* common */ case '[15~': key.name = 'f5'; break; case '[17~': key.name = 'f6'; break; case '[18~': key.name = 'f7'; break; case '[19~': key.name = 'f8'; break; case '[20~': key.name = 'f9'; break; case '[21~': key.name = 'f10'; break; case '[23~': key.name = 'f11'; break; case '[24~': key.name = 'f12'; break; /* xterm ESC [ letter */ case '[A': key.name = 'up'; break; case '[B': key.name = 'down'; break; case '[C': key.name = 'right'; break; case '[D': key.name = 'left'; break; case '[E': key.name = 'clear'; break; case '[F': key.name = 'end'; break; case '[H': key.name = 'home'; break; /* xterm/gnome ESC O letter */ case 'OA': key.name = 'up'; break; case 'OB': key.name = 'down'; break; case 'OC': key.name = 'right'; break; case 'OD': key.name = 'left'; break; case 'OE': key.name = 'clear'; break; case 'OF': key.name = 'end'; break; case 'OH': key.name = 'home'; break; /* xterm/rxvt ESC [ number ~ */ case '[1~': key.name = 'home'; break; case '[2~': key.name = 'insert'; break; case '[3~': key.name = 'delete'; break; case '[4~': key.name = 'end'; break; case '[5~': key.name = 'pageup'; break; case '[6~': key.name = 'pagedown'; break; /* putty */ case '[[5~': key.name = 'pageup'; break; case '[[6~': key.name = 'pagedown'; break; /* rxvt */ case '[7~': key.name = 'home'; break; case '[8~': key.name = 'end'; break; /* rxvt keys with modifiers */ case '[a': key.name = 'up'; key.shift = true; break; case '[b': key.name = 'down'; key.shift = true; break; case '[c': key.name = 'right'; key.shift = true; break; case '[d': key.name = 'left'; key.shift = true; break; case '[e': key.name = 'clear'; key.shift = true; break; case '[2$': key.name = 'insert'; key.shift = true; break; case '[3$': key.name = 'delete'; key.shift = true; break; case '[5$': key.name = 'pageup'; key.shift = true; break; case '[6$': key.name = 'pagedown'; key.shift = true; break; case '[7$': key.name = 'home'; key.shift = true; break; case '[8$': key.name = 'end'; key.shift = true; break; case 'Oa': key.name = 'up'; key.ctrl = true; break; case 'Ob': key.name = 'down'; key.ctrl = true; break; case 'Oc': key.name = 'right'; key.ctrl = true; break; case 'Od': key.name = 'left'; key.ctrl = true; break; case 'Oe': key.name = 'clear'; key.ctrl = true; break; case '[2^': key.name = 'insert'; key.ctrl = true; break; case '[3^': key.name = 'delete'; key.ctrl = true; break; case '[5^': key.name = 'pageup'; key.ctrl = true; break; case '[6^': key.name = 'pagedown'; key.ctrl = true; break; case '[7^': key.name = 'home'; key.ctrl = true; break; case '[8^': key.name = 'end'; key.ctrl = true; break; /* misc. */ case '[Z': key.name = 'tab'; key.shift = true; break; default: key.name = 'undefined'; break; } } else if (ch === '\r') { // carriage return key.name = 'return'; key.meta = escaped; } else if (ch === '\n') { // Enter, should have been called linefeed key.name = 'enter'; key.meta = escaped; } else if (ch === '\t') { // tab key.name = 'tab'; key.meta = escaped; } else if (ch === '\b' || ch === '\x7f') { // backspace or ctrl+h key.name = 'backspace'; key.meta = escaped; } else if (ch === kEscape) { // escape key key.name = 'escape'; key.meta = escaped; } else if (ch === ' ') { key.name = 'space'; key.meta = escaped; } else if (!escaped && ch <= '\x1a') { // ctrl+letter key.name = StringFromCharCode( StringPrototypeCharCodeAt(ch) + StringPrototypeCharCodeAt('a') - 1, ); key.ctrl = true; } else if (RegExpPrototypeExec(/^[0-9A-Za-z]$/, ch) !== null) { // Letter, number, shift+letter key.name = StringPrototypeToLowerCase(ch); key.shift = RegExpPrototypeExec(/^[A-Z]$/, ch) !== null; key.meta = escaped; } else if (escaped) { // Escape sequence timeout key.name = ch.length ? undefined : 'escape'; key.meta = true; } key.sequence = s; if (s.length !== 0 && (key.name !== undefined || escaped)) { /* Named character or sequence */ stream.emit('keypress', escaped ? undefined : s, key); } else if (charLengthAt(s, 0) === s.length) { /* Single unnamed character, e.g. "." */ stream.emit('keypress', s, key); } /* Unrecognized or broken escape sequence, don't emit anything */ } } // This runs in O(n log n). function commonPrefix(strings) { if (strings.length === 0) { return ''; } if (strings.length === 1) { return strings[0]; } const sorted = ArrayPrototypeSort(ArrayPrototypeSlice(strings)); const min = sorted[0]; const max = sorted[sorted.length - 1]; for (let i = 0; i < min.length; i++) { if (min[i] !== max[i]) { return StringPrototypeSlice(min, 0, i); } } return min; } module.exports = { charLengthAt, charLengthLeft, commonPrefix, emitKeys, kSubstringSearch, CSI, };