// regjsparser // // ================================================================== // // See ECMA-262 Standard: 15.10.1 // // NOTE: The ECMA-262 standard uses the term "Assertion" for /^/. Here the // term "Anchor" is used. // // Pattern :: // Disjunction // // Disjunction :: // Alternative // Alternative | Disjunction // // Alternative :: // [empty] // Alternative Term // // Term :: // Anchor // Atom // Atom Quantifier // // Anchor :: // ^ // $ // \ b // \ B // ( ? = Disjunction ) // ( ? ! Disjunction ) // // Quantifier :: // QuantifierPrefix // QuantifierPrefix ? // // QuantifierPrefix :: // * // + // ? // { DecimalDigits } // { DecimalDigits , } // { DecimalDigits , DecimalDigits } // // Atom :: // PatternCharacter // . // \ AtomEscape // CharacterClass // ( Disjunction ) // ( ? : Disjunction ) // // PatternCharacter :: // SourceCharacter but not any of: ^ $ \ . * + ? ( ) [ ] { } | // // AtomEscape :: // DecimalEscape // CharacterEscape // CharacterClassEscape // // CharacterEscape[U] :: // ControlEscape // c ControlLetter // HexEscapeSequence // RegExpUnicodeEscapeSequence[?U] (ES6) // IdentityEscape[?U] // // ControlEscape :: // one of f n r t v // ControlLetter :: // one of // a b c d e f g h i j k l m n o p q r s t u v w x y z // A B C D E F G H I J K L M N O P Q R S T U V W X Y Z // // IdentityEscape :: // SourceCharacter but not IdentifierPart // <ZWJ> // <ZWNJ> // // DecimalEscape :: // DecimalIntegerLiteral [lookahead ∉ DecimalDigit] // // CharacterClassEscape :: // one of d D s S w W // // CharacterClass :: // [ [lookahead ∉ {^}] ClassRanges ] // [ ^ ClassRanges ] // // ClassRanges :: // [empty] // NonemptyClassRanges // // NonemptyClassRanges :: // ClassAtom // ClassAtom NonemptyClassRangesNoDash // ClassAtom - ClassAtom ClassRanges // // NonemptyClassRangesNoDash :: // ClassAtom // ClassAtomNoDash NonemptyClassRangesNoDash // ClassAtomNoDash - ClassAtom ClassRanges // // ClassAtom :: // - // ClassAtomNoDash // // ClassAtomNoDash :: // SourceCharacter but not one of \ or ] or - // \ ClassEscape // // ClassEscape :: // DecimalEscape // b // CharacterEscape // CharacterClassEscape (function() { function parse(str, flags) { function addRaw(node) { node.raw = str.substring(node.range[0], node.range[1]); return node; } function updateRawStart(node, start) { node.range[0] = start; return addRaw(node); } function createAnchor(kind, rawLength) { return addRaw({ type: 'anchor', kind: kind, range: [ pos - rawLength, pos ] }); } function createValue(kind, codePoint, from, to) { return addRaw({ type: 'value', kind: kind, codePoint: codePoint, range: [from, to] }); } function createEscaped(kind, codePoint, value, fromOffset) { fromOffset = fromOffset || 0; return createValue(kind, codePoint, pos - (value.length + fromOffset), pos); } function createCharacter(matches) { var _char = matches[0]; var first = _char.charCodeAt(0); if (hasUnicodeFlag) { var second; if (_char.length === 1 && first >= 0xD800 && first <= 0xDBFF) { second = lookahead().charCodeAt(0); if (second >= 0xDC00 && second <= 0xDFFF) { // Unicode surrogate pair pos++; return createValue( 'symbol', (first - 0xD800) * 0x400 + second - 0xDC00 + 0x10000, pos - 2, pos); } } } return createValue('symbol', first, pos - 1, pos); } function createDisjunction(alternatives, from, to) { return addRaw({ type: 'disjunction', body: alternatives, range: [ from, to ] }); } function createDot() { return addRaw({ type: 'dot', range: [ pos - 1, pos ] }); } function createCharacterClassEscape(value) { return addRaw({ type: 'characterClassEscape', value: value, range: [ pos - 2, pos ] }); } function createReference(matchIndex) { return addRaw({ type: 'reference', matchIndex: parseInt(matchIndex, 10), range: [ pos - 1 - matchIndex.length, pos ] }); } function createGroup(behavior, disjunction, from, to) { return addRaw({ type: 'group', behavior: behavior, body: disjunction, range: [ from, to ] }); } function createQuantifier(min, max, from, to) { if (to == null) { from = pos - 1; to = pos; } return addRaw({ type: 'quantifier', min: min, max: max, greedy: true, body: null, // set later on range: [ from, to ] }); } function createAlternative(terms, from, to) { return addRaw({ type: 'alternative', body: terms, range: [ from, to ] }); } function createCharacterClass(classRanges, negative, from, to) { return addRaw({ type: 'characterClass', body: classRanges, negative: negative, range: [ from, to ] }); } function createClassRange(min, max, from, to) { // See 15.10.2.15: if (min.codePoint > max.codePoint) { bail('invalid range in character class', min.raw + '-' + max.raw, from, to); } return addRaw({ type: 'characterClassRange', min: min, max: max, range: [ from, to ] }); } function flattenBody(body) { if (body.type === 'alternative') { return body.body; } else { return [body]; } } function isEmpty(obj) { return obj.type === 'empty'; } function incr(amount) { amount = (amount || 1); var res = str.substring(pos, pos + amount); pos += (amount || 1); return res; } function skip(value) { if (!match(value)) { bail('character', value); } } function match(value) { if (str.indexOf(value, pos) === pos) { return incr(value.length); } } function lookahead() { return str[pos]; } function current(value) { return str.indexOf(value, pos) === pos; } function next(value) { return str[pos + 1] === value; } function matchReg(regExp) { var subStr = str.substring(pos); var res = subStr.match(regExp); if (res) { res.range = []; res.range[0] = pos; incr(res[0].length); res.range[1] = pos; } return res; } function parseDisjunction() { // Disjunction :: // Alternative // Alternative | Disjunction var res = [], from = pos; res.push(parseAlternative()); while (match('|')) { res.push(parseAlternative()); } if (res.length === 1) { return res[0]; } return createDisjunction(res, from, pos); } function parseAlternative() { var res = [], from = pos; var term; // Alternative :: // [empty] // Alternative Term while (term = parseTerm()) { res.push(term); } if (res.length === 1) { return res[0]; } return createAlternative(res, from, pos); } function parseTerm() { // Term :: // Anchor // Atom // Atom Quantifier if (pos >= str.length || current('|') || current(')')) { return null; /* Means: The term is empty */ } var anchor = parseAnchor(); if (anchor) { return anchor; } var atom = parseAtom(); if (!atom) { bail('Expected atom'); } var quantifier = parseQuantifier() || false; if (quantifier) { quantifier.body = flattenBody(atom); // The quantifier contains the atom. Therefore, the beginning of the // quantifier range is given by the beginning of the atom. updateRawStart(quantifier, atom.range[0]); return quantifier; } return atom; } function parseGroup(matchA, typeA, matchB, typeB) { var type = null, from = pos; if (match(matchA)) { type = typeA; } else if (match(matchB)) { type = typeB; } else { return false; } var body = parseDisjunction(); if (!body) { bail('Expected disjunction'); } skip(')'); var group = createGroup(type, flattenBody(body), from, pos); if (type == 'normal') { // Keep track of the number of closed groups. This is required for // parseDecimalEscape(). In case the string is parsed a second time the // value already holds the total count and no incrementation is required. if (firstIteration) { closedCaptureCounter++; } } return group; } function parseAnchor() { // Anchor :: // ^ // $ // \ b // \ B // ( ? = Disjunction ) // ( ? ! Disjunction ) var res, from = pos; if (match('^')) { return createAnchor('start', 1 /* rawLength */); } else if (match('$')) { return createAnchor('end', 1 /* rawLength */); } else if (match('\\b')) { return createAnchor('boundary', 2 /* rawLength */); } else if (match('\\B')) { return createAnchor('not-boundary', 2 /* rawLength */); } else { return parseGroup('(?=', 'lookahead', '(?!', 'negativeLookahead'); } } function parseQuantifier() { // Quantifier :: // QuantifierPrefix // QuantifierPrefix ? // // QuantifierPrefix :: // * // + // ? // { DecimalDigits } // { DecimalDigits , } // { DecimalDigits , DecimalDigits } var res, from = pos; var quantifier; var min, max; if (match('*')) { quantifier = createQuantifier(0); } else if (match('+')) { quantifier = createQuantifier(1); } else if (match('?')) { quantifier = createQuantifier(0, 1); } else if (res = matchReg(/^\{([0-9]+)\}/)) { min = parseInt(res[1], 10); quantifier = createQuantifier(min, min, res.range[0], res.range[1]); } else if (res = matchReg(/^\{([0-9]+),\}/)) { min = parseInt(res[1], 10); quantifier = createQuantifier(min, undefined, res.range[0], res.range[1]); } else if (res = matchReg(/^\{([0-9]+),([0-9]+)\}/)) { min = parseInt(res[1], 10); max = parseInt(res[2], 10); if (min > max) { bail('numbers out of order in {} quantifier', '', from, pos); } quantifier = createQuantifier(min, max, res.range[0], res.range[1]); } if (quantifier) { if (match('?')) { quantifier.greedy = false; quantifier.range[1] += 1; } } return quantifier; } function parseAtom() { // Atom :: // PatternCharacter // . // \ AtomEscape // CharacterClass // ( Disjunction ) // ( ? : Disjunction ) var res; // jviereck: allow ']', '}' here as well to be compatible with browser's // implementations: ']'.match(/]/); // if (res = matchReg(/^[^^$\\.*+?()[\]{}|]/)) { if (res = matchReg(/^[^^$\\.*+?(){[|]/)) { // PatternCharacter return createCharacter(res); } else if (match('.')) { // . return createDot(); } else if (match('\\')) { // \ AtomEscape res = parseAtomEscape(); if (!res) { bail('atomEscape'); } return res; } else if (res = parseCharacterClass()) { return res; } else { // ( Disjunction ) // ( ? : Disjunction ) return parseGroup('(?:', 'ignore', '(', 'normal'); } } function parseUnicodeSurrogatePairEscape(firstEscape) { if (hasUnicodeFlag) { var first, second; if (firstEscape.kind == 'unicodeEscape' && (first = firstEscape.codePoint) >= 0xD800 && first <= 0xDBFF && current('\\') && next('u') ) { var prevPos = pos; pos++; var secondEscape = parseClassEscape(); if (secondEscape.kind == 'unicodeEscape' && (second = secondEscape.codePoint) >= 0xDC00 && second <= 0xDFFF) { // Unicode surrogate pair firstEscape.range[1] = secondEscape.range[1]; firstEscape.codePoint = (first - 0xD800) * 0x400 + second - 0xDC00 + 0x10000; firstEscape.type = 'value'; firstEscape.kind = 'unicodeCodePointEscape'; addRaw(firstEscape); } else { pos = prevPos; } } } return firstEscape; } function parseClassEscape() { return parseAtomEscape(true); } function parseAtomEscape(insideCharacterClass) { // AtomEscape :: // DecimalEscape // CharacterEscape // CharacterClassEscape var res, from = pos; res = parseDecimalEscape(); if (res) { return res; } // For ClassEscape if (insideCharacterClass) { if (match('b')) { // 15.10.2.19 // The production ClassEscape :: b evaluates by returning the // CharSet containing the one character <BS> (Unicode value 0008). return createEscaped('singleEscape', 0x0008, '\\b'); } else if (match('B')) { bail('\\B not possible inside of CharacterClass', '', from); } } res = parseCharacterEscape(); return res; } function parseDecimalEscape() { // DecimalEscape :: // DecimalIntegerLiteral [lookahead ∉ DecimalDigit] // CharacterClassEscape :: one of d D s S w W var res, match; if (res = matchReg(/^(?!0)\d+/)) { match = res[0]; var refIdx = parseInt(res[0], 10); if (refIdx <= closedCaptureCounter) { // If the number is smaller than the normal-groups found so // far, then it is a reference... return createReference(res[0]); } else { // ... otherwise it needs to be interpreted as a octal (if the // number is in an octal format). If it is NOT octal format, // then the slash is ignored and the number is matched later // as normal characters. // Recall the negative decision to decide if the input must be parsed // a second time with the total normal-groups. backrefDenied.push(refIdx); // Reset the position again, as maybe only parts of the previous // matched numbers are actual octal numbers. E.g. in '019' only // the '01' should be matched. incr(-res[0].length); if (res = matchReg(/^[0-7]{1,3}/)) { return createEscaped('octal', parseInt(res[0], 8), res[0], 1); } else { // If we end up here, we have a case like /\91/. Then the // first slash is to be ignored and the 9 & 1 to be treated // like ordinary characters. Create a character for the // first number only here - other number-characters // (if available) will be matched later. res = createCharacter(matchReg(/^[89]/)); return updateRawStart(res, res.range[0] - 1); } } } // Only allow octal numbers in the following. All matched numbers start // with a zero (if the do not, the previous if-branch is executed). // If the number is not octal format and starts with zero (e.g. `091`) // then only the zeros `0` is treated here and the `91` are ordinary // characters. // Example: // /\091/.exec('\091')[0].length === 3 else if (res = matchReg(/^[0-7]{1,3}/)) { match = res[0]; if (/^0{1,3}$/.test(match)) { // If they are all zeros, then only take the first one. return createEscaped('null', 0x0000, '0', match.length + 1); } else { return createEscaped('octal', parseInt(match, 8), match, 1); } } else if (res = matchReg(/^[dDsSwW]/)) { return createCharacterClassEscape(res[0]); } return false; } function parseCharacterEscape() { // CharacterEscape :: // ControlEscape // c ControlLetter // HexEscapeSequence // UnicodeEscapeSequence // IdentityEscape var res; if (res = matchReg(/^[fnrtv]/)) { // ControlEscape var codePoint = 0; switch (res[0]) { case 't': codePoint = 0x009; break; case 'n': codePoint = 0x00A; break; case 'v': codePoint = 0x00B; break; case 'f': codePoint = 0x00C; break; case 'r': codePoint = 0x00D; break; } return createEscaped('singleEscape', codePoint, '\\' + res[0]); } else if (res = matchReg(/^c([a-zA-Z])/)) { // c ControlLetter return createEscaped('controlLetter', res[1].charCodeAt(0) % 32, res[1], 2); } else if (res = matchReg(/^x([0-9a-fA-F]{2})/)) { // HexEscapeSequence return createEscaped('hexadecimalEscape', parseInt(res[1], 16), res[1], 2); } else if (res = matchReg(/^u([0-9a-fA-F]{4})/)) { // UnicodeEscapeSequence return parseUnicodeSurrogatePairEscape( createEscaped('unicodeEscape', parseInt(res[1], 16), res[1], 2) ); } else if (hasUnicodeFlag && (res = matchReg(/^u\{([0-9a-fA-F]+)\}/))) { // RegExpUnicodeEscapeSequence (ES6 Unicode code point escape) return createEscaped('unicodeCodePointEscape', parseInt(res[1], 16), res[1], 4); } else { // IdentityEscape return parseIdentityEscape(); } } // Taken from the Esprima parser. function isIdentifierPart(ch) { // Generated by `tools/generate-identifier-regex.js`. var NonAsciiIdentifierPart = new 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\uFF5A\uFF66-\uFFBE\uFFC2-\uFFC7\uFFCA-\uFFCF\uFFD2-\uFFD7\uFFDA-\uFFDC]'); return (ch === 36) || (ch === 95) || // $ (dollar) and _ (underscore) (ch >= 65 && ch <= 90) || // A..Z (ch >= 97 && ch <= 122) || // a..z (ch >= 48 && ch <= 57) || // 0..9 (ch === 92) || // \ (backslash) ((ch >= 0x80) && NonAsciiIdentifierPart.test(String.fromCharCode(ch))); } function parseIdentityEscape() { // IdentityEscape :: // SourceCharacter but not IdentifierPart // <ZWJ> // <ZWNJ> var ZWJ = '\u200C'; var ZWNJ = '\u200D'; var tmp; if (!isIdentifierPart(lookahead())) { tmp = incr(); return createEscaped('identifier', tmp.charCodeAt(0), tmp, 1); } if (match(ZWJ)) { // <ZWJ> return createEscaped('identifier', 0x200C, ZWJ); } else if (match(ZWNJ)) { // <ZWNJ> return createEscaped('identifier', 0x200D, ZWNJ); } return null; } function parseCharacterClass() { // CharacterClass :: // [ [lookahead ∉ {^}] ClassRanges ] // [ ^ ClassRanges ] var res, from = pos; if (res = matchReg(/^\[\^/)) { res = parseClassRanges(); skip(']'); return createCharacterClass(res, true, from, pos); } else if (match('[')) { res = parseClassRanges(); skip(']'); return createCharacterClass(res, false, from, pos); } return null; } function parseClassRanges() { // ClassRanges :: // [empty] // NonemptyClassRanges var res; if (current(']')) { // Empty array means nothing insinde of the ClassRange. return []; } else { res = parseNonemptyClassRanges(); if (!res) { bail('nonEmptyClassRanges'); } return res; } } function parseHelperClassRanges(atom) { var from, to, res; if (current('-') && !next(']')) { // ClassAtom - ClassAtom ClassRanges skip('-'); res = parseClassAtom(); if (!res) { bail('classAtom'); } to = pos; var classRanges = parseClassRanges(); if (!classRanges) { bail('classRanges'); } from = atom.range[0]; if (classRanges.type === 'empty') { return [createClassRange(atom, res, from, to)]; } return [createClassRange(atom, res, from, to)].concat(classRanges); } res = parseNonemptyClassRangesNoDash(); if (!res) { bail('nonEmptyClassRangesNoDash'); } return [atom].concat(res); } function parseNonemptyClassRanges() { // NonemptyClassRanges :: // ClassAtom // ClassAtom NonemptyClassRangesNoDash // ClassAtom - ClassAtom ClassRanges var atom = parseClassAtom(); if (!atom) { bail('classAtom'); } if (current(']')) { // ClassAtom return [atom]; } // ClassAtom NonemptyClassRangesNoDash // ClassAtom - ClassAtom ClassRanges return parseHelperClassRanges(atom); } function parseNonemptyClassRangesNoDash() { // NonemptyClassRangesNoDash :: // ClassAtom // ClassAtomNoDash NonemptyClassRangesNoDash // ClassAtomNoDash - ClassAtom ClassRanges var res = parseClassAtom(); if (!res) { bail('classAtom'); } if (current(']')) { // ClassAtom return res; } // ClassAtomNoDash NonemptyClassRangesNoDash // ClassAtomNoDash - ClassAtom ClassRanges return parseHelperClassRanges(res); } function parseClassAtom() { // ClassAtom :: // - // ClassAtomNoDash if (match('-')) { return createCharacter('-'); } else { return parseClassAtomNoDash(); } } function parseClassAtomNoDash() { // ClassAtomNoDash :: // SourceCharacter but not one of \ or ] or - // \ ClassEscape var res; if (res = matchReg(/^[^\\\]-]/)) { return createCharacter(res[0]); } else if (match('\\')) { res = parseClassEscape(); if (!res) { bail('classEscape'); } return parseUnicodeSurrogatePairEscape(res); } } function bail(message, details, from, to) { from = from == null ? pos : from; to = to == null ? from : to; var contextStart = Math.max(0, from - 10); var contextEnd = Math.min(to + 10, str.length); // Output a bit of context and a line pointing to where our error is. // // We are assuming that there are no actual newlines in the content as this is a regular expression. var context = ' ' + str.substring(contextStart, contextEnd); var pointer = ' ' + new Array(from - contextStart + 1).join(' ') + '^'; throw SyntaxError(message + ' at position ' + from + (details ? ': ' + details : '') + '\n' + context + '\n' + pointer); } var backrefDenied = []; var closedCaptureCounter = 0; var firstIteration = true; var hasUnicodeFlag = (flags || "").indexOf("u") !== -1; var pos = 0; // Convert the input to a string and treat the empty string special. str = String(str); if (str === '') { str = '(?:)'; } var result = parseDisjunction(); if (result.range[1] !== str.length) { bail('Could not parse entire input - got stuck', '', result.range[1]); } // The spec requires to interpret the `\2` in `/\2()()/` as backreference. // As the parser collects the number of capture groups as the string is // parsed it is impossible to make these decisions at the point when the // `\2` is handled. In case the local decision turns out to be wrong after // the parsing has finished, the input string is parsed a second time with // the total number of capture groups set. // // SEE: https://github.com/jviereck/regjsparser/issues/70 for (var i = 0; i < backrefDenied.length; i++) { if (backrefDenied[i] <= closedCaptureCounter) { // Parse the input a second time. pos = 0; firstIteration = false; return parseDisjunction(); } } return result; } var regjsparser = { parse: parse }; if (typeof module !== 'undefined' && module.exports) { module.exports = regjsparser; } else { window.regjsparser = regjsparser; } }());