acorn.js 116 KB
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(function (global, factory) {
  typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) :
  typeof define === 'function' && define.amd ? define(['exports'], factory) :
  (factory((global.acorn = global.acorn || {})));
}(this, function (exports) { 'use strict';

  // Reserved word lists for various dialects of the language

  var reservedWords = {
    3: "abstract boolean byte char class double enum export extends final float goto implements import int interface long native package private protected public short static super synchronized throws transient volatile",
    5: "class enum extends super const export import",
    6: "enum",
    7: "enum",
    strict: "implements interface let package private protected public static yield",
    strictBind: "eval arguments"
  }

  // And the keywords

  var ecma5AndLessKeywords = "break case catch continue debugger default do else finally for function if return switch throw try var while with null true false instanceof typeof void delete new in this"

  var keywords = {
    5: ecma5AndLessKeywords,
    6: ecma5AndLessKeywords + " const class extends export import super"
  }

  // ## Character categories

  // Big ugly regular expressions that match characters in the
  // whitespace, identifier, and identifier-start categories. These
  // are only applied when a character is found to actually have a
  // code point above 128.
  // Generated by `bin/generate-identifier-regex.js`.

  var nonASCIIidentifierStartChars = "\xaa\xb5\xba\xc0-\xd6\xd8-\xf6\xf8-\u02c1\u02c6-\u02d1\u02e0-\u02e4\u02ec\u02ee\u0370-\u0374\u0376\u0377\u037a-\u037d\u037f\u0386\u0388-\u038a\u038c\u038e-\u03a1\u03a3-\u03f5\u03f7-\u0481\u048a-\u052f\u0531-\u0556\u0559\u0561-\u0587\u05d0-\u05ea\u05f0-\u05f2\u0620-\u064a\u066e\u066f\u0671-\u06d3\u06d5\u06e5\u06e6\u06ee\u06ef\u06fa-\u06fc\u06ff\u0710\u0712-\u072f\u074d-\u07a5\u07b1\u07ca-\u07ea\u07f4\u07f5\u07fa\u0800-\u0815\u081a\u0824\u0828\u0840-\u0858\u08a0-\u08b4\u08b6-\u08bd\u0904-\u0939\u093d\u0950\u0958-\u0961\u0971-\u0980\u0985-\u098c\u098f\u0990\u0993-\u09a8\u09aa-\u09b0\u09b2\u09b6-\u09b9\u09bd\u09ce\u09dc\u09dd\u09df-\u09e1\u09f0\u09f1\u0a05-\u0a0a\u0a0f\u0a10\u0a13-\u0a28\u0a2a-\u0a30\u0a32\u0a33\u0a35\u0a36\u0a38\u0a39\u0a59-\u0a5c\u0a5e\u0a72-\u0a74\u0a85-\u0a8d\u0a8f-\u0a91\u0a93-\u0aa8\u0aaa-\u0ab0\u0ab2\u0ab3\u0ab5-\u0ab9\u0abd\u0ad0\u0ae0\u0ae1\u0af9\u0b05-\u0b0c\u0b0f\u0b10\u0b13-\u0b28\u0b2a-\u0b30\u0b32\u0b33\u0b35-\u0b39\u0b3d\u0b5c\u0b5d\u0b5f-\u0b61\u0b71\u0b83\u0b85-\u0b8a\u0b8e-\u0b90\u0b92-\u0b95\u0b99\u0b9a\u0b9c\u0b9e\u0b9f\u0ba3\u0ba4\u0ba8-\u0baa\u0bae-\u0bb9\u0bd0\u0c05-\u0c0c\u0c0e-\u0c10\u0c12-\u0c28\u0c2a-\u0c39\u0c3d\u0c58-\u0c5a\u0c60\u0c61\u0c80\u0c85-\u0c8c\u0c8e-\u0c90\u0c92-\u0ca8\u0caa-\u0cb3\u0cb5-\u0cb9\u0cbd\u0cde\u0ce0\u0ce1\u0cf1\u0cf2\u0d05-\u0d0c\u0d0e-\u0d10\u0d12-\u0d3a\u0d3d\u0d4e\u0d54-\u0d56\u0d5f-\u0d61\u0d7a-\u0d7f\u0d85-\u0d96\u0d9a-\u0db1\u0db3-\u0dbb\u0dbd\u0dc0-\u0dc6\u0e01-\u0e30\u0e32\u0e33\u0e40-\u0e46\u0e81\u0e82\u0e84\u0e87\u0e88\u0e8a\u0e8d\u0e94-\u0e97\u0e99-\u0e9f\u0ea1-\u0ea3\u0ea5\u0ea7\u0eaa\u0eab\u0ead-\u0eb0\u0eb2\u0eb3\u0ebd\u0ec0-\u0ec4\u0ec6\u0edc-\u0edf\u0f00\u0f40-\u0f47\u0f49-\u0f6c\u0f88-\u0f8c\u1000-\u102a\u103f\u1050-\u1055\u105a-\u105d\u1061\u1065\u1066\u106e-\u1070\u1075-\u1081\u108e\u10a0-\u10c5\u10c7\u10cd\u10d0-\u10fa\u10fc-\u1248\u124a-\u124d\u1250-\u1256\u1258\u125a-\u125d\u1260-\u1288\u128a-\u128d\u1290-\u12b0\u12b2-\u12b5\u12b8-\u12be\u12c0\u12c2-\u12c5\u12c8-\u12d6\u12d8-\u1310\u1312-\u1315\u1318-\u135a\u1380-\u138f\u13a0-\u13f5\u13f8-\u13fd\u1401-\u166c\u166f-\u167f\u1681-\u169a\u16a0-\u16ea\u16ee-\u16f8\u1700-\u170c\u170e-\u1711\u1720-\u1731\u1740-\u1751\u1760-\u176c\u176e-\u1770\u1780-\u17b3\u17d7\u17dc\u1820-\u1877\u1880-\u18a8\u18aa\u18b0-\u18f5\u1900-\u191e\u1950-\u196d\u1970-\u1974\u1980-\u19ab\u19b0-\u19c9\u1a00-\u1a16\u1a20-\u1a54\u1aa7\u1b05-\u1b33\u1b45-\u1b4b\u1b83-\u1ba0\u1bae\u1baf\u1bba-\u1be5\u1c00-\u1c23\u1c4d-\u1c4f\u1c5a-\u1c7d\u1c80-\u1c88\u1ce9-\u1cec\u1cee-\u1cf1\u1cf5\u1cf6\u1d00-\u1dbf\u1e00-\u1f15\u1f18-\u1f1d\u1f20-\u1f45\u1f48-\u1f4d\u1f50-\u1f57\u1f59\u1f5b\u1f5d\u1f5f-\u1f7d\u1f80-\u1fb4\u1fb6-\u1fbc\u1fbe\u1fc2-\u1fc4\u1fc6-\u1fcc\u1fd0-\u1fd3\u1fd6-\u1fdb\u1fe0-\u1fec\u1ff2-\u1ff4\u1ff6-\u1ffc\u2071\u207f\u2090-\u209c\u2102\u2107\u210a-\u2113\u2115\u2118-\u211d\u2124\u2126\u2128\u212a-\u2139\u213c-\u213f\u2145-\u2149\u214e\u2160-\u2188\u2c00-\u2c2e\u2c30-\u2c5e\u2c60-\u2ce4\u2ceb-\u2cee\u2cf2\u2cf3\u2d00-\u2d25\u2d27\u2d2d\u2d30-\u2d67\u2d6f\u2d80-\u2d96\u2da0-\u2da6\u2da8-\u2dae\u2db0-\u2db6\u2db8-\u2dbe\u2dc0-\u2dc6\u2dc8-\u2dce\u2dd0-\u2dd6\u2dd8-\u2dde\u3005-\u3007\u3021-\u3029\u3031-\u3035\u3038-\u303c\u3041-\u3096\u309b-\u309f\u30a1-\u30fa\u30fc-\u30ff\u3105-\u312d\u3131-\u318e\u31a0-\u31ba\u31f0-\u31ff\u3400-\u4db5\u4e00-\u9fd5\ua000-\ua48c\ua4d0-\ua4fd\ua500-\ua60c\ua610-\ua61f\ua62a\ua62b\ua640-\ua66e\ua67f-\ua69d\ua6a0-\ua6ef\ua717-\ua71f\ua722-\ua788\ua78b-\ua7ae\ua7b0-\ua7b7\ua7f7-\ua801\ua803-\ua805\ua807-\ua80a\ua80c-\ua822\ua840-\ua873\ua882-\ua8b3\ua8f2-\ua8f7\ua8fb\ua8fd\ua90a-\ua925\ua930-\ua946\ua960-\ua97c\ua984-\ua9b2\ua9cf\ua9e0-\ua9e4\ua9e6-\ua9ef\ua9fa-\ua9fe\uaa00-\uaa28\uaa40-\uaa42\uaa44-\uaa4b\uaa60-\uaa76\uaa7a\uaa7e-\uaaaf\uaab1\uaab5\uaab6\uaab9-\uaabd\uaac0\uaac2\uaadb-\uaadd\uaae0-\uaaea\uaaf2-\uaaf4\uab01-\uab06\uab09-\uab0e\uab11-\uab16\uab20-\uab26\uab28-\uab2e\uab30-\uab5a\uab5c-\uab65\uab70-\uabe2\uac00-\ud7a3\ud7b0-\ud7c6\ud7cb-\ud7fb\uf900-\ufa6d\ufa70-\ufad9\ufb00-\ufb06\ufb13-\ufb17\ufb1d\ufb1f-\ufb28\ufb2a-\ufb36\ufb38-\ufb3c\ufb3e\ufb40\ufb41\ufb43\ufb44\ufb46-\ufbb1\ufbd3-\ufd3d\ufd50-\ufd8f\ufd92-\ufdc7\ufdf0-\ufdfb\ufe70-\ufe74\ufe76-\ufefc\uff21-\uff3a\uff41-\uff5a\uff66-\uffbe\uffc2-\uffc7\uffca-\uffcf\uffd2-\uffd7\uffda-\uffdc"
  var nonASCIIidentifierChars = "\u200c\u200d\xb7\u0300-\u036f\u0387\u0483-\u0487\u0591-\u05bd\u05bf\u05c1\u05c2\u05c4\u05c5\u05c7\u0610-\u061a\u064b-\u0669\u0670\u06d6-\u06dc\u06df-\u06e4\u06e7\u06e8\u06ea-\u06ed\u06f0-\u06f9\u0711\u0730-\u074a\u07a6-\u07b0\u07c0-\u07c9\u07eb-\u07f3\u0816-\u0819\u081b-\u0823\u0825-\u0827\u0829-\u082d\u0859-\u085b\u08d4-\u08e1\u08e3-\u0903\u093a-\u093c\u093e-\u094f\u0951-\u0957\u0962\u0963\u0966-\u096f\u0981-\u0983\u09bc\u09be-\u09c4\u09c7\u09c8\u09cb-\u09cd\u09d7\u09e2\u09e3\u09e6-\u09ef\u0a01-\u0a03\u0a3c\u0a3e-\u0a42\u0a47\u0a48\u0a4b-\u0a4d\u0a51\u0a66-\u0a71\u0a75\u0a81-\u0a83\u0abc\u0abe-\u0ac5\u0ac7-\u0ac9\u0acb-\u0acd\u0ae2\u0ae3\u0ae6-\u0aef\u0b01-\u0b03\u0b3c\u0b3e-\u0b44\u0b47\u0b48\u0b4b-\u0b4d\u0b56\u0b57\u0b62\u0b63\u0b66-\u0b6f\u0b82\u0bbe-\u0bc2\u0bc6-\u0bc8\u0bca-\u0bcd\u0bd7\u0be6-\u0bef\u0c00-\u0c03\u0c3e-\u0c44\u0c46-\u0c48\u0c4a-\u0c4d\u0c55\u0c56\u0c62\u0c63\u0c66-\u0c6f\u0c81-\u0c83\u0cbc\u0cbe-\u0cc4\u0cc6-\u0cc8\u0cca-\u0ccd\u0cd5\u0cd6\u0ce2\u0ce3\u0ce6-\u0cef\u0d01-\u0d03\u0d3e-\u0d44\u0d46-\u0d48\u0d4a-\u0d4d\u0d57\u0d62\u0d63\u0d66-\u0d6f\u0d82\u0d83\u0dca\u0dcf-\u0dd4\u0dd6\u0dd8-\u0ddf\u0de6-\u0def\u0df2\u0df3\u0e31\u0e34-\u0e3a\u0e47-\u0e4e\u0e50-\u0e59\u0eb1\u0eb4-\u0eb9\u0ebb\u0ebc\u0ec8-\u0ecd\u0ed0-\u0ed9\u0f18\u0f19\u0f20-\u0f29\u0f35\u0f37\u0f39\u0f3e\u0f3f\u0f71-\u0f84\u0f86\u0f87\u0f8d-\u0f97\u0f99-\u0fbc\u0fc6\u102b-\u103e\u1040-\u1049\u1056-\u1059\u105e-\u1060\u1062-\u1064\u1067-\u106d\u1071-\u1074\u1082-\u108d\u108f-\u109d\u135d-\u135f\u1369-\u1371\u1712-\u1714\u1732-\u1734\u1752\u1753\u1772\u1773\u17b4-\u17d3\u17dd\u17e0-\u17e9\u180b-\u180d\u1810-\u1819\u18a9\u1920-\u192b\u1930-\u193b\u1946-\u194f\u19d0-\u19da\u1a17-\u1a1b\u1a55-\u1a5e\u1a60-\u1a7c\u1a7f-\u1a89\u1a90-\u1a99\u1ab0-\u1abd\u1b00-\u1b04\u1b34-\u1b44\u1b50-\u1b59\u1b6b-\u1b73\u1b80-\u1b82\u1ba1-\u1bad\u1bb0-\u1bb9\u1be6-\u1bf3\u1c24-\u1c37\u1c40-\u1c49\u1c50-\u1c59\u1cd0-\u1cd2\u1cd4-\u1ce8\u1ced\u1cf2-\u1cf4\u1cf8\u1cf9\u1dc0-\u1df5\u1dfb-\u1dff\u203f\u2040\u2054\u20d0-\u20dc\u20e1\u20e5-\u20f0\u2cef-\u2cf1\u2d7f\u2de0-\u2dff\u302a-\u302f\u3099\u309a\ua620-\ua629\ua66f\ua674-\ua67d\ua69e\ua69f\ua6f0\ua6f1\ua802\ua806\ua80b\ua823-\ua827\ua880\ua881\ua8b4-\ua8c5\ua8d0-\ua8d9\ua8e0-\ua8f1\ua900-\ua909\ua926-\ua92d\ua947-\ua953\ua980-\ua983\ua9b3-\ua9c0\ua9d0-\ua9d9\ua9e5\ua9f0-\ua9f9\uaa29-\uaa36\uaa43\uaa4c\uaa4d\uaa50-\uaa59\uaa7b-\uaa7d\uaab0\uaab2-\uaab4\uaab7\uaab8\uaabe\uaabf\uaac1\uaaeb-\uaaef\uaaf5\uaaf6\uabe3-\uabea\uabec\uabed\uabf0-\uabf9\ufb1e\ufe00-\ufe0f\ufe20-\ufe2f\ufe33\ufe34\ufe4d-\ufe4f\uff10-\uff19\uff3f"

  var nonASCIIidentifierStart = new RegExp("[" + nonASCIIidentifierStartChars + "]")
  var nonASCIIidentifier = new RegExp("[" + nonASCIIidentifierStartChars + nonASCIIidentifierChars + "]")

  nonASCIIidentifierStartChars = nonASCIIidentifierChars = null

  // These are a run-length and offset encoded representation of the
  // >0xffff code points that are a valid part of identifiers. The
  // offset starts at 0x10000, and each pair of numbers represents an
  // offset to the next range, and then a size of the range. They were
  // generated by bin/generate-identifier-regex.js
  var astralIdentifierStartCodes = [0,11,2,25,2,18,2,1,2,14,3,13,35,122,70,52,268,28,4,48,48,31,17,26,6,37,11,29,3,35,5,7,2,4,43,157,19,35,5,35,5,39,9,51,157,310,10,21,11,7,153,5,3,0,2,43,2,1,4,0,3,22,11,22,10,30,66,18,2,1,11,21,11,25,71,55,7,1,65,0,16,3,2,2,2,26,45,28,4,28,36,7,2,27,28,53,11,21,11,18,14,17,111,72,56,50,14,50,785,52,76,44,33,24,27,35,42,34,4,0,13,47,15,3,22,0,2,0,36,17,2,24,85,6,2,0,2,3,2,14,2,9,8,46,39,7,3,1,3,21,2,6,2,1,2,4,4,0,19,0,13,4,159,52,19,3,54,47,21,1,2,0,185,46,42,3,37,47,21,0,60,42,86,25,391,63,32,0,449,56,264,8,2,36,18,0,50,29,881,921,103,110,18,195,2749,1070,4050,582,8634,568,8,30,114,29,19,47,17,3,32,20,6,18,881,68,12,0,67,12,65,0,32,6124,20,754,9486,1,3071,106,6,12,4,8,8,9,5991,84,2,70,2,1,3,0,3,1,3,3,2,11,2,0,2,6,2,64,2,3,3,7,2,6,2,27,2,3,2,4,2,0,4,6,2,339,3,24,2,24,2,30,2,24,2,30,2,24,2,30,2,24,2,30,2,24,2,7,4149,196,60,67,1213,3,2,26,2,1,2,0,3,0,2,9,2,3,2,0,2,0,7,0,5,0,2,0,2,0,2,2,2,1,2,0,3,0,2,0,2,0,2,0,2,0,2,1,2,0,3,3,2,6,2,3,2,3,2,0,2,9,2,16,6,2,2,4,2,16,4421,42710,42,4148,12,221,3,5761,10591,541]
  var astralIdentifierCodes = [509,0,227,0,150,4,294,9,1368,2,2,1,6,3,41,2,5,0,166,1,1306,2,54,14,32,9,16,3,46,10,54,9,7,2,37,13,2,9,52,0,13,2,49,13,10,2,4,9,83,11,7,0,161,11,6,9,7,3,57,0,2,6,3,1,3,2,10,0,11,1,3,6,4,4,193,17,10,9,87,19,13,9,214,6,3,8,28,1,83,16,16,9,82,12,9,9,84,14,5,9,423,9,838,7,2,7,17,9,57,21,2,13,19882,9,135,4,60,6,26,9,1016,45,17,3,19723,1,5319,4,4,5,9,7,3,6,31,3,149,2,1418,49,513,54,5,49,9,0,15,0,23,4,2,14,1361,6,2,16,3,6,2,1,2,4,2214,6,110,6,6,9,792487,239]

  // This has a complexity linear to the value of the code. The
  // assumption is that looking up astral identifier characters is
  // rare.
  function isInAstralSet(code, set) {
    var pos = 0x10000
    for (var i = 0; i < set.length; i += 2) {
      pos += set[i]
      if (pos > code) return false
      pos += set[i + 1]
      if (pos >= code) return true
    }
  }

  // Test whether a given character code starts an identifier.

  function isIdentifierStart(code, astral) {
    if (code < 65) return code === 36
    if (code < 91) return true
    if (code < 97) return code === 95
    if (code < 123) return true
    if (code <= 0xffff) return code >= 0xaa && nonASCIIidentifierStart.test(String.fromCharCode(code))
    if (astral === false) return false
    return isInAstralSet(code, astralIdentifierStartCodes)
  }

  // Test whether a given character is part of an identifier.

  function isIdentifierChar(code, astral) {
    if (code < 48) return code === 36
    if (code < 58) return true
    if (code < 65) return false
    if (code < 91) return true
    if (code < 97) return code === 95
    if (code < 123) return true
    if (code <= 0xffff) return code >= 0xaa && nonASCIIidentifier.test(String.fromCharCode(code))
    if (astral === false) return false
    return isInAstralSet(code, astralIdentifierStartCodes) || isInAstralSet(code, astralIdentifierCodes)
  }

  // ## Token types

  // The assignment of fine-grained, information-carrying type objects
  // allows the tokenizer to store the information it has about a
  // token in a way that is very cheap for the parser to look up.

  // All token type variables start with an underscore, to make them
  // easy to recognize.

  // The `beforeExpr` property is used to disambiguate between regular
  // expressions and divisions. It is set on all token types that can
  // be followed by an expression (thus, a slash after them would be a
  // regular expression).
  //
  // The `startsExpr` property is used to check if the token ends a
  // `yield` expression. It is set on all token types that either can
  // directly start an expression (like a quotation mark) or can
  // continue an expression (like the body of a string).
  //
  // `isLoop` marks a keyword as starting a loop, which is important
  // to know when parsing a label, in order to allow or disallow
  // continue jumps to that label.

  var TokenType = function TokenType(label, conf) {
    if ( conf === void 0 ) conf = {};

    this.label = label
    this.keyword = conf.keyword
    this.beforeExpr = !!conf.beforeExpr
    this.startsExpr = !!conf.startsExpr
    this.isLoop = !!conf.isLoop
    this.isAssign = !!conf.isAssign
    this.prefix = !!conf.prefix
    this.postfix = !!conf.postfix
    this.binop = conf.binop || null
    this.updateContext = null
  };

  function binop(name, prec) {
    return new TokenType(name, {beforeExpr: true, binop: prec})
  }
  var beforeExpr = {beforeExpr: true};
  var startsExpr = {startsExpr: true};
  // Map keyword names to token types.

  var keywordTypes = {}

  // Succinct definitions of keyword token types
  function kw(name, options) {
    if ( options === void 0 ) options = {};

    options.keyword = name
    return keywordTypes[name] = new TokenType(name, options)
  }

  var tt = {
    num: new TokenType("num", startsExpr),
    regexp: new TokenType("regexp", startsExpr),
    string: new TokenType("string", startsExpr),
    name: new TokenType("name", startsExpr),
    eof: new TokenType("eof"),

    // Punctuation token types.
    bracketL: new TokenType("[", {beforeExpr: true, startsExpr: true}),
    bracketR: new TokenType("]"),
    braceL: new TokenType("{", {beforeExpr: true, startsExpr: true}),
    braceR: new TokenType("}"),
    parenL: new TokenType("(", {beforeExpr: true, startsExpr: true}),
    parenR: new TokenType(")"),
    comma: new TokenType(",", beforeExpr),
    semi: new TokenType(";", beforeExpr),
    colon: new TokenType(":", beforeExpr),
    dot: new TokenType("."),
    question: new TokenType("?", beforeExpr),
    arrow: new TokenType("=>", beforeExpr),
    template: new TokenType("template"),
    ellipsis: new TokenType("...", beforeExpr),
    backQuote: new TokenType("`", startsExpr),
    dollarBraceL: new TokenType("${", {beforeExpr: true, startsExpr: true}),

    // Operators. These carry several kinds of properties to help the
    // parser use them properly (the presence of these properties is
    // what categorizes them as operators).
    //
    // `binop`, when present, specifies that this operator is a binary
    // operator, and will refer to its precedence.
    //
    // `prefix` and `postfix` mark the operator as a prefix or postfix
    // unary operator.
    //
    // `isAssign` marks all of `=`, `+=`, `-=` etcetera, which act as
    // binary operators with a very low precedence, that should result
    // in AssignmentExpression nodes.

    eq: new TokenType("=", {beforeExpr: true, isAssign: true}),
    assign: new TokenType("_=", {beforeExpr: true, isAssign: true}),
    incDec: new TokenType("++/--", {prefix: true, postfix: true, startsExpr: true}),
    prefix: new TokenType("prefix", {beforeExpr: true, prefix: true, startsExpr: true}),
    logicalOR: binop("||", 1),
    logicalAND: binop("&&", 2),
    bitwiseOR: binop("|", 3),
    bitwiseXOR: binop("^", 4),
    bitwiseAND: binop("&", 5),
    equality: binop("==/!=", 6),
    relational: binop("</>", 7),
    bitShift: binop("<</>>", 8),
    plusMin: new TokenType("+/-", {beforeExpr: true, binop: 9, prefix: true, startsExpr: true}),
    modulo: binop("%", 10),
    star: binop("*", 10),
    slash: binop("/", 10),
    starstar: new TokenType("**", {beforeExpr: true}),

    // Keyword token types.
    _break: kw("break"),
    _case: kw("case", beforeExpr),
    _catch: kw("catch"),
    _continue: kw("continue"),
    _debugger: kw("debugger"),
    _default: kw("default", beforeExpr),
    _do: kw("do", {isLoop: true, beforeExpr: true}),
    _else: kw("else", beforeExpr),
    _finally: kw("finally"),
    _for: kw("for", {isLoop: true}),
    _function: kw("function", startsExpr),
    _if: kw("if"),
    _return: kw("return", beforeExpr),
    _switch: kw("switch"),
    _throw: kw("throw", beforeExpr),
    _try: kw("try"),
    _var: kw("var"),
    _const: kw("const"),
    _while: kw("while", {isLoop: true}),
    _with: kw("with"),
    _new: kw("new", {beforeExpr: true, startsExpr: true}),
    _this: kw("this", startsExpr),
    _super: kw("super", startsExpr),
    _class: kw("class"),
    _extends: kw("extends", beforeExpr),
    _export: kw("export"),
    _import: kw("import"),
    _null: kw("null", startsExpr),
    _true: kw("true", startsExpr),
    _false: kw("false", startsExpr),
    _in: kw("in", {beforeExpr: true, binop: 7}),
    _instanceof: kw("instanceof", {beforeExpr: true, binop: 7}),
    _typeof: kw("typeof", {beforeExpr: true, prefix: true, startsExpr: true}),
    _void: kw("void", {beforeExpr: true, prefix: true, startsExpr: true}),
    _delete: kw("delete", {beforeExpr: true, prefix: true, startsExpr: true})
  }

  // Matches a whole line break (where CRLF is considered a single
  // line break). Used to count lines.

  var lineBreak = /\r\n?|\n|\u2028|\u2029/
  var lineBreakG = new RegExp(lineBreak.source, "g")

  function isNewLine(code) {
    return code === 10 || code === 13 || code === 0x2028 || code == 0x2029
  }

  var nonASCIIwhitespace = /[\u1680\u180e\u2000-\u200a\u202f\u205f\u3000\ufeff]/

  var skipWhiteSpace = /(?:\s|\/\/.*|\/\*[^]*?\*\/)*/g

  function isArray(obj) {
    return Object.prototype.toString.call(obj) === "[object Array]"
  }

  // Checks if an object has a property.

  function has(obj, propName) {
    return Object.prototype.hasOwnProperty.call(obj, propName)
  }

  // These are used when `options.locations` is on, for the
  // `startLoc` and `endLoc` properties.

  var Position = function Position(line, col) {
    this.line = line
    this.column = col
  };

  Position.prototype.offset = function offset (n) {
    return new Position(this.line, this.column + n)
  };

  var SourceLocation = function SourceLocation(p, start, end) {
    this.start = start
    this.end = end
    if (p.sourceFile !== null) this.source = p.sourceFile
  };

  // The `getLineInfo` function is mostly useful when the
  // `locations` option is off (for performance reasons) and you
  // want to find the line/column position for a given character
  // offset. `input` should be the code string that the offset refers
  // into.

  function getLineInfo(input, offset) {
    for (var line = 1, cur = 0;;) {
      lineBreakG.lastIndex = cur
      var match = lineBreakG.exec(input)
      if (match && match.index < offset) {
        ++line
        cur = match.index + match[0].length
      } else {
        return new Position(line, offset - cur)
      }
    }
  }

  // A second optional argument can be given to further configure
  // the parser process. These options are recognized:

  var defaultOptions = {
    // `ecmaVersion` indicates the ECMAScript version to parse. Must
    // be either 3, or 5, or 6. This influences support for strict
    // mode, the set of reserved words, support for getters and
    // setters and other features. The default is 6.
    ecmaVersion: 6,
    // Source type ("script" or "module") for different semantics
    sourceType: "script",
    // `onInsertedSemicolon` can be a callback that will be called
    // when a semicolon is automatically inserted. It will be passed
    // th position of the comma as an offset, and if `locations` is
    // enabled, it is given the location as a `{line, column}` object
    // as second argument.
    onInsertedSemicolon: null,
    // `onTrailingComma` is similar to `onInsertedSemicolon`, but for
    // trailing commas.
    onTrailingComma: null,
    // By default, reserved words are only enforced if ecmaVersion >= 5.
    // Set `allowReserved` to a boolean value to explicitly turn this on
    // an off. When this option has the value "never", reserved words
    // and keywords can also not be used as property names.
    allowReserved: null,
    // When enabled, a return at the top level is not considered an
    // error.
    allowReturnOutsideFunction: false,
    // When enabled, import/export statements are not constrained to
    // appearing at the top of the program.
    allowImportExportEverywhere: false,
    // When enabled, hashbang directive in the beginning of file
    // is allowed and treated as a line comment.
    allowHashBang: false,
    // When `locations` is on, `loc` properties holding objects with
    // `start` and `end` properties in `{line, column}` form (with
    // line being 1-based and column 0-based) will be attached to the
    // nodes.
    locations: false,
    // A function can be passed as `onToken` option, which will
    // cause Acorn to call that function with object in the same
    // format as tokens returned from `tokenizer().getToken()`. Note
    // that you are not allowed to call the parser from the
    // callback—that will corrupt its internal state.
    onToken: null,
    // A function can be passed as `onComment` option, which will
    // cause Acorn to call that function with `(block, text, start,
    // end)` parameters whenever a comment is skipped. `block` is a
    // boolean indicating whether this is a block (`/* */`) comment,
    // `text` is the content of the comment, and `start` and `end` are
    // character offsets that denote the start and end of the comment.
    // When the `locations` option is on, two more parameters are
    // passed, the full `{line, column}` locations of the start and
    // end of the comments. Note that you are not allowed to call the
    // parser from the callback—that will corrupt its internal state.
    onComment: null,
    // Nodes have their start and end characters offsets recorded in
    // `start` and `end` properties (directly on the node, rather than
    // the `loc` object, which holds line/column data. To also add a
    // [semi-standardized][range] `range` property holding a `[start,
    // end]` array with the same numbers, set the `ranges` option to
    // `true`.
    //
    // [range]: https://bugzilla.mozilla.org/show_bug.cgi?id=745678
    ranges: false,
    // It is possible to parse multiple files into a single AST by
    // passing the tree produced by parsing the first file as
    // `program` option in subsequent parses. This will add the
    // toplevel forms of the parsed file to the `Program` (top) node
    // of an existing parse tree.
    program: null,
    // When `locations` is on, you can pass this to record the source
    // file in every node's `loc` object.
    sourceFile: null,
    // This value, if given, is stored in every node, whether
    // `locations` is on or off.
    directSourceFile: null,
    // When enabled, parenthesized expressions are represented by
    // (non-standard) ParenthesizedExpression nodes
    preserveParens: false,
    plugins: {}
  }

  // Interpret and default an options object

  function getOptions(opts) {
    var options = {}
    for (var opt in defaultOptions)
      options[opt] = opts && has(opts, opt) ? opts[opt] : defaultOptions[opt]
    if (options.allowReserved == null)
      options.allowReserved = options.ecmaVersion < 5

    if (isArray(options.onToken)) {
      var tokens = options.onToken
      options.onToken = function (token) { return tokens.push(token); }
    }
    if (isArray(options.onComment))
      options.onComment = pushComment(options, options.onComment)

    return options
  }

  function pushComment(options, array) {
    return function (block, text, start, end, startLoc, endLoc) {
      var comment = {
        type: block ? 'Block' : 'Line',
        value: text,
        start: start,
        end: end
      }
      if (options.locations)
        comment.loc = new SourceLocation(this, startLoc, endLoc)
      if (options.ranges)
        comment.range = [start, end]
      array.push(comment)
    }
  }

  // Registered plugins
  var plugins = {}

  function keywordRegexp(words) {
    return new RegExp("^(" + words.replace(/ /g, "|") + ")$")
  }

  var Parser = function Parser(options, input, startPos) {
    this.options = options = getOptions(options)
    this.sourceFile = options.sourceFile
    this.keywords = keywordRegexp(keywords[options.ecmaVersion >= 6 ? 6 : 5])
    var reserved = options.allowReserved ? "" :
        reservedWords[options.ecmaVersion] + (options.sourceType == "module" ? " await" : "")
    this.reservedWords = keywordRegexp(reserved)
    var reservedStrict = (reserved ? reserved + " " : "") + reservedWords.strict
    this.reservedWordsStrict = keywordRegexp(reservedStrict)
    this.reservedWordsStrictBind = keywordRegexp(reservedStrict + " " + reservedWords.strictBind)
    this.input = String(input)

    // Used to signal to callers of `readWord1` whether the word
    // contained any escape sequences. This is needed because words with
    // escape sequences must not be interpreted as keywords.
    this.containsEsc = false

    // Load plugins
    this.loadPlugins(options.plugins)

    // Set up token state

    // The current position of the tokenizer in the input.
    if (startPos) {
      this.pos = startPos
      this.lineStart = Math.max(0, this.input.lastIndexOf("\n", startPos))
      this.curLine = this.input.slice(0, this.lineStart).split(lineBreak).length
    } else {
      this.pos = this.lineStart = 0
      this.curLine = 1
    }

    // Properties of the current token:
    // Its type
    this.type = tt.eof
    // For tokens that include more information than their type, the value
    this.value = null
    // Its start and end offset
    this.start = this.end = this.pos
    // And, if locations are used, the {line, column} object
    // corresponding to those offsets
    this.startLoc = this.endLoc = this.curPosition()

    // Position information for the previous token
    this.lastTokEndLoc = this.lastTokStartLoc = null
    this.lastTokStart = this.lastTokEnd = this.pos

    // The context stack is used to superficially track syntactic
    // context to predict whether a regular expression is allowed in a
    // given position.
    this.context = this.initialContext()
    this.exprAllowed = true

    // Figure out if it's a module code.
    this.strict = this.inModule = options.sourceType === "module"

    // Used to signify the start of a potential arrow function
    this.potentialArrowAt = -1

    // Flags to track whether we are in a function, a generator.
    this.inFunction = this.inGenerator = false
    // Labels in scope.
    this.labels = []

    // If enabled, skip leading hashbang line.
    if (this.pos === 0 && options.allowHashBang && this.input.slice(0, 2) === '#!')
      this.skipLineComment(2)
  };

  // DEPRECATED Kept for backwards compatibility until 3.0 in case a plugin uses them
  Parser.prototype.isKeyword = function isKeyword (word) { return this.keywords.test(word) };
  Parser.prototype.isReservedWord = function isReservedWord (word) { return this.reservedWords.test(word) };

  Parser.prototype.extend = function extend (name, f) {
    this[name] = f(this[name])
  };

  Parser.prototype.loadPlugins = function loadPlugins (pluginConfigs) {
      var this$1 = this;

    for (var name in pluginConfigs) {
      var plugin = plugins[name]
      if (!plugin) throw new Error("Plugin '" + name + "' not found")
      plugin(this$1, pluginConfigs[name])
    }
  };

  Parser.prototype.parse = function parse () {
    var node = this.options.program || this.startNode()
    this.nextToken()
    return this.parseTopLevel(node)
  };

  var pp = Parser.prototype

  // ## Parser utilities

  // Test whether a statement node is the string literal `"use strict"`.

  pp.isUseStrict = function(stmt) {
    return this.options.ecmaVersion >= 5 && stmt.type === "ExpressionStatement" &&
      stmt.expression.type === "Literal" &&
      stmt.expression.raw.slice(1, -1) === "use strict"
  }

  // Predicate that tests whether the next token is of the given
  // type, and if yes, consumes it as a side effect.

  pp.eat = function(type) {
    if (this.type === type) {
      this.next()
      return true
    } else {
      return false
    }
  }

  // Tests whether parsed token is a contextual keyword.

  pp.isContextual = function(name) {
    return this.type === tt.name && this.value === name
  }

  // Consumes contextual keyword if possible.

  pp.eatContextual = function(name) {
    return this.value === name && this.eat(tt.name)
  }

  // Asserts that following token is given contextual keyword.

  pp.expectContextual = function(name) {
    if (!this.eatContextual(name)) this.unexpected()
  }

  // Test whether a semicolon can be inserted at the current position.

  pp.canInsertSemicolon = function() {
    return this.type === tt.eof ||
      this.type === tt.braceR ||
      lineBreak.test(this.input.slice(this.lastTokEnd, this.start))
  }

  pp.insertSemicolon = function() {
    if (this.canInsertSemicolon()) {
      if (this.options.onInsertedSemicolon)
        this.options.onInsertedSemicolon(this.lastTokEnd, this.lastTokEndLoc)
      return true
    }
  }

  // Consume a semicolon, or, failing that, see if we are allowed to
  // pretend that there is a semicolon at this position.

  pp.semicolon = function() {
    if (!this.eat(tt.semi) && !this.insertSemicolon()) this.unexpected()
  }

  pp.afterTrailingComma = function(tokType) {
    if (this.type == tokType) {
      if (this.options.onTrailingComma)
        this.options.onTrailingComma(this.lastTokStart, this.lastTokStartLoc)
      this.next()
      return true
    }
  }

  // Expect a token of a given type. If found, consume it, otherwise,
  // raise an unexpected token error.

  pp.expect = function(type) {
    this.eat(type) || this.unexpected()
  }

  // Raise an unexpected token error.

  pp.unexpected = function(pos) {
    this.raise(pos != null ? pos : this.start, "Unexpected token")
  }

  var DestructuringErrors = function DestructuringErrors() {
    this.shorthandAssign = 0
    this.trailingComma = 0
  };

  pp.checkPatternErrors = function(refDestructuringErrors, andThrow) {
    var trailing = refDestructuringErrors && refDestructuringErrors.trailingComma
    if (!andThrow) return !!trailing
    if (trailing) this.raise(trailing, "Comma is not permitted after the rest element")
  }

  pp.checkExpressionErrors = function(refDestructuringErrors, andThrow) {
    var pos = refDestructuringErrors && refDestructuringErrors.shorthandAssign
    if (!andThrow) return !!pos
    if (pos) this.raise(pos, "Shorthand property assignments are valid only in destructuring patterns")
  }

  var pp$1 = Parser.prototype

  // ### Statement parsing

  // Parse a program. Initializes the parser, reads any number of
  // statements, and wraps them in a Program node.  Optionally takes a
  // `program` argument.  If present, the statements will be appended
  // to its body instead of creating a new node.

  pp$1.parseTopLevel = function(node) {
    var this$1 = this;

    var first = true
    if (!node.body) node.body = []
    while (this.type !== tt.eof) {
      var stmt = this$1.parseStatement(true, true)
      node.body.push(stmt)
      if (first) {
        if (this$1.isUseStrict(stmt)) this$1.setStrict(true)
        first = false
      }
    }
    this.next()
    if (this.options.ecmaVersion >= 6) {
      node.sourceType = this.options.sourceType
    }
    return this.finishNode(node, "Program")
  }

  var loopLabel = {kind: "loop"};
  var switchLabel = {kind: "switch"};
  pp$1.isLet = function() {
    if (this.type !== tt.name || this.options.ecmaVersion < 6 || this.value != "let") return false
    skipWhiteSpace.lastIndex = this.pos
    var skip = skipWhiteSpace.exec(this.input)
    var next = this.pos + skip[0].length, nextCh = this.input.charCodeAt(next)
    if (nextCh === 91 || nextCh == 123) return true // '{' and '['
    if (isIdentifierStart(nextCh, true)) {
      for (var pos = next + 1; isIdentifierChar(this.input.charCodeAt(pos), true); ++pos) {}
      var ident = this.input.slice(next, pos)
      if (!this.isKeyword(ident)) return true
    }
    return false
  }

  // Parse a single statement.
  //
  // If expecting a statement and finding a slash operator, parse a
  // regular expression literal. This is to handle cases like
  // `if (foo) /blah/.exec(foo)`, where looking at the previous token
  // does not help.

  pp$1.parseStatement = function(declaration, topLevel) {
    var starttype = this.type, node = this.startNode(), kind

    if (this.isLet()) {
      starttype = tt._var
      kind = "let"
    }

    // Most types of statements are recognized by the keyword they
    // start with. Many are trivial to parse, some require a bit of
    // complexity.

    switch (starttype) {
    case tt._break: case tt._continue: return this.parseBreakContinueStatement(node, starttype.keyword)
    case tt._debugger: return this.parseDebuggerStatement(node)
    case tt._do: return this.parseDoStatement(node)
    case tt._for: return this.parseForStatement(node)
    case tt._function:
      if (!declaration && this.options.ecmaVersion >= 6) this.unexpected()
      return this.parseFunctionStatement(node)
    case tt._class:
      if (!declaration) this.unexpected()
      return this.parseClass(node, true)
    case tt._if: return this.parseIfStatement(node)
    case tt._return: return this.parseReturnStatement(node)
    case tt._switch: return this.parseSwitchStatement(node)
    case tt._throw: return this.parseThrowStatement(node)
    case tt._try: return this.parseTryStatement(node)
    case tt._const: case tt._var:
      kind = kind || this.value
      if (!declaration && kind != "var") this.unexpected()
      return this.parseVarStatement(node, kind)
    case tt._while: return this.parseWhileStatement(node)
    case tt._with: return this.parseWithStatement(node)
    case tt.braceL: return this.parseBlock()
    case tt.semi: return this.parseEmptyStatement(node)
    case tt._export:
    case tt._import:
      if (!this.options.allowImportExportEverywhere) {
        if (!topLevel)
          this.raise(this.start, "'import' and 'export' may only appear at the top level")
        if (!this.inModule)
          this.raise(this.start, "'import' and 'export' may appear only with 'sourceType: module'")
      }
      return starttype === tt._import ? this.parseImport(node) : this.parseExport(node)

      // If the statement does not start with a statement keyword or a
      // brace, it's an ExpressionStatement or LabeledStatement. We
      // simply start parsing an expression, and afterwards, if the
      // next token is a colon and the expression was a simple
      // Identifier node, we switch to interpreting it as a label.
    default:
      var maybeName = this.value, expr = this.parseExpression()
      if (starttype === tt.name && expr.type === "Identifier" && this.eat(tt.colon))
        return this.parseLabeledStatement(node, maybeName, expr)
      else return this.parseExpressionStatement(node, expr)
    }
  }

  pp$1.parseBreakContinueStatement = function(node, keyword) {
    var this$1 = this;

    var isBreak = keyword == "break"
    this.next()
    if (this.eat(tt.semi) || this.insertSemicolon()) node.label = null
    else if (this.type !== tt.name) this.unexpected()
    else {
      node.label = this.parseIdent()
      this.semicolon()
    }

    // Verify that there is an actual destination to break or
    // continue to.
    for (var i = 0; i < this.labels.length; ++i) {
      var lab = this$1.labels[i]
      if (node.label == null || lab.name === node.label.name) {
        if (lab.kind != null && (isBreak || lab.kind === "loop")) break
        if (node.label && isBreak) break
      }
    }
    if (i === this.labels.length) this.raise(node.start, "Unsyntactic " + keyword)
    return this.finishNode(node, isBreak ? "BreakStatement" : "ContinueStatement")
  }

  pp$1.parseDebuggerStatement = function(node) {
    this.next()
    this.semicolon()
    return this.finishNode(node, "DebuggerStatement")
  }

  pp$1.parseDoStatement = function(node) {
    this.next()
    this.labels.push(loopLabel)
    node.body = this.parseStatement(false)
    this.labels.pop()
    this.expect(tt._while)
    node.test = this.parseParenExpression()
    if (this.options.ecmaVersion >= 6)
      this.eat(tt.semi)
    else
      this.semicolon()
    return this.finishNode(node, "DoWhileStatement")
  }

  // Disambiguating between a `for` and a `for`/`in` or `for`/`of`
  // loop is non-trivial. Basically, we have to parse the init `var`
  // statement or expression, disallowing the `in` operator (see
  // the second parameter to `parseExpression`), and then check
  // whether the next token is `in` or `of`. When there is no init
  // part (semicolon immediately after the opening parenthesis), it
  // is a regular `for` loop.

  pp$1.parseForStatement = function(node) {
    this.next()
    this.labels.push(loopLabel)
    this.expect(tt.parenL)
    if (this.type === tt.semi) return this.parseFor(node, null)
    var isLet = this.isLet()
    if (this.type === tt._var || this.type === tt._const || isLet) {
      var init$1 = this.startNode(), kind = isLet ? "let" : this.value
      this.next()
      this.parseVar(init$1, true, kind)
      this.finishNode(init$1, "VariableDeclaration")
      if ((this.type === tt._in || (this.options.ecmaVersion >= 6 && this.isContextual("of"))) && init$1.declarations.length === 1 &&
          !(kind !== "var" && init$1.declarations[0].init))
        return this.parseForIn(node, init$1)
      return this.parseFor(node, init$1)
    }
    var refDestructuringErrors = new DestructuringErrors
    var init = this.parseExpression(true, refDestructuringErrors)
    if (this.type === tt._in || (this.options.ecmaVersion >= 6 && this.isContextual("of"))) {
      this.checkPatternErrors(refDestructuringErrors, true)
      this.toAssignable(init)
      this.checkLVal(init)
      return this.parseForIn(node, init)
    } else {
      this.checkExpressionErrors(refDestructuringErrors, true)
    }
    return this.parseFor(node, init)
  }

  pp$1.parseFunctionStatement = function(node) {
    this.next()
    return this.parseFunction(node, true)
  }

  pp$1.parseIfStatement = function(node) {
    this.next()
    node.test = this.parseParenExpression()
    node.consequent = this.parseStatement(false)
    node.alternate = this.eat(tt._else) ? this.parseStatement(false) : null
    return this.finishNode(node, "IfStatement")
  }

  pp$1.parseReturnStatement = function(node) {
    if (!this.inFunction && !this.options.allowReturnOutsideFunction)
      this.raise(this.start, "'return' outside of function")
    this.next()

    // In `return` (and `break`/`continue`), the keywords with
    // optional arguments, we eagerly look for a semicolon or the
    // possibility to insert one.

    if (this.eat(tt.semi) || this.insertSemicolon()) node.argument = null
    else { node.argument = this.parseExpression(); this.semicolon() }
    return this.finishNode(node, "ReturnStatement")
  }

  pp$1.parseSwitchStatement = function(node) {
    var this$1 = this;

    this.next()
    node.discriminant = this.parseParenExpression()
    node.cases = []
    this.expect(tt.braceL)
    this.labels.push(switchLabel)

    // Statements under must be grouped (by label) in SwitchCase
    // nodes. `cur` is used to keep the node that we are currently
    // adding statements to.

    for (var cur, sawDefault = false; this.type != tt.braceR;) {
      if (this$1.type === tt._case || this$1.type === tt._default) {
        var isCase = this$1.type === tt._case
        if (cur) this$1.finishNode(cur, "SwitchCase")
        node.cases.push(cur = this$1.startNode())
        cur.consequent = []
        this$1.next()
        if (isCase) {
          cur.test = this$1.parseExpression()
        } else {
          if (sawDefault) this$1.raiseRecoverable(this$1.lastTokStart, "Multiple default clauses")
          sawDefault = true
          cur.test = null
        }
        this$1.expect(tt.colon)
      } else {
        if (!cur) this$1.unexpected()
        cur.consequent.push(this$1.parseStatement(true))
      }
    }
    if (cur) this.finishNode(cur, "SwitchCase")
    this.next() // Closing brace
    this.labels.pop()
    return this.finishNode(node, "SwitchStatement")
  }

  pp$1.parseThrowStatement = function(node) {
    this.next()
    if (lineBreak.test(this.input.slice(this.lastTokEnd, this.start)))
      this.raise(this.lastTokEnd, "Illegal newline after throw")
    node.argument = this.parseExpression()
    this.semicolon()
    return this.finishNode(node, "ThrowStatement")
  }

  // Reused empty array added for node fields that are always empty.

  var empty = []

  pp$1.parseTryStatement = function(node) {
    this.next()
    node.block = this.parseBlock()
    node.handler = null
    if (this.type === tt._catch) {
      var clause = this.startNode()
      this.next()
      this.expect(tt.parenL)
      clause.param = this.parseBindingAtom()
      this.checkLVal(clause.param, true)
      this.expect(tt.parenR)
      clause.body = this.parseBlock()
      node.handler = this.finishNode(clause, "CatchClause")
    }
    node.finalizer = this.eat(tt._finally) ? this.parseBlock() : null
    if (!node.handler && !node.finalizer)
      this.raise(node.start, "Missing catch or finally clause")
    return this.finishNode(node, "TryStatement")
  }

  pp$1.parseVarStatement = function(node, kind) {
    this.next()
    this.parseVar(node, false, kind)
    this.semicolon()
    return this.finishNode(node, "VariableDeclaration")
  }

  pp$1.parseWhileStatement = function(node) {
    this.next()
    node.test = this.parseParenExpression()
    this.labels.push(loopLabel)
    node.body = this.parseStatement(false)
    this.labels.pop()
    return this.finishNode(node, "WhileStatement")
  }

  pp$1.parseWithStatement = function(node) {
    if (this.strict) this.raise(this.start, "'with' in strict mode")
    this.next()
    node.object = this.parseParenExpression()
    node.body = this.parseStatement(false)
    return this.finishNode(node, "WithStatement")
  }

  pp$1.parseEmptyStatement = function(node) {
    this.next()
    return this.finishNode(node, "EmptyStatement")
  }

  pp$1.parseLabeledStatement = function(node, maybeName, expr) {
    var this$1 = this;

    for (var i = 0; i < this.labels.length; ++i)
      if (this$1.labels[i].name === maybeName) this$1.raise(expr.start, "Label '" + maybeName + "' is already declared")
    var kind = this.type.isLoop ? "loop" : this.type === tt._switch ? "switch" : null
    for (var i$1 = this.labels.length - 1; i$1 >= 0; i$1--) {
      var label = this$1.labels[i$1]
      if (label.statementStart == node.start) {
        label.statementStart = this$1.start
        label.kind = kind
      } else break
    }
    this.labels.push({name: maybeName, kind: kind, statementStart: this.start})
    node.body = this.parseStatement(true)
    this.labels.pop()
    node.label = expr
    return this.finishNode(node, "LabeledStatement")
  }

  pp$1.parseExpressionStatement = function(node, expr) {
    node.expression = expr
    this.semicolon()
    return this.finishNode(node, "ExpressionStatement")
  }

  // Parse a semicolon-enclosed block of statements, handling `"use
  // strict"` declarations when `allowStrict` is true (used for
  // function bodies).

  pp$1.parseBlock = function(allowStrict) {
    var this$1 = this;

    var node = this.startNode(), first = true, oldStrict
    node.body = []
    this.expect(tt.braceL)
    while (!this.eat(tt.braceR)) {
      var stmt = this$1.parseStatement(true)
      node.body.push(stmt)
      if (first && allowStrict && this$1.isUseStrict(stmt)) {
        oldStrict = this$1.strict
        this$1.setStrict(this$1.strict = true)
      }
      first = false
    }
    if (oldStrict === false) this.setStrict(false)
    return this.finishNode(node, "BlockStatement")
  }

  // Parse a regular `for` loop. The disambiguation code in
  // `parseStatement` will already have parsed the init statement or
  // expression.

  pp$1.parseFor = function(node, init) {
    node.init = init
    this.expect(tt.semi)
    node.test = this.type === tt.semi ? null : this.parseExpression()
    this.expect(tt.semi)
    node.update = this.type === tt.parenR ? null : this.parseExpression()
    this.expect(tt.parenR)
    node.body = this.parseStatement(false)
    this.labels.pop()
    return this.finishNode(node, "ForStatement")
  }

  // Parse a `for`/`in` and `for`/`of` loop, which are almost
  // same from parser's perspective.

  pp$1.parseForIn = function(node, init) {
    var type = this.type === tt._in ? "ForInStatement" : "ForOfStatement"
    this.next()
    node.left = init
    node.right = this.parseExpression()
    this.expect(tt.parenR)
    node.body = this.parseStatement(false)
    this.labels.pop()
    return this.finishNode(node, type)
  }

  // Parse a list of variable declarations.

  pp$1.parseVar = function(node, isFor, kind) {
    var this$1 = this;

    node.declarations = []
    node.kind = kind
    for (;;) {
      var decl = this$1.startNode()
      this$1.parseVarId(decl)
      if (this$1.eat(tt.eq)) {
        decl.init = this$1.parseMaybeAssign(isFor)
      } else if (kind === "const" && !(this$1.type === tt._in || (this$1.options.ecmaVersion >= 6 && this$1.isContextual("of")))) {
        this$1.unexpected()
      } else if (decl.id.type != "Identifier" && !(isFor && (this$1.type === tt._in || this$1.isContextual("of")))) {
        this$1.raise(this$1.lastTokEnd, "Complex binding patterns require an initialization value")
      } else {
        decl.init = null
      }
      node.declarations.push(this$1.finishNode(decl, "VariableDeclarator"))
      if (!this$1.eat(tt.comma)) break
    }
    return node
  }

  pp$1.parseVarId = function(decl) {
    decl.id = this.parseBindingAtom()
    this.checkLVal(decl.id, true)
  }

  // Parse a function declaration or literal (depending on the
  // `isStatement` parameter).

  pp$1.parseFunction = function(node, isStatement, allowExpressionBody) {
    this.initFunction(node)
    if (this.options.ecmaVersion >= 6)
      node.generator = this.eat(tt.star)
    var oldInGen = this.inGenerator
    this.inGenerator = node.generator
    if (isStatement || this.type === tt.name)
      node.id = this.parseIdent()
    this.parseFunctionParams(node)
    this.parseFunctionBody(node, allowExpressionBody)
    this.inGenerator = oldInGen
    return this.finishNode(node, isStatement ? "FunctionDeclaration" : "FunctionExpression")
  }

  pp$1.parseFunctionParams = function(node) {
    this.expect(tt.parenL)
    node.params = this.parseBindingList(tt.parenR, false, false, true)
  }

  // Parse a class declaration or literal (depending on the
  // `isStatement` parameter).

  pp$1.parseClass = function(node, isStatement) {
    var this$1 = this;

    this.next()
    this.parseClassId(node, isStatement)
    this.parseClassSuper(node)
    var classBody = this.startNode()
    var hadConstructor = false
    classBody.body = []
    this.expect(tt.braceL)
    while (!this.eat(tt.braceR)) {
      if (this$1.eat(tt.semi)) continue
      var method = this$1.startNode()
      var isGenerator = this$1.eat(tt.star)
      var isMaybeStatic = this$1.type === tt.name && this$1.value === "static"
      this$1.parsePropertyName(method)
      method.static = isMaybeStatic && this$1.type !== tt.parenL
      if (method.static) {
        if (isGenerator) this$1.unexpected()
        isGenerator = this$1.eat(tt.star)
        this$1.parsePropertyName(method)
      }
      method.kind = "method"
      var isGetSet = false
      if (!method.computed) {
        var key = method.key;
        if (!isGenerator && key.type === "Identifier" && this$1.type !== tt.parenL && (key.name === "get" || key.name === "set")) {
          isGetSet = true
          method.kind = key.name
          key = this$1.parsePropertyName(method)
        }
        if (!method.static && (key.type === "Identifier" && key.name === "constructor" ||
            key.type === "Literal" && key.value === "constructor")) {
          if (hadConstructor) this$1.raise(key.start, "Duplicate constructor in the same class")
          if (isGetSet) this$1.raise(key.start, "Constructor can't have get/set modifier")
          if (isGenerator) this$1.raise(key.start, "Constructor can't be a generator")
          method.kind = "constructor"
          hadConstructor = true
        }
      }
      this$1.parseClassMethod(classBody, method, isGenerator)
      if (isGetSet) {
        var paramCount = method.kind === "get" ? 0 : 1
        if (method.value.params.length !== paramCount) {
          var start = method.value.start
          if (method.kind === "get")
            this$1.raiseRecoverable(start, "getter should have no params")
          else
            this$1.raiseRecoverable(start, "setter should have exactly one param")
        }
        if (method.kind === "set" && method.value.params[0].type === "RestElement")
          this$1.raise(method.value.params[0].start, "Setter cannot use rest params")
      }
    }
    node.body = this.finishNode(classBody, "ClassBody")
    return this.finishNode(node, isStatement ? "ClassDeclaration" : "ClassExpression")
  }

  pp$1.parseClassMethod = function(classBody, method, isGenerator) {
    method.value = this.parseMethod(isGenerator)
    classBody.body.push(this.finishNode(method, "MethodDefinition"))
  }

  pp$1.parseClassId = function(node, isStatement) {
    node.id = this.type === tt.name ? this.parseIdent() : isStatement ? this.unexpected() : null
  }

  pp$1.parseClassSuper = function(node) {
    node.superClass = this.eat(tt._extends) ? this.parseExprSubscripts() : null
  }

  // Parses module export declaration.

  pp$1.parseExport = function(node) {
    var this$1 = this;

    this.next()
    // export * from '...'
    if (this.eat(tt.star)) {
      this.expectContextual("from")
      node.source = this.type === tt.string ? this.parseExprAtom() : this.unexpected()
      this.semicolon()
      return this.finishNode(node, "ExportAllDeclaration")
    }
    if (this.eat(tt._default)) { // export default ...
      var parens = this.type == tt.parenL
      var expr = this.parseMaybeAssign()
      var needsSemi = true
      if (!parens && (expr.type == "FunctionExpression" ||
                      expr.type == "ClassExpression")) {
        needsSemi = false
        if (expr.id) {
          expr.type = expr.type == "FunctionExpression"
            ? "FunctionDeclaration"
            : "ClassDeclaration"
        }
      }
      node.declaration = expr
      if (needsSemi) this.semicolon()
      return this.finishNode(node, "ExportDefaultDeclaration")
    }
    // export var|const|let|function|class ...
    if (this.shouldParseExportStatement()) {
      node.declaration = this.parseStatement(true)
      node.specifiers = []
      node.source = null
    } else { // export { x, y as z } [from '...']
      node.declaration = null
      node.specifiers = this.parseExportSpecifiers()
      if (this.eatContextual("from")) {
        node.source = this.type === tt.string ? this.parseExprAtom() : this.unexpected()
      } else {
        // check for keywords used as local names
        for (var i = 0; i < node.specifiers.length; i++) {
          if (this$1.keywords.test(node.specifiers[i].local.name) || this$1.reservedWords.test(node.specifiers[i].local.name)) {
            this$1.unexpected(node.specifiers[i].local.start)
          }
        }

        node.source = null
      }
      this.semicolon()
    }
    return this.finishNode(node, "ExportNamedDeclaration")
  }

  pp$1.shouldParseExportStatement = function() {
    return this.type.keyword || this.isLet()
  }

  // Parses a comma-separated list of module exports.

  pp$1.parseExportSpecifiers = function() {
    var this$1 = this;

    var nodes = [], first = true
    // export { x, y as z } [from '...']
    this.expect(tt.braceL)
    while (!this.eat(tt.braceR)) {
      if (!first) {
        this$1.expect(tt.comma)
        if (this$1.afterTrailingComma(tt.braceR)) break
      } else first = false

      var node = this$1.startNode()
      node.local = this$1.parseIdent(this$1.type === tt._default)
      node.exported = this$1.eatContextual("as") ? this$1.parseIdent(true) : node.local
      nodes.push(this$1.finishNode(node, "ExportSpecifier"))
    }
    return nodes
  }

  // Parses import declaration.

  pp$1.parseImport = function(node) {
    this.next()
    // import '...'
    if (this.type === tt.string) {
      node.specifiers = empty
      node.source = this.parseExprAtom()
    } else {
      node.specifiers = this.parseImportSpecifiers()
      this.expectContextual("from")
      node.source = this.type === tt.string ? this.parseExprAtom() : this.unexpected()
    }
    this.semicolon()
    return this.finishNode(node, "ImportDeclaration")
  }

  // Parses a comma-separated list of module imports.

  pp$1.parseImportSpecifiers = function() {
    var this$1 = this;

    var nodes = [], first = true
    if (this.type === tt.name) {
      // import defaultObj, { x, y as z } from '...'
      var node = this.startNode()
      node.local = this.parseIdent()
      this.checkLVal(node.local, true)
      nodes.push(this.finishNode(node, "ImportDefaultSpecifier"))
      if (!this.eat(tt.comma)) return nodes
    }
    if (this.type === tt.star) {
      var node$1 = this.startNode()
      this.next()
      this.expectContextual("as")
      node$1.local = this.parseIdent()
      this.checkLVal(node$1.local, true)
      nodes.push(this.finishNode(node$1, "ImportNamespaceSpecifier"))
      return nodes
    }
    this.expect(tt.braceL)
    while (!this.eat(tt.braceR)) {
      if (!first) {
        this$1.expect(tt.comma)
        if (this$1.afterTrailingComma(tt.braceR)) break
      } else first = false

      var node$2 = this$1.startNode()
      node$2.imported = this$1.parseIdent(true)
      if (this$1.eatContextual("as")) {
        node$2.local = this$1.parseIdent()
      } else {
        node$2.local = node$2.imported
        if (this$1.isKeyword(node$2.local.name)) this$1.unexpected(node$2.local.start)
        if (this$1.reservedWordsStrict.test(node$2.local.name)) this$1.raise(node$2.local.start, "The keyword '" + node$2.local.name + "' is reserved")
      }
      this$1.checkLVal(node$2.local, true)
      nodes.push(this$1.finishNode(node$2, "ImportSpecifier"))
    }
    return nodes
  }

  var pp$2 = Parser.prototype

  // Convert existing expression atom to assignable pattern
  // if possible.

  pp$2.toAssignable = function(node, isBinding) {
    var this$1 = this;

    if (this.options.ecmaVersion >= 6 && node) {
      switch (node.type) {
      case "Identifier":
      case "ObjectPattern":
      case "ArrayPattern":
        break

      case "ObjectExpression":
        node.type = "ObjectPattern"
        for (var i = 0; i < node.properties.length; i++) {
          var prop = node.properties[i]
          if (prop.kind !== "init") this$1.raise(prop.key.start, "Object pattern can't contain getter or setter")
          this$1.toAssignable(prop.value, isBinding)
        }
        break

      case "ArrayExpression":
        node.type = "ArrayPattern"
        this.toAssignableList(node.elements, isBinding)
        break

      case "AssignmentExpression":
        if (node.operator === "=") {
          node.type = "AssignmentPattern"
          delete node.operator
          // falls through to AssignmentPattern
        } else {
          this.raise(node.left.end, "Only '=' operator can be used for specifying default value.")
          break
        }

      case "AssignmentPattern":
        if (node.right.type === "YieldExpression")
          this.raise(node.right.start, "Yield expression cannot be a default value")
        break

      case "ParenthesizedExpression":
        node.expression = this.toAssignable(node.expression, isBinding)
        break

      case "MemberExpression":
        if (!isBinding) break

      default:
        this.raise(node.start, "Assigning to rvalue")
      }
    }
    return node
  }

  // Convert list of expression atoms to binding list.

  pp$2.toAssignableList = function(exprList, isBinding) {
    var this$1 = this;

    var end = exprList.length
    if (end) {
      var last = exprList[end - 1]
      if (last && last.type == "RestElement") {
        --end
      } else if (last && last.type == "SpreadElement") {
        last.type = "RestElement"
        var arg = last.argument
        this.toAssignable(arg, isBinding)
        if (arg.type !== "Identifier" && arg.type !== "MemberExpression" && arg.type !== "ArrayPattern")
          this.unexpected(arg.start)
        --end
      }

      if (isBinding && last && last.type === "RestElement" && last.argument.type !== "Identifier")
        this.unexpected(last.argument.start)
    }
    for (var i = 0; i < end; i++) {
      var elt = exprList[i]
      if (elt) this$1.toAssignable(elt, isBinding)
    }
    return exprList
  }

  // Parses spread element.

  pp$2.parseSpread = function(refDestructuringErrors) {
    var node = this.startNode()
    this.next()
    node.argument = this.parseMaybeAssign(false, refDestructuringErrors)
    return this.finishNode(node, "SpreadElement")
  }

  pp$2.parseRest = function(allowNonIdent) {
    var node = this.startNode()
    this.next()

    // RestElement inside of a function parameter must be an identifier
    if (allowNonIdent) node.argument = this.type === tt.name ? this.parseIdent() : this.unexpected()
    else node.argument = this.type === tt.name || this.type === tt.bracketL ? this.parseBindingAtom() : this.unexpected()

    return this.finishNode(node, "RestElement")
  }

  // Parses lvalue (assignable) atom.

  pp$2.parseBindingAtom = function() {
    if (this.options.ecmaVersion < 6) return this.parseIdent()
    switch (this.type) {
    case tt.name:
      return this.parseIdent()

    case tt.bracketL:
      var node = this.startNode()
      this.next()
      node.elements = this.parseBindingList(tt.bracketR, true, true)
      return this.finishNode(node, "ArrayPattern")

    case tt.braceL:
      return this.parseObj(true)

    default:
      this.unexpected()
    }
  }

  pp$2.parseBindingList = function(close, allowEmpty, allowTrailingComma, allowNonIdent) {
    var this$1 = this;

    var elts = [], first = true
    while (!this.eat(close)) {
      if (first) first = false
      else this$1.expect(tt.comma)
      if (allowEmpty && this$1.type === tt.comma) {
        elts.push(null)
      } else if (allowTrailingComma && this$1.afterTrailingComma(close)) {
        break
      } else if (this$1.type === tt.ellipsis) {
        var rest = this$1.parseRest(allowNonIdent)
        this$1.parseBindingListItem(rest)
        elts.push(rest)
        if (this$1.type === tt.comma) this$1.raise(this$1.start, "Comma is not permitted after the rest element")
        this$1.expect(close)
        break
      } else {
        var elem = this$1.parseMaybeDefault(this$1.start, this$1.startLoc)
        this$1.parseBindingListItem(elem)
        elts.push(elem)
      }
    }
    return elts
  }

  pp$2.parseBindingListItem = function(param) {
    return param
  }

  // Parses assignment pattern around given atom if possible.

  pp$2.parseMaybeDefault = function(startPos, startLoc, left) {
    left = left || this.parseBindingAtom()
    if (this.options.ecmaVersion < 6 || !this.eat(tt.eq)) return left
    var node = this.startNodeAt(startPos, startLoc)
    node.left = left
    node.right = this.parseMaybeAssign()
    return this.finishNode(node, "AssignmentPattern")
  }

  // Verify that a node is an lval — something that can be assigned
  // to.

  pp$2.checkLVal = function(expr, isBinding, checkClashes) {
    var this$1 = this;

    switch (expr.type) {
    case "Identifier":
      if (this.strict && this.reservedWordsStrictBind.test(expr.name))
        this.raiseRecoverable(expr.start, (isBinding ? "Binding " : "Assigning to ") + expr.name + " in strict mode")
      if (checkClashes) {
        if (has(checkClashes, expr.name))
          this.raiseRecoverable(expr.start, "Argument name clash")
        checkClashes[expr.name] = true
      }
      break

    case "MemberExpression":
      if (isBinding) this.raiseRecoverable(expr.start, (isBinding ? "Binding" : "Assigning to") + " member expression")
      break

    case "ObjectPattern":
      for (var i = 0; i < expr.properties.length; i++)
        this$1.checkLVal(expr.properties[i].value, isBinding, checkClashes)
      break

    case "ArrayPattern":
      for (var i$1 = 0; i$1 < expr.elements.length; i$1++) {
        var elem = expr.elements[i$1]
        if (elem) this$1.checkLVal(elem, isBinding, checkClashes)
      }
      break

    case "AssignmentPattern":
      this.checkLVal(expr.left, isBinding, checkClashes)
      break

    case "RestElement":
      this.checkLVal(expr.argument, isBinding, checkClashes)
      break

    case "ParenthesizedExpression":
      this.checkLVal(expr.expression, isBinding, checkClashes)
      break

    default:
      this.raise(expr.start, (isBinding ? "Binding" : "Assigning to") + " rvalue")
    }
  }

  var pp$3 = Parser.prototype

  // Check if property name clashes with already added.
  // Object/class getters and setters are not allowed to clash —
  // either with each other or with an init property — and in
  // strict mode, init properties are also not allowed to be repeated.

  pp$3.checkPropClash = function(prop, propHash) {
    if (this.options.ecmaVersion >= 6 && (prop.computed || prop.method || prop.shorthand))
      return
    var key = prop.key;
    var name
    switch (key.type) {
    case "Identifier": name = key.name; break
    case "Literal": name = String(key.value); break
    default: return
    }
    var kind = prop.kind;
    if (this.options.ecmaVersion >= 6) {
      if (name === "__proto__" && kind === "init") {
        if (propHash.proto) this.raiseRecoverable(key.start, "Redefinition of __proto__ property")
        propHash.proto = true
      }
      return
    }
    name = "$" + name
    var other = propHash[name]
    if (other) {
      var isGetSet = kind !== "init"
      if ((this.strict || isGetSet) && other[kind] || !(isGetSet ^ other.init))
        this.raiseRecoverable(key.start, "Redefinition of property")
    } else {
      other = propHash[name] = {
        init: false,
        get: false,
        set: false
      }
    }
    other[kind] = true
  }

  // ### Expression parsing

  // These nest, from the most general expression type at the top to
  // 'atomic', nondivisible expression types at the bottom. Most of
  // the functions will simply let the function(s) below them parse,
  // and, *if* the syntactic construct they handle is present, wrap
  // the AST node that the inner parser gave them in another node.

  // Parse a full expression. The optional arguments are used to
  // forbid the `in` operator (in for loops initalization expressions)
  // and provide reference for storing '=' operator inside shorthand
  // property assignment in contexts where both object expression
  // and object pattern might appear (so it's possible to raise
  // delayed syntax error at correct position).

  pp$3.parseExpression = function(noIn, refDestructuringErrors) {
    var this$1 = this;

    var startPos = this.start, startLoc = this.startLoc
    var expr = this.parseMaybeAssign(noIn, refDestructuringErrors)
    if (this.type === tt.comma) {
      var node = this.startNodeAt(startPos, startLoc)
      node.expressions = [expr]
      while (this.eat(tt.comma)) node.expressions.push(this$1.parseMaybeAssign(noIn, refDestructuringErrors))
      return this.finishNode(node, "SequenceExpression")
    }
    return expr
  }

  // Parse an assignment expression. This includes applications of
  // operators like `+=`.

  pp$3.parseMaybeAssign = function(noIn, refDestructuringErrors, afterLeftParse) {
    if (this.inGenerator && this.isContextual("yield")) return this.parseYield()

    var ownDestructuringErrors = false
    if (!refDestructuringErrors) {
      refDestructuringErrors = new DestructuringErrors
      ownDestructuringErrors = true
    }
    var startPos = this.start, startLoc = this.startLoc
    if (this.type == tt.parenL || this.type == tt.name)
      this.potentialArrowAt = this.start
    var left = this.parseMaybeConditional(noIn, refDestructuringErrors)
    if (afterLeftParse) left = afterLeftParse.call(this, left, startPos, startLoc)
    if (this.type.isAssign) {
      this.checkPatternErrors(refDestructuringErrors, true)
      if (!ownDestructuringErrors) DestructuringErrors.call(refDestructuringErrors)
      var node = this.startNodeAt(startPos, startLoc)
      node.operator = this.value
      node.left = this.type === tt.eq ? this.toAssignable(left) : left
      refDestructuringErrors.shorthandAssign = 0 // reset because shorthand default was used correctly
      this.checkLVal(left)
      this.next()
      node.right = this.parseMaybeAssign(noIn)
      return this.finishNode(node, "AssignmentExpression")
    } else {
      if (ownDestructuringErrors) this.checkExpressionErrors(refDestructuringErrors, true)
    }
    return left
  }

  // Parse a ternary conditional (`?:`) operator.

  pp$3.parseMaybeConditional = function(noIn, refDestructuringErrors) {
    var startPos = this.start, startLoc = this.startLoc
    var expr = this.parseExprOps(noIn, refDestructuringErrors)
    if (this.checkExpressionErrors(refDestructuringErrors)) return expr
    if (this.eat(tt.question)) {
      var node = this.startNodeAt(startPos, startLoc)
      node.test = expr
      node.consequent = this.parseMaybeAssign()
      this.expect(tt.colon)
      node.alternate = this.parseMaybeAssign(noIn)
      return this.finishNode(node, "ConditionalExpression")
    }
    return expr
  }

  // Start the precedence parser.

  pp$3.parseExprOps = function(noIn, refDestructuringErrors) {
    var startPos = this.start, startLoc = this.startLoc
    var expr = this.parseMaybeUnary(refDestructuringErrors, false)
    if (this.checkExpressionErrors(refDestructuringErrors)) return expr
    return this.parseExprOp(expr, startPos, startLoc, -1, noIn)
  }

  // Parse binary operators with the operator precedence parsing
  // algorithm. `left` is the left-hand side of the operator.
  // `minPrec` provides context that allows the function to stop and
  // defer further parser to one of its callers when it encounters an
  // operator that has a lower precedence than the set it is parsing.

  pp$3.parseExprOp = function(left, leftStartPos, leftStartLoc, minPrec, noIn) {
    var prec = this.type.binop
    if (prec != null && (!noIn || this.type !== tt._in)) {
      if (prec > minPrec) {
        var logical = this.type === tt.logicalOR || this.type === tt.logicalAND
        var op = this.value
        this.next()
        var startPos = this.start, startLoc = this.startLoc
        var right = this.parseExprOp(this.parseMaybeUnary(null, false), startPos, startLoc, prec, noIn)
        var node = this.buildBinary(leftStartPos, leftStartLoc, left, right, op, logical)
        return this.parseExprOp(node, leftStartPos, leftStartLoc, minPrec, noIn)
      }
    }
    return left
  }

  pp$3.buildBinary = function(startPos, startLoc, left, right, op, logical) {
    var node = this.startNodeAt(startPos, startLoc)
    node.left = left
    node.operator = op
    node.right = right
    return this.finishNode(node, logical ? "LogicalExpression" : "BinaryExpression")
  }

  // Parse unary operators, both prefix and postfix.

  pp$3.parseMaybeUnary = function(refDestructuringErrors, sawUnary) {
    var this$1 = this;

    var startPos = this.start, startLoc = this.startLoc, expr
    if (this.type.prefix) {
      var node = this.startNode(), update = this.type === tt.incDec
      node.operator = this.value
      node.prefix = true
      this.next()
      node.argument = this.parseMaybeUnary(null, true)
      this.checkExpressionErrors(refDestructuringErrors, true)
      if (update) this.checkLVal(node.argument)
      else if (this.strict && node.operator === "delete" &&
               node.argument.type === "Identifier")
        this.raiseRecoverable(node.start, "Deleting local variable in strict mode")
      else sawUnary = true
      expr = this.finishNode(node, update ? "UpdateExpression" : "UnaryExpression")
    } else {
      expr = this.parseExprSubscripts(refDestructuringErrors)
      if (this.checkExpressionErrors(refDestructuringErrors)) return expr
      while (this.type.postfix && !this.canInsertSemicolon()) {
        var node$1 = this$1.startNodeAt(startPos, startLoc)
        node$1.operator = this$1.value
        node$1.prefix = false
        node$1.argument = expr
        this$1.checkLVal(expr)
        this$1.next()
        expr = this$1.finishNode(node$1, "UpdateExpression")
      }
    }

    if (!sawUnary && this.eat(tt.starstar))
      return this.buildBinary(startPos, startLoc, expr, this.parseMaybeUnary(null, false), "**", false)
    else
      return expr
  }

  // Parse call, dot, and `[]`-subscript expressions.

  pp$3.parseExprSubscripts = function(refDestructuringErrors) {
    var startPos = this.start, startLoc = this.startLoc
    var expr = this.parseExprAtom(refDestructuringErrors)
    var skipArrowSubscripts = expr.type === "ArrowFunctionExpression" && this.input.slice(this.lastTokStart, this.lastTokEnd) !== ")"
    if (this.checkExpressionErrors(refDestructuringErrors) || skipArrowSubscripts) return expr
    return this.parseSubscripts(expr, startPos, startLoc)
  }

  pp$3.parseSubscripts = function(base, startPos, startLoc, noCalls) {
    var this$1 = this;

    for (;;) {
      if (this$1.eat(tt.dot)) {
        var node = this$1.startNodeAt(startPos, startLoc)
        node.object = base
        node.property = this$1.parseIdent(true)
        node.computed = false
        base = this$1.finishNode(node, "MemberExpression")
      } else if (this$1.eat(tt.bracketL)) {
        var node$1 = this$1.startNodeAt(startPos, startLoc)
        node$1.object = base
        node$1.property = this$1.parseExpression()
        node$1.computed = true
        this$1.expect(tt.bracketR)
        base = this$1.finishNode(node$1, "MemberExpression")
      } else if (!noCalls && this$1.eat(tt.parenL)) {
        var node$2 = this$1.startNodeAt(startPos, startLoc)
        node$2.callee = base
        node$2.arguments = this$1.parseExprList(tt.parenR, false)
        base = this$1.finishNode(node$2, "CallExpression")
      } else if (this$1.type === tt.backQuote) {
        var node$3 = this$1.startNodeAt(startPos, startLoc)
        node$3.tag = base
        node$3.quasi = this$1.parseTemplate()
        base = this$1.finishNode(node$3, "TaggedTemplateExpression")
      } else {
        return base
      }
    }
  }

  // Parse an atomic expression — either a single token that is an
  // expression, an expression started by a keyword like `function` or
  // `new`, or an expression wrapped in punctuation like `()`, `[]`,
  // or `{}`.

  pp$3.parseExprAtom = function(refDestructuringErrors) {
    var node, canBeArrow = this.potentialArrowAt == this.start
    switch (this.type) {
    case tt._super:
      if (!this.inFunction)
        this.raise(this.start, "'super' outside of function or class")

    case tt._this:
      var type = this.type === tt._this ? "ThisExpression" : "Super"
      node = this.startNode()
      this.next()
      return this.finishNode(node, type)

    case tt.name:
      var startPos = this.start, startLoc = this.startLoc
      var id = this.parseIdent(this.type !== tt.name)
      if (canBeArrow && !this.canInsertSemicolon() && this.eat(tt.arrow))
        return this.parseArrowExpression(this.startNodeAt(startPos, startLoc), [id])
      return id

    case tt.regexp:
      var value = this.value
      node = this.parseLiteral(value.value)
      node.regex = {pattern: value.pattern, flags: value.flags}
      return node

    case tt.num: case tt.string:
      return this.parseLiteral(this.value)

    case tt._null: case tt._true: case tt._false:
      node = this.startNode()
      node.value = this.type === tt._null ? null : this.type === tt._true
      node.raw = this.type.keyword
      this.next()
      return this.finishNode(node, "Literal")

    case tt.parenL:
      return this.parseParenAndDistinguishExpression(canBeArrow)

    case tt.bracketL:
      node = this.startNode()
      this.next()
      node.elements = this.parseExprList(tt.bracketR, true, true, refDestructuringErrors)
      return this.finishNode(node, "ArrayExpression")

    case tt.braceL:
      return this.parseObj(false, refDestructuringErrors)

    case tt._function:
      node = this.startNode()
      this.next()
      return this.parseFunction(node, false)

    case tt._class:
      return this.parseClass(this.startNode(), false)

    case tt._new:
      return this.parseNew()

    case tt.backQuote:
      return this.parseTemplate()

    default:
      this.unexpected()
    }
  }

  pp$3.parseLiteral = function(value) {
    var node = this.startNode()
    node.value = value
    node.raw = this.input.slice(this.start, this.end)
    this.next()
    return this.finishNode(node, "Literal")
  }

  pp$3.parseParenExpression = function() {
    this.expect(tt.parenL)
    var val = this.parseExpression()
    this.expect(tt.parenR)
    return val
  }

  pp$3.parseParenAndDistinguishExpression = function(canBeArrow) {
    var this$1 = this;

    var startPos = this.start, startLoc = this.startLoc, val
    if (this.options.ecmaVersion >= 6) {
      this.next()

      var innerStartPos = this.start, innerStartLoc = this.startLoc
      var exprList = [], first = true
      var refDestructuringErrors = new DestructuringErrors, spreadStart, innerParenStart
      while (this.type !== tt.parenR) {
        first ? first = false : this$1.expect(tt.comma)
        if (this$1.type === tt.ellipsis) {
          spreadStart = this$1.start
          exprList.push(this$1.parseParenItem(this$1.parseRest()))
          break
        } else {
          if (this$1.type === tt.parenL && !innerParenStart) {
            innerParenStart = this$1.start
          }
          exprList.push(this$1.parseMaybeAssign(false, refDestructuringErrors, this$1.parseParenItem))
        }
      }
      var innerEndPos = this.start, innerEndLoc = this.startLoc
      this.expect(tt.parenR)

      if (canBeArrow && !this.canInsertSemicolon() && this.eat(tt.arrow)) {
        this.checkPatternErrors(refDestructuringErrors, true)
        if (innerParenStart) this.unexpected(innerParenStart)
        return this.parseParenArrowList(startPos, startLoc, exprList)
      }

      if (!exprList.length) this.unexpected(this.lastTokStart)
      if (spreadStart) this.unexpected(spreadStart)
      this.checkExpressionErrors(refDestructuringErrors, true)

      if (exprList.length > 1) {
        val = this.startNodeAt(innerStartPos, innerStartLoc)
        val.expressions = exprList
        this.finishNodeAt(val, "SequenceExpression", innerEndPos, innerEndLoc)
      } else {
        val = exprList[0]
      }
    } else {
      val = this.parseParenExpression()
    }

    if (this.options.preserveParens) {
      var par = this.startNodeAt(startPos, startLoc)
      par.expression = val
      return this.finishNode(par, "ParenthesizedExpression")
    } else {
      return val
    }
  }

  pp$3.parseParenItem = function(item) {
    return item
  }

  pp$3.parseParenArrowList = function(startPos, startLoc, exprList) {
    return this.parseArrowExpression(this.startNodeAt(startPos, startLoc), exprList)
  }

  // New's precedence is slightly tricky. It must allow its argument to
  // be a `[]` or dot subscript expression, but not a call — at least,
  // not without wrapping it in parentheses. Thus, it uses the noCalls
  // argument to parseSubscripts to prevent it from consuming the
  // argument list.

  var empty$1 = []

  pp$3.parseNew = function() {
    var node = this.startNode()
    var meta = this.parseIdent(true)
    if (this.options.ecmaVersion >= 6 && this.eat(tt.dot)) {
      node.meta = meta
      node.property = this.parseIdent(true)
      if (node.property.name !== "target")
        this.raiseRecoverable(node.property.start, "The only valid meta property for new is new.target")
      if (!this.inFunction)
        this.raiseRecoverable(node.start, "new.target can only be used in functions")
      return this.finishNode(node, "MetaProperty")
    }
    var startPos = this.start, startLoc = this.startLoc
    node.callee = this.parseSubscripts(this.parseExprAtom(), startPos, startLoc, true)
    if (this.eat(tt.parenL)) node.arguments = this.parseExprList(tt.parenR, false)
    else node.arguments = empty$1
    return this.finishNode(node, "NewExpression")
  }

  // Parse template expression.

  pp$3.parseTemplateElement = function() {
    var elem = this.startNode()
    elem.value = {
      raw: this.input.slice(this.start, this.end).replace(/\r\n?/g, '\n'),
      cooked: this.value
    }
    this.next()
    elem.tail = this.type === tt.backQuote
    return this.finishNode(elem, "TemplateElement")
  }

  pp$3.parseTemplate = function() {
    var this$1 = this;

    var node = this.startNode()
    this.next()
    node.expressions = []
    var curElt = this.parseTemplateElement()
    node.quasis = [curElt]
    while (!curElt.tail) {
      this$1.expect(tt.dollarBraceL)
      node.expressions.push(this$1.parseExpression())
      this$1.expect(tt.braceR)
      node.quasis.push(curElt = this$1.parseTemplateElement())
    }
    this.next()
    return this.finishNode(node, "TemplateLiteral")
  }

  // Parse an object literal or binding pattern.

  pp$3.parseObj = function(isPattern, refDestructuringErrors) {
    var this$1 = this;

    var node = this.startNode(), first = true, propHash = {}
    node.properties = []
    this.next()
    while (!this.eat(tt.braceR)) {
      if (!first) {
        this$1.expect(tt.comma)
        if (this$1.afterTrailingComma(tt.braceR)) break
      } else first = false

      var prop = this$1.startNode(), isGenerator, startPos, startLoc
      if (this$1.options.ecmaVersion >= 6) {
        prop.method = false
        prop.shorthand = false
        if (isPattern || refDestructuringErrors) {
          startPos = this$1.start
          startLoc = this$1.startLoc
        }
        if (!isPattern)
          isGenerator = this$1.eat(tt.star)
      }
      this$1.parsePropertyName(prop)
      this$1.parsePropertyValue(prop, isPattern, isGenerator, startPos, startLoc, refDestructuringErrors)
      this$1.checkPropClash(prop, propHash)
      node.properties.push(this$1.finishNode(prop, "Property"))
    }
    return this.finishNode(node, isPattern ? "ObjectPattern" : "ObjectExpression")
  }

  pp$3.parsePropertyValue = function(prop, isPattern, isGenerator, startPos, startLoc, refDestructuringErrors) {
    if (this.eat(tt.colon)) {
      prop.value = isPattern ? this.parseMaybeDefault(this.start, this.startLoc) : this.parseMaybeAssign(false, refDestructuringErrors)
      prop.kind = "init"
    } else if (this.options.ecmaVersion >= 6 && this.type === tt.parenL) {
      if (isPattern) this.unexpected()
      prop.kind = "init"
      prop.method = true
      prop.value = this.parseMethod(isGenerator)
    } else if (this.options.ecmaVersion >= 5 && !prop.computed && prop.key.type === "Identifier" &&
               (prop.key.name === "get" || prop.key.name === "set") &&
               (this.type != tt.comma && this.type != tt.braceR)) {
      if (isGenerator || isPattern) this.unexpected()
      prop.kind = prop.key.name
      this.parsePropertyName(prop)
      prop.value = this.parseMethod(false)
      var paramCount = prop.kind === "get" ? 0 : 1
      if (prop.value.params.length !== paramCount) {
        var start = prop.value.start
        if (prop.kind === "get")
          this.raiseRecoverable(start, "getter should have no params")
        else
          this.raiseRecoverable(start, "setter should have exactly one param")
      }
      if (prop.kind === "set" && prop.value.params[0].type === "RestElement")
        this.raiseRecoverable(prop.value.params[0].start, "Setter cannot use rest params")
    } else if (this.options.ecmaVersion >= 6 && !prop.computed && prop.key.type === "Identifier") {
      if (this.keywords.test(prop.key.name) ||
          (this.strict ? this.reservedWordsStrictBind : this.reservedWords).test(prop.key.name) ||
          (this.inGenerator && prop.key.name == "yield"))
        this.raiseRecoverable(prop.key.start, "'" + prop.key.name + "' can not be used as shorthand property")
      prop.kind = "init"
      if (isPattern) {
        prop.value = this.parseMaybeDefault(startPos, startLoc, prop.key)
      } else if (this.type === tt.eq && refDestructuringErrors) {
        if (!refDestructuringErrors.shorthandAssign)
          refDestructuringErrors.shorthandAssign = this.start
        prop.value = this.parseMaybeDefault(startPos, startLoc, prop.key)
      } else {
        prop.value = prop.key
      }
      prop.shorthand = true
    } else this.unexpected()
  }

  pp$3.parsePropertyName = function(prop) {
    if (this.options.ecmaVersion >= 6) {
      if (this.eat(tt.bracketL)) {
        prop.computed = true
        prop.key = this.parseMaybeAssign()
        this.expect(tt.bracketR)
        return prop.key
      } else {
        prop.computed = false
      }
    }
    return prop.key = this.type === tt.num || this.type === tt.string ? this.parseExprAtom() : this.parseIdent(true)
  }

  // Initialize empty function node.

  pp$3.initFunction = function(node) {
    node.id = null
    if (this.options.ecmaVersion >= 6) {
      node.generator = false
      node.expression = false
    }
  }

  // Parse object or class method.

  pp$3.parseMethod = function(isGenerator) {
    var node = this.startNode(), oldInGen = this.inGenerator
    this.inGenerator = isGenerator
    this.initFunction(node)
    this.expect(tt.parenL)
    node.params = this.parseBindingList(tt.parenR, false, false)
    if (this.options.ecmaVersion >= 6)
      node.generator = isGenerator
    this.parseFunctionBody(node, false)
    this.inGenerator = oldInGen
    return this.finishNode(node, "FunctionExpression")
  }

  // Parse arrow function expression with given parameters.

  pp$3.parseArrowExpression = function(node, params) {
    var oldInGen = this.inGenerator
    this.inGenerator = false
    this.initFunction(node)
    node.params = this.toAssignableList(params, true)
    this.parseFunctionBody(node, true)
    this.inGenerator = oldInGen
    return this.finishNode(node, "ArrowFunctionExpression")
  }

  // Parse function body and check parameters.

  pp$3.parseFunctionBody = function(node, isArrowFunction) {
    var isExpression = isArrowFunction && this.type !== tt.braceL

    if (isExpression) {
      node.body = this.parseMaybeAssign()
      node.expression = true
    } else {
      // Start a new scope with regard to labels and the `inFunction`
      // flag (restore them to their old value afterwards).
      var oldInFunc = this.inFunction, oldLabels = this.labels
      this.inFunction = true; this.labels = []
      node.body = this.parseBlock(true)
      node.expression = false
      this.inFunction = oldInFunc; this.labels = oldLabels
    }

    // If this is a strict mode function, verify that argument names
    // are not repeated, and it does not try to bind the words `eval`
    // or `arguments`.
    var useStrict = (!isExpression && node.body.body.length && this.isUseStrict(node.body.body[0])) ? node.body.body[0] : null;
    if (this.strict || useStrict) {
      var oldStrict = this.strict
      this.strict = true
      if (node.id)
        this.checkLVal(node.id, true)
      this.checkParams(node, useStrict)
      this.strict = oldStrict
    } else if (isArrowFunction) {
      this.checkParams(node, useStrict)
    }
  }

  // Checks function params for various disallowed patterns such as using "eval"
  // or "arguments" and duplicate parameters.

  pp$3.checkParams = function(node, useStrict) {
      var this$1 = this;

      var nameHash = {}
      for (var i = 0; i < node.params.length; i++) {
        if (useStrict && this$1.options.ecmaVersion >= 7 && node.params[i].type !== "Identifier")
          this$1.raiseRecoverable(useStrict.start, "Illegal 'use strict' directive in function with non-simple parameter list");
        this$1.checkLVal(node.params[i], true, nameHash)
      }
  }

  // Parses a comma-separated list of expressions, and returns them as
  // an array. `close` is the token type that ends the list, and
  // `allowEmpty` can be turned on to allow subsequent commas with
  // nothing in between them to be parsed as `null` (which is needed
  // for array literals).

  pp$3.parseExprList = function(close, allowTrailingComma, allowEmpty, refDestructuringErrors) {
    var this$1 = this;

    var elts = [], first = true
    while (!this.eat(close)) {
      if (!first) {
        this$1.expect(tt.comma)
        if (allowTrailingComma && this$1.afterTrailingComma(close)) break
      } else first = false

      var elt
      if (allowEmpty && this$1.type === tt.comma)
        elt = null
      else if (this$1.type === tt.ellipsis) {
        elt = this$1.parseSpread(refDestructuringErrors)
        if (this$1.type === tt.comma && refDestructuringErrors && !refDestructuringErrors.trailingComma) {
          refDestructuringErrors.trailingComma = this$1.lastTokStart
        }
      } else
        elt = this$1.parseMaybeAssign(false, refDestructuringErrors)
      elts.push(elt)
    }
    return elts
  }

  // Parse the next token as an identifier. If `liberal` is true (used
  // when parsing properties), it will also convert keywords into
  // identifiers.

  pp$3.parseIdent = function(liberal) {
    var node = this.startNode()
    if (liberal && this.options.allowReserved == "never") liberal = false
    if (this.type === tt.name) {
      if (!liberal && (this.strict ? this.reservedWordsStrict : this.reservedWords).test(this.value) &&
          (this.options.ecmaVersion >= 6 ||
           this.input.slice(this.start, this.end).indexOf("\\") == -1))
        this.raiseRecoverable(this.start, "The keyword '" + this.value + "' is reserved")
      if (!liberal && this.inGenerator && this.value === "yield")
        this.raiseRecoverable(this.start, "Can not use 'yield' as identifier inside a generator")
      node.name = this.value
    } else if (liberal && this.type.keyword) {
      node.name = this.type.keyword
    } else {
      this.unexpected()
    }
    this.next()
    return this.finishNode(node, "Identifier")
  }

  // Parses yield expression inside generator.

  pp$3.parseYield = function() {
    var node = this.startNode()
    this.next()
    if (this.type == tt.semi || this.canInsertSemicolon() || (this.type != tt.star && !this.type.startsExpr)) {
      node.delegate = false
      node.argument = null
    } else {
      node.delegate = this.eat(tt.star)
      node.argument = this.parseMaybeAssign()
    }
    return this.finishNode(node, "YieldExpression")
  }

  var pp$4 = Parser.prototype

  // This function is used to raise exceptions on parse errors. It
  // takes an offset integer (into the current `input`) to indicate
  // the location of the error, attaches the position to the end
  // of the error message, and then raises a `SyntaxError` with that
  // message.

  pp$4.raise = function(pos, message) {
    var loc = getLineInfo(this.input, pos)
    message += " (" + loc.line + ":" + loc.column + ")"
    var err = new SyntaxError(message)
    err.pos = pos; err.loc = loc; err.raisedAt = this.pos
    throw err
  }

  pp$4.raiseRecoverable = pp$4.raise

  pp$4.curPosition = function() {
    if (this.options.locations) {
      return new Position(this.curLine, this.pos - this.lineStart)
    }
  }

  var Node = function Node(parser, pos, loc) {
    this.type = ""
    this.start = pos
    this.end = 0
    if (parser.options.locations)
      this.loc = new SourceLocation(parser, loc)
    if (parser.options.directSourceFile)
      this.sourceFile = parser.options.directSourceFile
    if (parser.options.ranges)
      this.range = [pos, 0]
  };

  // Start an AST node, attaching a start offset.

  var pp$5 = Parser.prototype

  pp$5.startNode = function() {
    return new Node(this, this.start, this.startLoc)
  }

  pp$5.startNodeAt = function(pos, loc) {
    return new Node(this, pos, loc)
  }

  // Finish an AST node, adding `type` and `end` properties.

  function finishNodeAt(node, type, pos, loc) {
    node.type = type
    node.end = pos
    if (this.options.locations)
      node.loc.end = loc
    if (this.options.ranges)
      node.range[1] = pos
    return node
  }

  pp$5.finishNode = function(node, type) {
    return finishNodeAt.call(this, node, type, this.lastTokEnd, this.lastTokEndLoc)
  }

  // Finish node at given position

  pp$5.finishNodeAt = function(node, type, pos, loc) {
    return finishNodeAt.call(this, node, type, pos, loc)
  }

  var TokContext = function TokContext(token, isExpr, preserveSpace, override) {
    this.token = token
    this.isExpr = !!isExpr
    this.preserveSpace = !!preserveSpace
    this.override = override
  };

  var types = {
    b_stat: new TokContext("{", false),
    b_expr: new TokContext("{", true),
    b_tmpl: new TokContext("${", true),
    p_stat: new TokContext("(", false),
    p_expr: new TokContext("(", true),
    q_tmpl: new TokContext("`", true, true, function (p) { return p.readTmplToken(); }),
    f_expr: new TokContext("function", true)
  }

  var pp$6 = Parser.prototype

  pp$6.initialContext = function() {
    return [types.b_stat]
  }

  pp$6.braceIsBlock = function(prevType) {
    if (prevType === tt.colon) {
      var parent = this.curContext()
      if (parent === types.b_stat || parent === types.b_expr)
        return !parent.isExpr
    }
    if (prevType === tt._return)
      return lineBreak.test(this.input.slice(this.lastTokEnd, this.start))
    if (prevType === tt._else || prevType === tt.semi || prevType === tt.eof || prevType === tt.parenR)
      return true
    if (prevType == tt.braceL)
      return this.curContext() === types.b_stat
    return !this.exprAllowed
  }

  pp$6.updateContext = function(prevType) {
    var update, type = this.type
    if (type.keyword && prevType == tt.dot)
      this.exprAllowed = false
    else if (update = type.updateContext)
      update.call(this, prevType)
    else
      this.exprAllowed = type.beforeExpr
  }

  // Token-specific context update code

  tt.parenR.updateContext = tt.braceR.updateContext = function() {
    if (this.context.length == 1) {
      this.exprAllowed = true
      return
    }
    var out = this.context.pop()
    if (out === types.b_stat && this.curContext() === types.f_expr) {
      this.context.pop()
      this.exprAllowed = false
    } else if (out === types.b_tmpl) {
      this.exprAllowed = true
    } else {
      this.exprAllowed = !out.isExpr
    }
  }

  tt.braceL.updateContext = function(prevType) {
    this.context.push(this.braceIsBlock(prevType) ? types.b_stat : types.b_expr)
    this.exprAllowed = true
  }

  tt.dollarBraceL.updateContext = function() {
    this.context.push(types.b_tmpl)
    this.exprAllowed = true
  }

  tt.parenL.updateContext = function(prevType) {
    var statementParens = prevType === tt._if || prevType === tt._for || prevType === tt._with || prevType === tt._while
    this.context.push(statementParens ? types.p_stat : types.p_expr)
    this.exprAllowed = true
  }

  tt.incDec.updateContext = function() {
    // tokExprAllowed stays unchanged
  }

  tt._function.updateContext = function(prevType) {
    if (prevType.beforeExpr && prevType !== tt.semi && prevType !== tt._else &&
        !((prevType === tt.colon || prevType === tt.braceL) && this.curContext() === types.b_stat))
      this.context.push(types.f_expr)
    this.exprAllowed = false
  }

  tt.backQuote.updateContext = function() {
    if (this.curContext() === types.q_tmpl)
      this.context.pop()
    else
      this.context.push(types.q_tmpl)
    this.exprAllowed = false
  }

  // Object type used to represent tokens. Note that normally, tokens
  // simply exist as properties on the parser object. This is only
  // used for the onToken callback and the external tokenizer.

  var Token = function Token(p) {
    this.type = p.type
    this.value = p.value
    this.start = p.start
    this.end = p.end
    if (p.options.locations)
      this.loc = new SourceLocation(p, p.startLoc, p.endLoc)
    if (p.options.ranges)
      this.range = [p.start, p.end]
  };

  // ## Tokenizer

  var pp$7 = Parser.prototype

  // Are we running under Rhino?
  var isRhino = typeof Packages == "object" && Object.prototype.toString.call(Packages) == "[object JavaPackage]"

  // Move to the next token

  pp$7.next = function() {
    if (this.options.onToken)
      this.options.onToken(new Token(this))

    this.lastTokEnd = this.end
    this.lastTokStart = this.start
    this.lastTokEndLoc = this.endLoc
    this.lastTokStartLoc = this.startLoc
    this.nextToken()
  }

  pp$7.getToken = function() {
    this.next()
    return new Token(this)
  }

  // If we're in an ES6 environment, make parsers iterable
  if (typeof Symbol !== "undefined")
    pp$7[Symbol.iterator] = function () {
      var self = this
      return {next: function () {
        var token = self.getToken()
        return {
          done: token.type === tt.eof,
          value: token
        }
      }}
    }

  // Toggle strict mode. Re-reads the next number or string to please
  // pedantic tests (`"use strict"; 010;` should fail).

  pp$7.setStrict = function(strict) {
    var this$1 = this;

    this.strict = strict
    if (this.type !== tt.num && this.type !== tt.string) return
    this.pos = this.start
    if (this.options.locations) {
      while (this.pos < this.lineStart) {
        this$1.lineStart = this$1.input.lastIndexOf("\n", this$1.lineStart - 2) + 1
        --this$1.curLine
      }
    }
    this.nextToken()
  }

  pp$7.curContext = function() {
    return this.context[this.context.length - 1]
  }

  // Read a single token, updating the parser object's token-related
  // properties.

  pp$7.nextToken = function() {
    var curContext = this.curContext()
    if (!curContext || !curContext.preserveSpace) this.skipSpace()

    this.start = this.pos
    if (this.options.locations) this.startLoc = this.curPosition()
    if (this.pos >= this.input.length) return this.finishToken(tt.eof)

    if (curContext.override) return curContext.override(this)
    else this.readToken(this.fullCharCodeAtPos())
  }

  pp$7.readToken = function(code) {
    // Identifier or keyword. '\uXXXX' sequences are allowed in
    // identifiers, so '\' also dispatches to that.
    if (isIdentifierStart(code, this.options.ecmaVersion >= 6) || code === 92 /* '\' */)
      return this.readWord()

    return this.getTokenFromCode(code)
  }

  pp$7.fullCharCodeAtPos = function() {
    var code = this.input.charCodeAt(this.pos)
    if (code <= 0xd7ff || code >= 0xe000) return code
    var next = this.input.charCodeAt(this.pos + 1)
    return (code << 10) + next - 0x35fdc00
  }

  pp$7.skipBlockComment = function() {
    var this$1 = this;

    var startLoc = this.options.onComment && this.curPosition()
    var start = this.pos, end = this.input.indexOf("*/", this.pos += 2)
    if (end === -1) this.raise(this.pos - 2, "Unterminated comment")
    this.pos = end + 2
    if (this.options.locations) {
      lineBreakG.lastIndex = start
      var match
      while ((match = lineBreakG.exec(this.input)) && match.index < this.pos) {
        ++this$1.curLine
        this$1.lineStart = match.index + match[0].length
      }
    }
    if (this.options.onComment)
      this.options.onComment(true, this.input.slice(start + 2, end), start, this.pos,
                             startLoc, this.curPosition())
  }

  pp$7.skipLineComment = function(startSkip) {
    var this$1 = this;

    var start = this.pos
    var startLoc = this.options.onComment && this.curPosition()
    var ch = this.input.charCodeAt(this.pos+=startSkip)
    while (this.pos < this.input.length && ch !== 10 && ch !== 13 && ch !== 8232 && ch !== 8233) {
      ++this$1.pos
      ch = this$1.input.charCodeAt(this$1.pos)
    }
    if (this.options.onComment)
      this.options.onComment(false, this.input.slice(start + startSkip, this.pos), start, this.pos,
                             startLoc, this.curPosition())
  }

  // Called at the start of the parse and after every token. Skips
  // whitespace and comments, and.

  pp$7.skipSpace = function() {
    var this$1 = this;

    loop: while (this.pos < this.input.length) {
      var ch = this$1.input.charCodeAt(this$1.pos)
      switch (ch) {
        case 32: case 160: // ' '
          ++this$1.pos
          break
        case 13:
          if (this$1.input.charCodeAt(this$1.pos + 1) === 10) {
            ++this$1.pos
          }
        case 10: case 8232: case 8233:
          ++this$1.pos
          if (this$1.options.locations) {
            ++this$1.curLine
            this$1.lineStart = this$1.pos
          }
          break
        case 47: // '/'
          switch (this$1.input.charCodeAt(this$1.pos + 1)) {
            case 42: // '*'
              this$1.skipBlockComment()
              break
            case 47:
              this$1.skipLineComment(2)
              break
            default:
              break loop
          }
          break
        default:
          if (ch > 8 && ch < 14 || ch >= 5760 && nonASCIIwhitespace.test(String.fromCharCode(ch))) {
            ++this$1.pos
          } else {
            break loop
          }
      }
    }
  }

  // Called at the end of every token. Sets `end`, `val`, and
  // maintains `context` and `exprAllowed`, and skips the space after
  // the token, so that the next one's `start` will point at the
  // right position.

  pp$7.finishToken = function(type, val) {
    this.end = this.pos
    if (this.options.locations) this.endLoc = this.curPosition()
    var prevType = this.type
    this.type = type
    this.value = val

    this.updateContext(prevType)
  }

  // ### Token reading

  // This is the function that is called to fetch the next token. It
  // is somewhat obscure, because it works in character codes rather
  // than characters, and because operator parsing has been inlined
  // into it.
  //
  // All in the name of speed.
  //
  pp$7.readToken_dot = function() {
    var next = this.input.charCodeAt(this.pos + 1)
    if (next >= 48 && next <= 57) return this.readNumber(true)
    var next2 = this.input.charCodeAt(this.pos + 2)
    if (this.options.ecmaVersion >= 6 && next === 46 && next2 === 46) { // 46 = dot '.'
      this.pos += 3
      return this.finishToken(tt.ellipsis)
    } else {
      ++this.pos
      return this.finishToken(tt.dot)
    }
  }

  pp$7.readToken_slash = function() { // '/'
    var next = this.input.charCodeAt(this.pos + 1)
    if (this.exprAllowed) {++this.pos; return this.readRegexp()}
    if (next === 61) return this.finishOp(tt.assign, 2)
    return this.finishOp(tt.slash, 1)
  }

  pp$7.readToken_mult_modulo_exp = function(code) { // '%*'
    var next = this.input.charCodeAt(this.pos + 1)
    var size = 1
    var tokentype = code === 42 ? tt.star : tt.modulo

    // exponentiation operator ** and **=
    if (this.options.ecmaVersion >= 7 && next === 42) {
      ++size
      tokentype = tt.starstar
      next = this.input.charCodeAt(this.pos + 2)
    }

    if (next === 61) return this.finishOp(tt.assign, size + 1)
    return this.finishOp(tokentype, size)
  }

  pp$7.readToken_pipe_amp = function(code) { // '|&'
    var next = this.input.charCodeAt(this.pos + 1)
    if (next === code) return this.finishOp(code === 124 ? tt.logicalOR : tt.logicalAND, 2)
    if (next === 61) return this.finishOp(tt.assign, 2)
    return this.finishOp(code === 124 ? tt.bitwiseOR : tt.bitwiseAND, 1)
  }

  pp$7.readToken_caret = function() { // '^'
    var next = this.input.charCodeAt(this.pos + 1)
    if (next === 61) return this.finishOp(tt.assign, 2)
    return this.finishOp(tt.bitwiseXOR, 1)
  }

  pp$7.readToken_plus_min = function(code) { // '+-'
    var next = this.input.charCodeAt(this.pos + 1)
    if (next === code) {
      if (next == 45 && this.input.charCodeAt(this.pos + 2) == 62 &&
          lineBreak.test(this.input.slice(this.lastTokEnd, this.pos))) {
        // A `-->` line comment
        this.skipLineComment(3)
        this.skipSpace()
        return this.nextToken()
      }
      return this.finishOp(tt.incDec, 2)
    }
    if (next === 61) return this.finishOp(tt.assign, 2)
    return this.finishOp(tt.plusMin, 1)
  }

  pp$7.readToken_lt_gt = function(code) { // '<>'
    var next = this.input.charCodeAt(this.pos + 1)
    var size = 1
    if (next === code) {
      size = code === 62 && this.input.charCodeAt(this.pos + 2) === 62 ? 3 : 2
      if (this.input.charCodeAt(this.pos + size) === 61) return this.finishOp(tt.assign, size + 1)
      return this.finishOp(tt.bitShift, size)
    }
    if (next == 33 && code == 60 && this.input.charCodeAt(this.pos + 2) == 45 &&
        this.input.charCodeAt(this.pos + 3) == 45) {
      if (this.inModule) this.unexpected()
      // `<!--`, an XML-style comment that should be interpreted as a line comment
      this.skipLineComment(4)
      this.skipSpace()
      return this.nextToken()
    }
    if (next === 61) size = 2
    return this.finishOp(tt.relational, size)
  }

  pp$7.readToken_eq_excl = function(code) { // '=!'
    var next = this.input.charCodeAt(this.pos + 1)
    if (next === 61) return this.finishOp(tt.equality, this.input.charCodeAt(this.pos + 2) === 61 ? 3 : 2)
    if (code === 61 && next === 62 && this.options.ecmaVersion >= 6) { // '=>'
      this.pos += 2
      return this.finishToken(tt.arrow)
    }
    return this.finishOp(code === 61 ? tt.eq : tt.prefix, 1)
  }

  pp$7.getTokenFromCode = function(code) {
    switch (code) {
      // The interpretation of a dot depends on whether it is followed
      // by a digit or another two dots.
    case 46: // '.'
      return this.readToken_dot()

      // Punctuation tokens.
    case 40: ++this.pos; return this.finishToken(tt.parenL)
    case 41: ++this.pos; return this.finishToken(tt.parenR)
    case 59: ++this.pos; return this.finishToken(tt.semi)
    case 44: ++this.pos; return this.finishToken(tt.comma)
    case 91: ++this.pos; return this.finishToken(tt.bracketL)
    case 93: ++this.pos; return this.finishToken(tt.bracketR)
    case 123: ++this.pos; return this.finishToken(tt.braceL)
    case 125: ++this.pos; return this.finishToken(tt.braceR)
    case 58: ++this.pos; return this.finishToken(tt.colon)
    case 63: ++this.pos; return this.finishToken(tt.question)

    case 96: // '`'
      if (this.options.ecmaVersion < 6) break
      ++this.pos
      return this.finishToken(tt.backQuote)

    case 48: // '0'
      var next = this.input.charCodeAt(this.pos + 1)
      if (next === 120 || next === 88) return this.readRadixNumber(16) // '0x', '0X' - hex number
      if (this.options.ecmaVersion >= 6) {
        if (next === 111 || next === 79) return this.readRadixNumber(8) // '0o', '0O' - octal number
        if (next === 98 || next === 66) return this.readRadixNumber(2) // '0b', '0B' - binary number
      }
      // Anything else beginning with a digit is an integer, octal
      // number, or float.
    case 49: case 50: case 51: case 52: case 53: case 54: case 55: case 56: case 57: // 1-9
      return this.readNumber(false)

      // Quotes produce strings.
    case 34: case 39: // '"', "'"
      return this.readString(code)

      // Operators are parsed inline in tiny state machines. '=' (61) is
      // often referred to. `finishOp` simply skips the amount of
      // characters it is given as second argument, and returns a token
      // of the type given by its first argument.

    case 47: // '/'
      return this.readToken_slash()

    case 37: case 42: // '%*'
      return this.readToken_mult_modulo_exp(code)

    case 124: case 38: // '|&'
      return this.readToken_pipe_amp(code)

    case 94: // '^'
      return this.readToken_caret()

    case 43: case 45: // '+-'
      return this.readToken_plus_min(code)

    case 60: case 62: // '<>'
      return this.readToken_lt_gt(code)

    case 61: case 33: // '=!'
      return this.readToken_eq_excl(code)

    case 126: // '~'
      return this.finishOp(tt.prefix, 1)
    }

    this.raise(this.pos, "Unexpected character '" + codePointToString(code) + "'")
  }

  pp$7.finishOp = function(type, size) {
    var str = this.input.slice(this.pos, this.pos + size)
    this.pos += size
    return this.finishToken(type, str)
  }

  // Parse a regular expression. Some context-awareness is necessary,
  // since a '/' inside a '[]' set does not end the expression.

  function tryCreateRegexp(src, flags, throwErrorAt, parser) {
    try {
      return new RegExp(src, flags)
    } catch (e) {
      if (throwErrorAt !== undefined) {
        if (e instanceof SyntaxError) parser.raise(throwErrorAt, "Error parsing regular expression: " + e.message)
        throw e
      }
    }
  }

  var regexpUnicodeSupport = !!tryCreateRegexp("\uffff", "u")

  pp$7.readRegexp = function() {
    var this$1 = this;

    var escaped, inClass, start = this.pos
    for (;;) {
      if (this$1.pos >= this$1.input.length) this$1.raise(start, "Unterminated regular expression")
      var ch = this$1.input.charAt(this$1.pos)
      if (lineBreak.test(ch)) this$1.raise(start, "Unterminated regular expression")
      if (!escaped) {
        if (ch === "[") inClass = true
        else if (ch === "]" && inClass) inClass = false
        else if (ch === "/" && !inClass) break
        escaped = ch === "\\"
      } else escaped = false
      ++this$1.pos
    }
    var content = this.input.slice(start, this.pos)
    ++this.pos
    // Need to use `readWord1` because '\uXXXX' sequences are allowed
    // here (don't ask).
    var mods = this.readWord1()
    var tmp = content, tmpFlags = ""
    if (mods) {
      var validFlags = /^[gim]*$/
      if (this.options.ecmaVersion >= 6) validFlags = /^[gimuy]*$/
      if (!validFlags.test(mods)) this.raise(start, "Invalid regular expression flag")
      if (mods.indexOf("u") >= 0) {
        if (regexpUnicodeSupport) {
          tmpFlags = "u"
        } else {
          // Replace each astral symbol and every Unicode escape sequence that
          // possibly represents an astral symbol or a paired surrogate with a
          // single ASCII symbol to avoid throwing on regular expressions that
          // are only valid in combination with the `/u` flag.
          // Note: replacing with the ASCII symbol `x` might cause false
          // negatives in unlikely scenarios. For example, `[\u{61}-b]` is a
          // perfectly valid pattern that is equivalent to `[a-b]`, but it would
          // be replaced by `[x-b]` which throws an error.
          tmp = tmp.replace(/\\u\{([0-9a-fA-F]+)\}/g, function (_match, code, offset) {
            code = Number("0x" + code)
            if (code > 0x10FFFF) this$1.raise(start + offset + 3, "Code point out of bounds")
            return "x"
          })
          tmp = tmp.replace(/\\u([a-fA-F0-9]{4})|[\uD800-\uDBFF][\uDC00-\uDFFF]/g, "x")
          tmpFlags = tmpFlags.replace("u", "")
        }
      }
    }
    // Detect invalid regular expressions.
    var value = null
    // Rhino's regular expression parser is flaky and throws uncatchable exceptions,
    // so don't do detection if we are running under Rhino
    if (!isRhino) {
      tryCreateRegexp(tmp, tmpFlags, start, this)
      // Get a regular expression object for this pattern-flag pair, or `null` in
      // case the current environment doesn't support the flags it uses.
      value = tryCreateRegexp(content, mods)
    }
    return this.finishToken(tt.regexp, {pattern: content, flags: mods, value: value})
  }

  // Read an integer in the given radix. Return null if zero digits
  // were read, the integer value otherwise. When `len` is given, this
  // will return `null` unless the integer has exactly `len` digits.

  pp$7.readInt = function(radix, len) {
    var this$1 = this;

    var start = this.pos, total = 0
    for (var i = 0, e = len == null ? Infinity : len; i < e; ++i) {
      var code = this$1.input.charCodeAt(this$1.pos), val
      if (code >= 97) val = code - 97 + 10 // a
      else if (code >= 65) val = code - 65 + 10 // A
      else if (code >= 48 && code <= 57) val = code - 48 // 0-9
      else val = Infinity
      if (val >= radix) break
      ++this$1.pos
      total = total * radix + val
    }
    if (this.pos === start || len != null && this.pos - start !== len) return null

    return total
  }

  pp$7.readRadixNumber = function(radix) {
    this.pos += 2 // 0x
    var val = this.readInt(radix)
    if (val == null) this.raise(this.start + 2, "Expected number in radix " + radix)
    if (isIdentifierStart(this.fullCharCodeAtPos())) this.raise(this.pos, "Identifier directly after number")
    return this.finishToken(tt.num, val)
  }

  // Read an integer, octal integer, or floating-point number.

  pp$7.readNumber = function(startsWithDot) {
    var start = this.pos, isFloat = false, octal = this.input.charCodeAt(this.pos) === 48
    if (!startsWithDot && this.readInt(10) === null) this.raise(start, "Invalid number")
    var next = this.input.charCodeAt(this.pos)
    if (next === 46) { // '.'
      ++this.pos
      this.readInt(10)
      isFloat = true
      next = this.input.charCodeAt(this.pos)
    }
    if (next === 69 || next === 101) { // 'eE'
      next = this.input.charCodeAt(++this.pos)
      if (next === 43 || next === 45) ++this.pos // '+-'
      if (this.readInt(10) === null) this.raise(start, "Invalid number")
      isFloat = true
    }
    if (isIdentifierStart(this.fullCharCodeAtPos())) this.raise(this.pos, "Identifier directly after number")

    var str = this.input.slice(start, this.pos), val
    if (isFloat) val = parseFloat(str)
    else if (!octal || str.length === 1) val = parseInt(str, 10)
    else if (/[89]/.test(str) || this.strict) this.raise(start, "Invalid number")
    else val = parseInt(str, 8)
    return this.finishToken(tt.num, val)
  }

  // Read a string value, interpreting backslash-escapes.

  pp$7.readCodePoint = function() {
    var ch = this.input.charCodeAt(this.pos), code

    if (ch === 123) {
      if (this.options.ecmaVersion < 6) this.unexpected()
      var codePos = ++this.pos
      code = this.readHexChar(this.input.indexOf('}', this.pos) - this.pos)
      ++this.pos
      if (code > 0x10FFFF) this.raise(codePos, "Code point out of bounds")
    } else {
      code = this.readHexChar(4)
    }
    return code
  }

  function codePointToString(code) {
    // UTF-16 Decoding
    if (code <= 0xFFFF) return String.fromCharCode(code)
    code -= 0x10000
    return String.fromCharCode((code >> 10) + 0xD800, (code & 1023) + 0xDC00)
  }

  pp$7.readString = function(quote) {
    var this$1 = this;

    var out = "", chunkStart = ++this.pos
    for (;;) {
      if (this$1.pos >= this$1.input.length) this$1.raise(this$1.start, "Unterminated string constant")
      var ch = this$1.input.charCodeAt(this$1.pos)
      if (ch === quote) break
      if (ch === 92) { // '\'
        out += this$1.input.slice(chunkStart, this$1.pos)
        out += this$1.readEscapedChar(false)
        chunkStart = this$1.pos
      } else {
        if (isNewLine(ch)) this$1.raise(this$1.start, "Unterminated string constant")
        ++this$1.pos
      }
    }
    out += this.input.slice(chunkStart, this.pos++)
    return this.finishToken(tt.string, out)
  }

  // Reads template string tokens.

  pp$7.readTmplToken = function() {
    var this$1 = this;

    var out = "", chunkStart = this.pos
    for (;;) {
      if (this$1.pos >= this$1.input.length) this$1.raise(this$1.start, "Unterminated template")
      var ch = this$1.input.charCodeAt(this$1.pos)
      if (ch === 96 || ch === 36 && this$1.input.charCodeAt(this$1.pos + 1) === 123) { // '`', '${'
        if (this$1.pos === this$1.start && this$1.type === tt.template) {
          if (ch === 36) {
            this$1.pos += 2
            return this$1.finishToken(tt.dollarBraceL)
          } else {
            ++this$1.pos
            return this$1.finishToken(tt.backQuote)
          }
        }
        out += this$1.input.slice(chunkStart, this$1.pos)
        return this$1.finishToken(tt.template, out)
      }
      if (ch === 92) { // '\'
        out += this$1.input.slice(chunkStart, this$1.pos)
        out += this$1.readEscapedChar(true)
        chunkStart = this$1.pos
      } else if (isNewLine(ch)) {
        out += this$1.input.slice(chunkStart, this$1.pos)
        ++this$1.pos
        switch (ch) {
          case 13:
            if (this$1.input.charCodeAt(this$1.pos) === 10) ++this$1.pos
          case 10:
            out += "\n"
            break
          default:
            out += String.fromCharCode(ch)
            break
        }
        if (this$1.options.locations) {
          ++this$1.curLine
          this$1.lineStart = this$1.pos
        }
        chunkStart = this$1.pos
      } else {
        ++this$1.pos
      }
    }
  }

  // Used to read escaped characters

  pp$7.readEscapedChar = function(inTemplate) {
    var ch = this.input.charCodeAt(++this.pos)
    ++this.pos
    switch (ch) {
    case 110: return "\n" // 'n' -> '\n'
    case 114: return "\r" // 'r' -> '\r'
    case 120: return String.fromCharCode(this.readHexChar(2)) // 'x'
    case 117: return codePointToString(this.readCodePoint()) // 'u'
    case 116: return "\t" // 't' -> '\t'
    case 98: return "\b" // 'b' -> '\b'
    case 118: return "\u000b" // 'v' -> '\u000b'
    case 102: return "\f" // 'f' -> '\f'
    case 13: if (this.input.charCodeAt(this.pos) === 10) ++this.pos // '\r\n'
    case 10: // ' \n'
      if (this.options.locations) { this.lineStart = this.pos; ++this.curLine }
      return ""
    default:
      if (ch >= 48 && ch <= 55) {
        var octalStr = this.input.substr(this.pos - 1, 3).match(/^[0-7]+/)[0]
        var octal = parseInt(octalStr, 8)
        if (octal > 255) {
          octalStr = octalStr.slice(0, -1)
          octal = parseInt(octalStr, 8)
        }
        if (octalStr !== "0" && (this.strict || inTemplate)) {
          this.raise(this.pos - 2, "Octal literal in strict mode")
        }
        this.pos += octalStr.length - 1
        return String.fromCharCode(octal)
      }
      return String.fromCharCode(ch)
    }
  }

  // Used to read character escape sequences ('\x', '\u', '\U').

  pp$7.readHexChar = function(len) {
    var codePos = this.pos
    var n = this.readInt(16, len)
    if (n === null) this.raise(codePos, "Bad character escape sequence")
    return n
  }

  // Read an identifier, and return it as a string. Sets `this.containsEsc`
  // to whether the word contained a '\u' escape.
  //
  // Incrementally adds only escaped chars, adding other chunks as-is
  // as a micro-optimization.

  pp$7.readWord1 = function() {
    var this$1 = this;

    this.containsEsc = false
    var word = "", first = true, chunkStart = this.pos
    var astral = this.options.ecmaVersion >= 6
    while (this.pos < this.input.length) {
      var ch = this$1.fullCharCodeAtPos()
      if (isIdentifierChar(ch, astral)) {
        this$1.pos += ch <= 0xffff ? 1 : 2
      } else if (ch === 92) { // "\"
        this$1.containsEsc = true
        word += this$1.input.slice(chunkStart, this$1.pos)
        var escStart = this$1.pos
        if (this$1.input.charCodeAt(++this$1.pos) != 117) // "u"
          this$1.raise(this$1.pos, "Expecting Unicode escape sequence \\uXXXX")
        ++this$1.pos
        var esc = this$1.readCodePoint()
        if (!(first ? isIdentifierStart : isIdentifierChar)(esc, astral))
          this$1.raise(escStart, "Invalid Unicode escape")
        word += codePointToString(esc)
        chunkStart = this$1.pos
      } else {
        break
      }
      first = false
    }
    return word + this.input.slice(chunkStart, this.pos)
  }

  // Read an identifier or keyword token. Will check for reserved
  // words when necessary.

  pp$7.readWord = function() {
    var word = this.readWord1()
    var type = tt.name
    if ((this.options.ecmaVersion >= 6 || !this.containsEsc) && this.keywords.test(word))
      type = keywordTypes[word]
    return this.finishToken(type, word)
  }

  var version = "3.3.0"

  // The main exported interface (under `self.acorn` when in the
  // browser) is a `parse` function that takes a code string and
  // returns an abstract syntax tree as specified by [Mozilla parser
  // API][api].
  //
  // [api]: https://developer.mozilla.org/en-US/docs/SpiderMonkey/Parser_API

  function parse(input, options) {
    return new Parser(options, input).parse()
  }

  // This function tries to parse a single expression at a given
  // offset in a string. Useful for parsing mixed-language formats
  // that embed JavaScript expressions.

  function parseExpressionAt(input, pos, options) {
    var p = new Parser(options, input, pos)
    p.nextToken()
    return p.parseExpression()
  }

  // Acorn is organized as a tokenizer and a recursive-descent parser.
  // The `tokenizer` export provides an interface to the tokenizer.

  function tokenizer(input, options) {
    return new Parser(options, input)
  }

  exports.version = version;
  exports.parse = parse;
  exports.parseExpressionAt = parseExpressionAt;
  exports.tokenizer = tokenizer;
  exports.Parser = Parser;
  exports.plugins = plugins;
  exports.defaultOptions = defaultOptions;
  exports.Position = Position;
  exports.SourceLocation = SourceLocation;
  exports.getLineInfo = getLineInfo;
  exports.Node = Node;
  exports.TokenType = TokenType;
  exports.tokTypes = tt;
  exports.TokContext = TokContext;
  exports.tokContexts = types;
  exports.isIdentifierChar = isIdentifierChar;
  exports.isIdentifierStart = isIdentifierStart;
  exports.Token = Token;
  exports.isNewLine = isNewLine;
  exports.lineBreak = lineBreak;
  exports.lineBreakG = lineBreakG;

  Object.defineProperty(exports, '__esModule', { value: true });

}));