// 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", 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" }; var keywordRelationalOperator = /^in(stanceof)?$/; // ## 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\u0560-\u0588\u05d0-\u05ea\u05ef-\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\u0860-\u086a\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\u09fc\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-\u1878\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\u1c90-\u1cba\u1cbd-\u1cbf\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-\u312f\u3131-\u318e\u31a0-\u31ba\u31f0-\u31ff\u3400-\u4db5\u4e00-\u9fef\ua000-\ua48c\ua4d0-\ua4fd\ua500-\ua60c\ua610-\ua61f\ua62a\ua62b\ua640-\ua66e\ua67f-\ua69d\ua6a0-\ua6ef\ua717-\ua71f\ua722-\ua788\ua78b-\ua7b9\ua7f7-\ua801\ua803-\ua805\ua807-\ua80a\ua80c-\ua822\ua840-\ua873\ua882-\ua8b3\ua8f2-\ua8f7\ua8fb\ua8fd\ua8fe\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\u07fd\u0816-\u0819\u081b-\u0823\u0825-\u0827\u0829-\u082d\u0859-\u085b\u08d3-\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\u09fe\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\u0afa-\u0aff\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-\u0c04\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\u0d00-\u0d03\u0d3b\u0d3c\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\u1cf7-\u1cf9\u1dc0-\u1df9\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\ua8ff-\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 // eslint-disable-next-line comma-spacing var astralIdentifierStartCodes = [0,11,2,25,2,18,2,1,2,14,3,13,35,122,70,52,268,28,4,48,48,31,14,29,6,37,11,29,3,35,5,7,2,4,43,157,19,35,5,35,5,39,9,51,157,310,10,21,11,7,153,5,3,0,2,43,2,1,4,0,3,22,11,22,10,30,66,18,2,1,11,21,11,25,71,55,7,1,65,0,16,3,2,2,2,28,43,28,4,28,36,7,2,27,28,53,11,21,11,18,14,17,111,72,56,50,14,50,14,35,477,28,11,0,9,21,190,52,76,44,33,24,27,35,30,0,12,34,4,0,13,47,15,3,22,0,2,0,36,17,2,24,85,6,2,0,2,3,2,14,2,9,8,46,39,7,3,1,3,21,2,6,2,1,2,4,4,0,19,0,13,4,159,52,19,3,54,47,21,1,2,0,185,46,42,3,37,47,21,0,60,42,86,26,230,43,117,63,32,0,257,0,11,39,8,0,22,0,12,39,3,3,20,0,35,56,264,8,2,36,18,0,50,29,113,6,2,1,2,37,22,0,26,5,2,1,2,31,15,0,328,18,270,921,103,110,18,195,2749,1070,4050,582,8634,568,8,30,114,29,19,47,17,3,32,20,6,18,689,63,129,68,12,0,67,12,65,1,31,6129,15,754,9486,286,82,395,2309,106,6,12,4,8,8,9,5991,84,2,70,2,1,3,0,3,1,3,3,2,11,2,0,2,6,2,64,2,3,3,7,2,6,2,27,2,3,2,4,2,0,4,6,2,339,3,24,2,24,2,30,2,24,2,30,2,24,2,30,2,24,2,30,2,24,2,7,4149,196,60,67,1213,3,2,26,2,1,2,0,3,0,2,9,2,3,2,0,2,0,7,0,5,0,2,0,2,0,2,2,2,1,2,0,3,0,2,0,2,0,2,0,2,0,2,1,2,0,3,3,2,6,2,3,2,3,2,0,2,9,2,16,6,2,2,4,2,16,4421,42710,42,4148,12,221,3,5761,15,7472,3104,541]; // eslint-disable-next-line comma-spacing var astralIdentifierCodes = [509,0,227,0,150,4,294,9,1368,2,2,1,6,3,41,2,5,0,166,1,574,3,9,9,525,10,176,2,54,14,32,9,16,3,46,10,54,9,7,2,37,13,2,9,6,1,45,0,13,2,49,13,9,3,4,9,83,11,7,0,161,11,6,9,7,3,56,1,2,6,3,1,3,2,10,0,11,1,3,6,4,4,193,17,10,9,5,0,82,19,13,9,214,6,3,8,28,1,83,16,16,9,82,12,9,9,84,14,5,9,243,14,166,9,280,9,41,6,2,3,9,0,10,10,47,15,406,7,2,7,17,9,57,21,2,13,123,5,4,0,2,1,2,6,2,0,9,9,49,4,2,1,2,4,9,9,330,3,19306,9,135,4,60,6,26,9,1016,45,17,3,19723,1,5319,4,4,5,9,7,3,6,31,3,149,2,1418,49,513,54,5,49,9,0,15,0,23,4,2,14,1361,6,2,16,3,6,2,1,2,4,2214,6,110,6,6,9,792487,239]; // 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 keywords$1 = {}; // Succinct definitions of keyword token types function kw(name, options) { if ( options === void 0 ) options = {}; options.keyword = name; return keywords$1[name] = new TokenType(name, options) } var types = { num: new TokenType("num", startsExpr), regexp: new TokenType("regexp", startsExpr), string: new TokenType("string", startsExpr), name: new TokenType("name", startsExpr), eof: new TokenType("eof"), // Punctuation token types. bracketL: new TokenType("[", {beforeExpr: true, startsExpr: true}), bracketR: new TokenType("]"), braceL: new TokenType("{", {beforeExpr: true, startsExpr: true}), braceR: new TokenType("}"), parenL: new TokenType("(", {beforeExpr: true, startsExpr: true}), parenR: new TokenType(")"), comma: new TokenType(",", beforeExpr), semi: new TokenType(";", beforeExpr), colon: new TokenType(":", beforeExpr), dot: new TokenType("."), question: new TokenType("?", beforeExpr), arrow: new TokenType("=>", beforeExpr), template: new TokenType("template"), invalidTemplate: new TokenType("invalidTemplate"), ellipsis: new TokenType("...", beforeExpr), backQuote: new TokenType("`", startsExpr), dollarBraceL: new TokenType("${", {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("!/~", {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", startsExpr), _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, ecma2019String) { return code === 10 || code === 13 || (!ecma2019String && (code === 0x2028 || code === 0x2029)) } var nonASCIIwhitespace = /[\u1680\u180e\u2000-\u200a\u202f\u205f\u3000\ufeff]/; var skipWhiteSpace = /(?:\s|\/\/.*|\/\*[^]*?\*\/)*/g; var ref = Object.prototype; var hasOwnProperty = ref.hasOwnProperty; var toString = ref.toString; // Checks if an object has a property. function has(obj, propName) { return hasOwnProperty.call(obj, propName) } var isArray = Array.isArray || (function (obj) { return ( toString.call(obj) === "[object Array]" ); }); // 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, 5, 6 (2015), 7 (2016), 8 (2017), 9 (2018), or 10 // (2019). This influences support for strict mode, the set of // reserved words, and support for new syntax features. The default // is 9. ecmaVersion: 9, // `sourceType` indicates the mode the code should be parsed in. // Can be either `"script"` or `"module"`. This influences global // strict mode and parsing of `import` and `export` declarations. 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, await identifiers are allowed to appear at the top-level scope, // but they are still not allowed in non-async functions. allowAwaitOutsideFunction: 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 }; // 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.ecmaVersion >= 2015) { options.ecmaVersion -= 2009; } 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); } } // Each scope gets a bitset that may contain these flags var SCOPE_TOP = 1; var SCOPE_FUNCTION = 2; var SCOPE_VAR = SCOPE_TOP | SCOPE_FUNCTION; var SCOPE_ASYNC = 4; var SCOPE_GENERATOR = 8; var SCOPE_ARROW = 16; var SCOPE_SIMPLE_CATCH = 32; var SCOPE_SUPER = 64; var SCOPE_DIRECT_SUPER = 128; function functionFlags(async, generator) { return SCOPE_FUNCTION | (async ? SCOPE_ASYNC : 0) | (generator ? SCOPE_GENERATOR : 0) } // Used in checkLVal and declareName to determine the type of a binding var BIND_NONE = 0; var BIND_VAR = 1; var BIND_LEXICAL = 2; var BIND_FUNCTION = 3; var BIND_SIMPLE_CATCH = 4; var BIND_OUTSIDE = 5; // Special case for function names as bound inside the function 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 = ""; if (!options.allowReserved) { for (var v = options.ecmaVersion;; v--) { if (reserved = reservedWords[v]) { break } } if (options.sourceType === "module") { reserved += " 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; // Set up token state // The current position of the tokenizer in the input. if (startPos) { this.pos = startPos; this.lineStart = this.input.lastIndexOf("\n", startPos - 1) + 1; 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 = types.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.inModule = options.sourceType === "module"; this.strict = this.inModule || this.strictDirective(this.pos); // Used to signify the start of a potential arrow function this.potentialArrowAt = -1; // Positions to delayed-check that yield/await does not exist in default parameters. this.yieldPos = this.awaitPos = 0; // 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); } // Scope tracking for duplicate variable names (see scope.js) this.scopeStack = []; this.enterScope(SCOPE_TOP); // For RegExp validation this.regexpState = null; }; var prototypeAccessors = { inFunction: { configurable: true },inGenerator: { configurable: true },inAsync: { configurable: true },allowSuper: { configurable: true },allowDirectSuper: { configurable: true } }; Parser.prototype.parse = function parse () { var node = this.options.program || this.startNode(); this.nextToken(); return this.parseTopLevel(node) }; prototypeAccessors.inFunction.get = function () { return (this.currentVarScope().flags & SCOPE_FUNCTION) > 0 }; prototypeAccessors.inGenerator.get = function () { return (this.currentVarScope().flags & SCOPE_GENERATOR) > 0 }; prototypeAccessors.inAsync.get = function () { return (this.currentVarScope().flags & SCOPE_ASYNC) > 0 }; prototypeAccessors.allowSuper.get = function () { return (this.currentThisScope().flags & SCOPE_SUPER) > 0 }; prototypeAccessors.allowDirectSuper.get = function () { return (this.currentThisScope().flags & SCOPE_DIRECT_SUPER) > 0 }; // Switch to a getter for 7.0.0. Parser.prototype.inNonArrowFunction = function inNonArrowFunction () { return (this.currentThisScope().flags & SCOPE_FUNCTION) > 0 }; Parser.extend = function extend () { var plugins = [], len = arguments.length; while ( len-- ) plugins[ len ] = arguments[ len ]; var cls = this; for (var i = 0; i < plugins.length; i++) { cls = plugins[i](cls); } return cls }; Parser.parse = function parse (input, options) { return new this(options, input).parse() }; Parser.parseExpressionAt = function parseExpressionAt (input, pos, options) { var parser = new this(options, input, pos); parser.nextToken(); return parser.parseExpression() }; Parser.tokenizer = function tokenizer (input, options) { return new this(options, input) }; Object.defineProperties( Parser.prototype, prototypeAccessors ); var pp = Parser.prototype; // ## Parser utilities var literal = /^(?:'((?:\\.|[^'])*?)'|"((?:\\.|[^"])*?)"|;)/; pp.strictDirective = function(start) { var this$1 = this; for (;;) { skipWhiteSpace.lastIndex = start; start += skipWhiteSpace.exec(this$1.input)[0].length; var match = literal.exec(this$1.input.slice(start)); if (!match) { return false } if ((match[1] || match[2]) === "use strict") { return true } start += match[0].length; } }; // 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 === types.name && this.value === name && !this.containsEsc }; // Consumes contextual keyword if possible. pp.eatContextual = function(name) { if (!this.isContextual(name)) { return false } this.next(); return true }; // 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 === types.eof || this.type === types.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(types.semi) && !this.insertSemicolon()) { this.unexpected(); } }; pp.afterTrailingComma = function(tokType, notNext) { if (this.type === tokType) { if (this.options.onTrailingComma) { this.options.onTrailingComma(this.lastTokStart, this.lastTokStartLoc); } if (!notNext) { 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"); }; function DestructuringErrors() { this.shorthandAssign = this.trailingComma = this.parenthesizedAssign = this.parenthesizedBind = this.doubleProto = -1; } pp.checkPatternErrors = function(refDestructuringErrors, isAssign) { if (!refDestructuringErrors) { return } if (refDestructuringErrors.trailingComma > -1) { this.raiseRecoverable(refDestructuringErrors.trailingComma, "Comma is not permitted after the rest element"); } var parens = isAssign ? refDestructuringErrors.parenthesizedAssign : refDestructuringErrors.parenthesizedBind; if (parens > -1) { this.raiseRecoverable(parens, "Parenthesized pattern"); } }; pp.checkExpressionErrors = function(refDestructuringErrors, andThrow) { if (!refDestructuringErrors) { return false } var shorthandAssign = refDestructuringErrors.shorthandAssign; var doubleProto = refDestructuringErrors.doubleProto; if (!andThrow) { return shorthandAssign >= 0 || doubleProto >= 0 } if (shorthandAssign >= 0) { this.raise(shorthandAssign, "Shorthand property assignments are valid only in destructuring patterns"); } if (doubleProto >= 0) { this.raiseRecoverable(doubleProto, "Redefinition of __proto__ property"); } }; pp.checkYieldAwaitInDefaultParams = function() { if (this.yieldPos && (!this.awaitPos || this.yieldPos < this.awaitPos)) { this.raise(this.yieldPos, "Yield expression cannot be a default value"); } if (this.awaitPos) { this.raise(this.awaitPos, "Await expression cannot be a default value"); } }; pp.isSimpleAssignTarget = function(expr) { if (expr.type === "ParenthesizedExpression") { return this.isSimpleAssignTarget(expr.expression) } return expr.type === "Identifier" || expr.type === "MemberExpression" }; 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 exports = {}; if (!node.body) { node.body = []; } while (this.type !== types.eof) { var stmt = this$1.parseStatement(null, true, exports); node.body.push(stmt); } this.adaptDirectivePrologue(node.body); 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.options.ecmaVersion < 6 || !this.isContextual("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)) { var pos = next + 1; while (isIdentifierChar(this.input.charCodeAt(pos), true)) { ++pos; } var ident = this.input.slice(next, pos); if (!keywordRelationalOperator.test(ident)) { return true } } return false }; // check 'async [no LineTerminator here] function' // - 'async /*foo*/ function' is OK. // - 'async /*\n*/ function' is invalid. pp$1.isAsyncFunction = function() { if (this.options.ecmaVersion < 8 || !this.isContextual("async")) { return false } skipWhiteSpace.lastIndex = this.pos; var skip = skipWhiteSpace.exec(this.input); var next = this.pos + skip[0].length; return !lineBreak.test(this.input.slice(this.pos, next)) && this.input.slice(next, next + 8) === "function" && (next + 8 === this.input.length || !isIdentifierChar(this.input.charAt(next + 8))) }; // 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(context, topLevel, exports) { var starttype = this.type, node = this.startNode(), kind; if (this.isLet()) { starttype = types._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 types._break: case types._continue: return this.parseBreakContinueStatement(node, starttype.keyword) case types._debugger: return this.parseDebuggerStatement(node) case types._do: return this.parseDoStatement(node) case types._for: return this.parseForStatement(node) case types._function: if ((context && (this.strict || context !== "if")) && this.options.ecmaVersion >= 6) { this.unexpected(); } return this.parseFunctionStatement(node, false, !context) case types._class: if (context) { this.unexpected(); } return this.parseClass(node, true) case types._if: return this.parseIfStatement(node) case types._return: return this.parseReturnStatement(node) case types._switch: return this.parseSwitchStatement(node) case types._throw: return this.parseThrowStatement(node) case types._try: return this.parseTryStatement(node) case types._const: case types._var: kind = kind || this.value; if (context && kind !== "var") { this.unexpected(); } return this.parseVarStatement(node, kind) case types._while: return this.parseWhileStatement(node) case types._with: return this.parseWithStatement(node) case types.braceL: return this.parseBlock(true, node) case types.semi: return this.parseEmptyStatement(node) case types._export: case types._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 === types._import ? this.parseImport(node) : this.parseExport(node, exports) // 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: if (this.isAsyncFunction()) { if (context) { this.unexpected(); } this.next(); return this.parseFunctionStatement(node, true, !context) } var maybeName = this.value, expr = this.parseExpression(); if (starttype === types.name && expr.type === "Identifier" && this.eat(types.colon)) { return this.parseLabeledStatement(node, maybeName, expr, context) } 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(types.semi) || this.insertSemicolon()) { node.label = null; } else if (this.type !== types.name) { this.unexpected(); } else { node.label = this.parseIdent(); this.semicolon(); } // Verify that there is an actual destination to break or // continue to. var i = 0; for (; 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("do"); this.labels.pop(); this.expect(types._while); node.test = this.parseParenExpression(); if (this.options.ecmaVersion >= 6) { this.eat(types.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(); var awaitAt = (this.options.ecmaVersion >= 9 && (this.inAsync || (!this.inFunction && this.options.allowAwaitOutsideFunction)) && this.eatContextual("await")) ? this.lastTokStart : -1; this.labels.push(loopLabel); this.enterScope(0); this.expect(types.parenL); if (this.type === types.semi) { if (awaitAt > -1) { this.unexpected(awaitAt); } return this.parseFor(node, null) } var isLet = this.isLet(); if (this.type === types._var || this.type === types._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 === types._in || (this.options.ecmaVersion >= 6 && this.isContextual("of"))) && init$1.declarations.length === 1 && !(kind !== "var" && init$1.declarations[0].init)) { if (this.options.ecmaVersion >= 9) { if (this.type === types._in) { if (awaitAt > -1) { this.unexpected(awaitAt); } } else { node.await = awaitAt > -1; } } return this.parseForIn(node, init$1) } if (awaitAt > -1) { this.unexpected(awaitAt); } return this.parseFor(node, init$1) } var refDestructuringErrors = new DestructuringErrors; var init = this.parseExpression(true, refDestructuringErrors); if (this.type === types._in || (this.options.ecmaVersion >= 6 && this.isContextual("of"))) { if (this.options.ecmaVersion >= 9) { if (this.type === types._in) { if (awaitAt > -1) { this.unexpected(awaitAt); } } else { node.await = awaitAt > -1; } } this.toAssignable(init, false, refDestructuringErrors); this.checkLVal(init); return this.parseForIn(node, init) } else { this.checkExpressionErrors(refDestructuringErrors, true); } if (awaitAt > -1) { this.unexpected(awaitAt); } return this.parseFor(node, init) }; pp$1.parseFunctionStatement = function(node, isAsync, declarationPosition) { this.next(); return this.parseFunction(node, FUNC_STATEMENT | (declarationPosition ? 0 : FUNC_HANGING_STATEMENT), false, isAsync) }; pp$1.parseIfStatement = function(node) { this.next(); node.test = this.parseParenExpression(); // allow function declarations in branches, but only in non-strict mode node.consequent = this.parseStatement("if"); node.alternate = this.eat(types._else) ? this.parseStatement("if") : 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(types.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(types.braceL); this.labels.push(switchLabel); this.enterScope(0); // Statements under must be grouped (by label) in SwitchCase // nodes. `cur` is used to keep the node that we are currently // adding statements to. var cur; for (var sawDefault = false; this.type !== types.braceR;) { if (this$1.type === types._case || this$1.type === types._default) { var isCase = this$1.type === types._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(types.colon); } else { if (!cur) { this$1.unexpected(); } cur.consequent.push(this$1.parseStatement(null)); } } this.exitScope(); 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 === types._catch) { var clause = this.startNode(); this.next(); if (this.eat(types.parenL)) { clause.param = this.parseBindingAtom(); var simple = clause.param.type === "Identifier"; this.enterScope(simple ? SCOPE_SIMPLE_CATCH : 0); this.checkLVal(clause.param, simple ? BIND_SIMPLE_CATCH : BIND_LEXICAL); this.expect(types.parenR); } else { if (this.options.ecmaVersion < 10) { this.unexpected(); } clause.param = null; this.enterScope(0); } clause.body = this.parseBlock(false); this.exitScope(); node.handler = this.finishNode(clause, "CatchClause"); } node.finalizer = this.eat(types._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("while"); 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("with"); return this.finishNode(node, "WithStatement") }; pp$1.parseEmptyStatement = function(node) { this.next(); return this.finishNode(node, "EmptyStatement") }; pp$1.parseLabeledStatement = function(node, maybeName, expr, context) { var this$1 = this; for (var i$1 = 0, list = this$1.labels; i$1 < list.length; i$1 += 1) { var label = list[i$1]; if (label.name === maybeName) { this$1.raise(expr.start, "Label '" + maybeName + "' is already declared"); } } var kind = this.type.isLoop ? "loop" : this.type === types._switch ? "switch" : null; for (var i = this.labels.length - 1; i >= 0; i--) { var label$1 = this$1.labels[i]; if (label$1.statementStart === node.start) { // Update information about previous labels on this node label$1.statementStart = this$1.start; label$1.kind = kind; } else { break } } this.labels.push({name: maybeName, kind: kind, statementStart: this.start}); node.body = this.parseStatement(context); if (node.body.type === "ClassDeclaration" || node.body.type === "VariableDeclaration" && node.body.kind !== "var" || node.body.type === "FunctionDeclaration" && (this.strict || node.body.generator || node.body.async)) { this.raiseRecoverable(node.body.start, "Invalid labeled declaration"); } 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(createNewLexicalScope, node) { var this$1 = this; if ( createNewLexicalScope === void 0 ) createNewLexicalScope = true; if ( node === void 0 ) node = this.startNode(); node.body = []; this.expect(types.braceL); if (createNewLexicalScope) { this.enterScope(0); } while (!this.eat(types.braceR)) { var stmt = this$1.parseStatement(null); node.body.push(stmt); } if (createNewLexicalScope) { this.exitScope(); } 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(types.semi); node.test = this.type === types.semi ? null : this.parseExpression(); this.expect(types.semi); node.update = this.type === types.parenR ? null : this.parseExpression(); this.expect(types.parenR); this.exitScope(); node.body = this.parseStatement("for"); 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 === types._in ? "ForInStatement" : "ForOfStatement"; this.next(); if (type === "ForInStatement") { if (init.type === "AssignmentPattern" || (init.type === "VariableDeclaration" && init.declarations[0].init != null && (this.strict || init.declarations[0].id.type !== "Identifier"))) { this.raise(init.start, "Invalid assignment in for-in loop head"); } } node.left = init; node.right = type === "ForInStatement" ? this.parseExpression() : this.parseMaybeAssign(); this.expect(types.parenR); this.exitScope(); node.body = this.parseStatement("for"); 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, kind); if (this$1.eat(types.eq)) { decl.init = this$1.parseMaybeAssign(isFor); } else if (kind === "const" && !(this$1.type === types._in || (this$1.options.ecmaVersion >= 6 && this$1.isContextual("of")))) { this$1.unexpected(); } else if (decl.id.type !== "Identifier" && !(isFor && (this$1.type === types._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(types.comma)) { break } } return node }; pp$1.parseVarId = function(decl, kind) { decl.id = this.parseBindingAtom(kind); this.checkLVal(decl.id, kind === "var" ? BIND_VAR : BIND_LEXICAL, false); }; var FUNC_STATEMENT = 1; var FUNC_HANGING_STATEMENT = 2; var FUNC_NULLABLE_ID = 4; // Parse a function declaration or literal (depending on the // `isStatement` parameter). pp$1.parseFunction = function(node, statement, allowExpressionBody, isAsync) { this.initFunction(node); if (this.options.ecmaVersion >= 9 || this.options.ecmaVersion >= 6 && !isAsync) { node.generator = this.eat(types.star); } if (this.options.ecmaVersion >= 8) { node.async = !!isAsync; } if (statement & FUNC_STATEMENT) { node.id = (statement & FUNC_NULLABLE_ID) && this.type !== types.name ? null : this.parseIdent(); if (node.id && !(statement & FUNC_HANGING_STATEMENT)) { this.checkLVal(node.id, this.inModule && !this.inFunction ? BIND_LEXICAL : BIND_FUNCTION); } } var oldYieldPos = this.yieldPos, oldAwaitPos = this.awaitPos; this.yieldPos = 0; this.awaitPos = 0; this.enterScope(functionFlags(node.async, node.generator)); if (!(statement & FUNC_STATEMENT)) { node.id = this.type === types.name ? this.parseIdent() : null; } this.parseFunctionParams(node); this.parseFunctionBody(node, allowExpressionBody); this.yieldPos = oldYieldPos; this.awaitPos = oldAwaitPos; return this.finishNode(node, (statement & FUNC_STATEMENT) ? "FunctionDeclaration" : "FunctionExpression") }; pp$1.parseFunctionParams = function(node) { this.expect(types.parenL); node.params = this.parseBindingList(types.parenR, false, this.options.ecmaVersion >= 8); this.checkYieldAwaitInDefaultParams(); }; // 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(types.braceL); while (!this.eat(types.braceR)) { var element = this$1.parseClassElement(node.superClass !== null); if (element) { classBody.body.push(element); if (element.type === "MethodDefinition" && element.kind === "constructor") { if (hadConstructor) { this$1.raise(element.start, "Duplicate constructor in the same class"); } hadConstructor = true; } } } node.body = this.finishNode(classBody, "ClassBody"); return this.finishNode(node, isStatement ? "ClassDeclaration" : "ClassExpression") }; pp$1.parseClassElement = function(constructorAllowsSuper) { var this$1 = this; if (this.eat(types.semi)) { return null } var method = this.startNode(); var tryContextual = function (k, noLineBreak) { if ( noLineBreak === void 0 ) noLineBreak = false; var start = this$1.start, startLoc = this$1.startLoc; if (!this$1.eatContextual(k)) { return false } if (this$1.type !== types.parenL && (!noLineBreak || !this$1.canInsertSemicolon())) { return true } if (method.key) { this$1.unexpected(); } method.computed = false; method.key = this$1.startNodeAt(start, startLoc); method.key.name = k; this$1.finishNode(method.key, "Identifier"); return false }; method.kind = "method"; method.static = tryContextual("static"); var isGenerator = this.eat(types.star); var isAsync = false; if (!isGenerator) { if (this.options.ecmaVersion >= 8 && tryContextual("async", true)) { isAsync = true; isGenerator = this.options.ecmaVersion >= 9 && this.eat(types.star); } else if (tryContextual("get")) { method.kind = "get"; } else if (tryContextual("set")) { method.kind = "set"; } } if (!method.key) { this.parsePropertyName(method); } var key = method.key; var allowsDirectSuper = false; if (!method.computed && !method.static && (key.type === "Identifier" && key.name === "constructor" || key.type === "Literal" && key.value === "constructor")) { if (method.kind !== "method") { this.raise(key.start, "Constructor can't have get/set modifier"); } if (isGenerator) { this.raise(key.start, "Constructor can't be a generator"); } if (isAsync) { this.raise(key.start, "Constructor can't be an async method"); } method.kind = "constructor"; allowsDirectSuper = constructorAllowsSuper; } else if (method.static && key.type === "Identifier" && key.name === "prototype") { this.raise(key.start, "Classes may not have a static property named prototype"); } this.parseClassMethod(method, isGenerator, isAsync, allowsDirectSuper); if (method.kind === "get" && method.value.params.length !== 0) { this.raiseRecoverable(method.value.start, "getter should have no params"); } if (method.kind === "set" && method.value.params.length !== 1) { this.raiseRecoverable(method.value.start, "setter should have exactly one param"); } if (method.kind === "set" && method.value.params[0].type === "RestElement") { this.raiseRecoverable(method.value.params[0].start, "Setter cannot use rest params"); } return method }; pp$1.parseClassMethod = function(method, isGenerator, isAsync, allowsDirectSuper) { method.value = this.parseMethod(isGenerator, isAsync, allowsDirectSuper); return this.finishNode(method, "MethodDefinition") }; pp$1.parseClassId = function(node, isStatement) { node.id = this.type === types.name ? this.parseIdent() : isStatement === true ? this.unexpected() : null; }; pp$1.parseClassSuper = function(node) { node.superClass = this.eat(types._extends) ? this.parseExprSubscripts() : null; }; // Parses module export declaration. pp$1.parseExport = function(node, exports) { var this$1 = this; this.next(); // export * from '...' if (this.eat(types.star)) { this.expectContextual("from"); if (this.type !== types.string) { this.unexpected(); } node.source = this.parseExprAtom(); this.semicolon(); return this.finishNode(node, "ExportAllDeclaration") } if (this.eat(types._default)) { // export default ... this.checkExport(exports, "default", this.lastTokStart); var isAsync; if (this.type === types._function || (isAsync = this.isAsyncFunction())) { var fNode = this.startNode(); this.next(); if (isAsync) { this.next(); } node.declaration = this.parseFunction(fNode, FUNC_STATEMENT | FUNC_NULLABLE_ID, false, isAsync, true); } else if (this.type === types._class) { var cNode = this.startNode(); node.declaration = this.parseClass(cNode, "nullableID"); } else { node.declaration = this.parseMaybeAssign(); this.semicolon(); } return this.finishNode(node, "ExportDefaultDeclaration") } // export var|const|let|function|class ... if (this.shouldParseExportStatement()) { node.declaration = this.parseStatement(null); if (node.declaration.type === "VariableDeclaration") { this.checkVariableExport(exports, node.declaration.declarations); } else { this.checkExport(exports, node.declaration.id.name, node.declaration.id.start); } node.specifiers = []; node.source = null; } else { // export { x, y as z } [from '...'] node.declaration = null; node.specifiers = this.parseExportSpecifiers(exports); if (this.eatContextual("from")) { if (this.type !== types.string) { this.unexpected(); } node.source = this.parseExprAtom(); } else { // check for keywords used as local names for (var i = 0, list = node.specifiers; i < list.length; i += 1) { var spec = list[i]; this$1.checkUnreserved(spec.local); } node.source = null; } this.semicolon(); } return this.finishNode(node, "ExportNamedDeclaration") }; pp$1.checkExport = function(exports, name, pos) { if (!exports) { return } if (has(exports, name)) { this.raiseRecoverable(pos, "Duplicate export '" + name + "'"); } exports[name] = true; }; pp$1.checkPatternExport = function(exports, pat) { var this$1 = this; var type = pat.type; if (type === "Identifier") { this.checkExport(exports, pat.name, pat.start); } else if (type === "ObjectPattern") { for (var i = 0, list = pat.properties; i < list.length; i += 1) { var prop = list[i]; this$1.checkPatternExport(exports, prop); } } else if (type === "ArrayPattern") { for (var i$1 = 0, list$1 = pat.elements; i$1 < list$1.length; i$1 += 1) { var elt = list$1[i$1]; if (elt) { this$1.checkPatternExport(exports, elt); } } } else if (type === "Property") { this.checkPatternExport(exports, pat.value); } else if (type === "AssignmentPattern") { this.checkPatternExport(exports, pat.left); } else if (type === "RestElement") { this.checkPatternExport(exports, pat.argument); } else if (type === "ParenthesizedExpression") { this.checkPatternExport(exports, pat.expression); } }; pp$1.checkVariableExport = function(exports, decls) { var this$1 = this; if (!exports) { return } for (var i = 0, list = decls; i < list.length; i += 1) { var decl = list[i]; this$1.checkPatternExport(exports, decl.id); } }; pp$1.shouldParseExportStatement = function() { return this.type.keyword === "var" || this.type.keyword === "const" || this.type.keyword === "class" || this.type.keyword === "function" || this.isLet() || this.isAsyncFunction() }; // Parses a comma-separated list of module exports. pp$1.parseExportSpecifiers = function(exports) { var this$1 = this; var nodes = [], first = true; // export { x, y as z } [from '...'] this.expect(types.braceL); while (!this.eat(types.braceR)) { if (!first) { this$1.expect(types.comma); if (this$1.afterTrailingComma(types.braceR)) { break } } else { first = false; } var node = this$1.startNode(); node.local = this$1.parseIdent(true); node.exported = this$1.eatContextual("as") ? this$1.parseIdent(true) : node.local; this$1.checkExport(exports, node.exported.name, node.exported.start); nodes.push(this$1.finishNode(node, "ExportSpecifier")); } return nodes }; // Parses import declaration. pp$1.parseImport = function(node) { this.next(); // import '...' if (this.type === types.string) { node.specifiers = empty; node.source = this.parseExprAtom(); } else { node.specifiers = this.parseImportSpecifiers(); this.expectContextual("from"); node.source = this.type === types.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 === types.name) { // import defaultObj, { x, y as z } from '...' var node = this.startNode(); node.local = this.parseIdent(); this.checkLVal(node.local, BIND_LEXICAL); nodes.push(this.finishNode(node, "ImportDefaultSpecifier")); if (!this.eat(types.comma)) { return nodes } } if (this.type === types.star) { var node$1 = this.startNode(); this.next(); this.expectContextual("as"); node$1.local = this.parseIdent(); this.checkLVal(node$1.local, BIND_LEXICAL); nodes.push(this.finishNode(node$1, "ImportNamespaceSpecifier")); return nodes } this.expect(types.braceL); while (!this.eat(types.braceR)) { if (!first) { this$1.expect(types.comma); if (this$1.afterTrailingComma(types.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 { this$1.checkUnreserved(node$2.imported); node$2.local = node$2.imported; } this$1.checkLVal(node$2.local, BIND_LEXICAL); nodes.push(this$1.finishNode(node$2, "ImportSpecifier")); } return nodes }; // Set `ExpressionStatement#directive` property for directive prologues. pp$1.adaptDirectivePrologue = function(statements) { for (var i = 0; i < statements.length && this.isDirectiveCandidate(statements[i]); ++i) { statements[i].directive = statements[i].expression.raw.slice(1, -1); } }; pp$1.isDirectiveCandidate = function(statement) { return ( statement.type === "ExpressionStatement" && statement.expression.type === "Literal" && typeof statement.expression.value === "string" && // Reject parenthesized strings. (this.input[statement.start] === "\"" || this.input[statement.start] === "'") ) }; var pp$2 = Parser.prototype; // Convert existing expression atom to assignable pattern // if possible. pp$2.toAssignable = function(node, isBinding, refDestructuringErrors) { var this$1 = this; if (this.options.ecmaVersion >= 6 && node) { switch (node.type) { case "Identifier": if (this.inAsync && node.name === "await") { this.raise(node.start, "Can not use 'await' as identifier inside an async function"); } break case "ObjectPattern": case "ArrayPattern": case "RestElement": break case "ObjectExpression": node.type = "ObjectPattern"; if (refDestructuringErrors) { this.checkPatternErrors(refDestructuringErrors, true); } for (var i = 0, list = node.properties; i < list.length; i += 1) { var prop = list[i]; this$1.toAssignable(prop, isBinding); // Early error: // AssignmentRestProperty[Yield, Await] : // `...` DestructuringAssignmentTarget[Yield, Await] // // It is a Syntax Error if |DestructuringAssignmentTarget| is an |ArrayLiteral| or an |ObjectLiteral|. if ( prop.type === "RestElement" && (prop.argument.type === "ArrayPattern" || prop.argument.type === "ObjectPattern") ) { this$1.raise(prop.argument.start, "Unexpected token"); } } break case "Property": // AssignmentProperty has type === "Property" if (node.kind !== "init") { this.raise(node.key.start, "Object pattern can't contain getter or setter"); } this.toAssignable(node.value, isBinding); break case "ArrayExpression": node.type = "ArrayPattern"; if (refDestructuringErrors) { this.checkPatternErrors(refDestructuringErrors, true); } this.toAssignableList(node.elements, isBinding); break case "SpreadElement": node.type = "RestElement"; this.toAssignable(node.argument, isBinding); if (node.argument.type === "AssignmentPattern") { this.raise(node.argument.start, "Rest elements cannot have a default value"); } break case "AssignmentExpression": if (node.operator !== "=") { this.raise(node.left.end, "Only '=' operator can be used for specifying default value."); } node.type = "AssignmentPattern"; delete node.operator; this.toAssignable(node.left, isBinding); // falls through to AssignmentPattern case "AssignmentPattern": break case "ParenthesizedExpression": this.toAssignable(node.expression, isBinding); break case "MemberExpression": if (!isBinding) { break } default: this.raise(node.start, "Assigning to rvalue"); } } else if (refDestructuringErrors) { this.checkPatternErrors(refDestructuringErrors, true); } return node }; // Convert list of expression atoms to binding list. pp$2.toAssignableList = function(exprList, isBinding) { var this$1 = this; var end = exprList.length; for (var i = 0; i < end; i++) { var elt = exprList[i]; if (elt) { this$1.toAssignable(elt, isBinding); } } if (end) { var last = exprList[end - 1]; if (this.options.ecmaVersion === 6 && isBinding && last && last.type === "RestElement" && last.argument.type !== "Identifier") { this.unexpected(last.argument.start); } } 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.parseRestBinding = function() { var node = this.startNode(); this.next(); // RestElement inside of a function parameter must be an identifier if (this.options.ecmaVersion === 6 && this.type !== types.name) { this.unexpected(); } node.argument = this.parseBindingAtom(); return this.finishNode(node, "RestElement") }; // Parses lvalue (assignable) atom. pp$2.parseBindingAtom = function() { if (this.options.ecmaVersion >= 6) { switch (this.type) { case types.bracketL: var node = this.startNode(); this.next(); node.elements = this.parseBindingList(types.bracketR, true, true); return this.finishNode(node, "ArrayPattern") case types.braceL: return this.parseObj(true) } } return this.parseIdent() }; pp$2.parseBindingList = function(close, allowEmpty, allowTrailingComma) { var this$1 = this; var elts = [], first = true; while (!this.eat(close)) { if (first) { first = false; } else { this$1.expect(types.comma); } if (allowEmpty && this$1.type === types.comma) { elts.push(null); } else if (allowTrailingComma && this$1.afterTrailingComma(close)) { break } else if (this$1.type === types.ellipsis) { var rest = this$1.parseRestBinding(); this$1.parseBindingListItem(rest); elts.push(rest); if (this$1.type === types.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(types.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. // bindingType can be either: // 'var' indicating that the lval creates a 'var' binding // 'let' indicating that the lval creates a lexical ('let' or 'const') binding // 'none' indicating that the binding should be checked for illegal identifiers, but not for duplicate references pp$2.checkLVal = function(expr, bindingType, checkClashes) { var this$1 = this; if ( bindingType === void 0 ) bindingType = BIND_NONE; switch (expr.type) { case "Identifier": if (this.strict && this.reservedWordsStrictBind.test(expr.name)) { this.raiseRecoverable(expr.start, (bindingType ? "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; } if (bindingType !== BIND_NONE && bindingType !== BIND_OUTSIDE) { this.declareName(expr.name, bindingType, expr.start); } break case "MemberExpression": if (bindingType) { this.raiseRecoverable(expr.start, "Binding member expression"); } break case "ObjectPattern": for (var i = 0, list = expr.properties; i < list.length; i += 1) { var prop = list[i]; this$1.checkLVal(prop, bindingType, checkClashes); } break case "Property": // AssignmentProperty has type === "Property" this.checkLVal(expr.value, bindingType, checkClashes); break case "ArrayPattern": for (var i$1 = 0, list$1 = expr.elements; i$1 < list$1.length; i$1 += 1) { var elem = list$1[i$1]; if (elem) { this$1.checkLVal(elem, bindingType, checkClashes); } } break case "AssignmentPattern": this.checkLVal(expr.left, bindingType, checkClashes); break case "RestElement": this.checkLVal(expr.argument, bindingType, checkClashes); break case "ParenthesizedExpression": this.checkLVal(expr.expression, bindingType, checkClashes); break default: this.raise(expr.start, (bindingType ? "Binding" : "Assigning to") + " rvalue"); } }; // A recursive descent parser operates by defining functions for all // syntactic elements, and recursively calling those, each function // advancing the input stream and returning an AST node. Precedence // of constructs (for example, the fact that `!x[1]` means `!(x[1])` // instead of `(!x)[1]` is handled by the fact that the parser // function that parses unary prefix operators is called first, and // in turn calls the function that parses `[]` subscripts — that // way, it'll receive the node for `x[1]` already parsed, and wraps // *that* in the unary operator node. // // Acorn uses an [operator precedence parser][opp] to handle binary // operator precedence, because it is much more compact than using // the technique outlined above, which uses different, nesting // functions to specify precedence, for all of the ten binary // precedence levels that JavaScript defines. // // [opp]: http://en.wikipedia.org/wiki/Operator-precedence_parser 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$3.checkPropClash = function(prop, propHash, refDestructuringErrors) { if (this.options.ecmaVersion >= 9 && prop.type === "SpreadElement") { return } if (this.options.ecmaVersion >= 6 && (prop.computed || prop.method || prop.shorthand)) { return } var key = prop.key; var name; switch (key.type) { case "Identifier": name = key.name; break case "Literal": name = String(key.value); break default: return } var kind = prop.kind; if (this.options.ecmaVersion >= 6) { if (name === "__proto__" && kind === "init") { if (propHash.proto) { if (refDestructuringErrors && refDestructuringErrors.doubleProto < 0) { refDestructuringErrors.doubleProto = key.start; } // Backwards-compat kludge. Can be removed in version 6.0 else { this.raiseRecoverable(key.start, "Redefinition of __proto__ property"); } } propHash.proto = true; } return } name = "$" + name; var other = propHash[name]; if (other) { var redefinition; if (kind === "init") { redefinition = this.strict && other.init || other.get || other.set; } else { redefinition = other.init || other[kind]; } if (redefinition) { 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 === types.comma) { var node = this.startNodeAt(startPos, startLoc); node.expressions = [expr]; while (this.eat(types.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.isContextual("yield")) { if (this.inGenerator) { return this.parseYield() } // The tokenizer will assume an expression is allowed after // `yield`, but this isn't that kind of yield else { this.exprAllowed = false; } } var ownDestructuringErrors = false, oldParenAssign = -1, oldTrailingComma = -1, oldShorthandAssign = -1; if (refDestructuringErrors) { oldParenAssign = refDestructuringErrors.parenthesizedAssign; oldTrailingComma = refDestructuringErrors.trailingComma; oldShorthandAssign = refDestructuringErrors.shorthandAssign; refDestructuringErrors.parenthesizedAssign = refDestructuringErrors.trailingComma = refDestructuringErrors.shorthandAssign = -1; } else { refDestructuringErrors = new DestructuringErrors; ownDestructuringErrors = true; } var startPos = this.start, startLoc = this.startLoc; if (this.type === types.parenL || this.type === types.name) { this.potentialArrowAt = this.start; } var left = this.parseMaybeConditional(noIn, refDestructuringErrors); if (afterLeftParse) { left = afterLeftParse.call(this, left, startPos, startLoc); } if (this.type.isAssign) { var node = this.startNodeAt(startPos, startLoc); node.operator = this.value; node.left = this.type === types.eq ? this.toAssignable(left, false, refDestructuringErrors) : left; if (!ownDestructuringErrors) { DestructuringErrors.call(refDestructuringErrors); } refDestructuringErrors.shorthandAssign = -1; // 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); } } if (oldParenAssign > -1) { refDestructuringErrors.parenthesizedAssign = oldParenAssign; } if (oldTrailingComma > -1) { refDestructuringErrors.trailingComma = oldTrailingComma; } if (oldShorthandAssign > -1) { refDestructuringErrors.shorthandAssign = oldShorthandAssign; } 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(types.question)) { var node = this.startNodeAt(startPos, startLoc); node.test = expr; node.consequent = this.parseMaybeAssign(); this.expect(types.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 expr.start === startPos && expr.type === "ArrowFunctionExpression" ? expr : 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 !== types._in)) { if (prec > minPrec) { var logical = this.type === types.logicalOR || this.type === types.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.isContextual("await") && (this.inAsync || (!this.inFunction && this.options.allowAwaitOutsideFunction))) { expr = this.parseAwait(); sawUnary = true; } else if (this.type.prefix) { var node = this.startNode(), update = this.type === types.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(types.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 } var result = this.parseSubscripts(expr, startPos, startLoc); if (refDestructuringErrors && result.type === "MemberExpression") { if (refDestructuringErrors.parenthesizedAssign >= result.start) { refDestructuringErrors.parenthesizedAssign = -1; } if (refDestructuringErrors.parenthesizedBind >= result.start) { refDestructuringErrors.parenthesizedBind = -1; } } return result }; pp$3.parseSubscripts = function(base, startPos, startLoc, noCalls) { var this$1 = this; var maybeAsyncArrow = this.options.ecmaVersion >= 8 && base.type === "Identifier" && base.name === "async" && this.lastTokEnd === base.end && !this.canInsertSemicolon() && this.input.slice(base.start, base.end) === "async"; for (var computed = (void 0);;) { if ((computed = this$1.eat(types.bracketL)) || this$1.eat(types.dot)) { var node = this$1.startNodeAt(startPos, startLoc); node.object = base; node.property = computed ? this$1.parseExpression() : this$1.parseIdent(true); node.computed = !!computed; if (computed) { this$1.expect(types.bracketR); } base = this$1.finishNode(node, "MemberExpression"); } else if (!noCalls && this$1.eat(types.parenL)) { var refDestructuringErrors = new DestructuringErrors, oldYieldPos = this$1.yieldPos, oldAwaitPos = this$1.awaitPos; this$1.yieldPos = 0; this$1.awaitPos = 0; var exprList = this$1.parseExprList(types.parenR, this$1.options.ecmaVersion >= 8, false, refDestructuringErrors); if (maybeAsyncArrow && !this$1.canInsertSemicolon() && this$1.eat(types.arrow)) { this$1.checkPatternErrors(refDestructuringErrors, false); this$1.checkYieldAwaitInDefaultParams(); this$1.yieldPos = oldYieldPos; this$1.awaitPos = oldAwaitPos; return this$1.parseArrowExpression(this$1.startNodeAt(startPos, startLoc), exprList, true) } this$1.checkExpressionErrors(refDestructuringErrors, true); this$1.yieldPos = oldYieldPos || this$1.yieldPos; this$1.awaitPos = oldAwaitPos || this$1.awaitPos; var node$1 = this$1.startNodeAt(startPos, startLoc); node$1.callee = base; node$1.arguments = exprList; base = this$1.finishNode(node$1, "CallExpression"); } else if (this$1.type === types.backQuote) { var node$2 = this$1.startNodeAt(startPos, startLoc); node$2.tag = base; node$2.quasi = this$1.parseTemplate({isTagged: true}); base = this$1.finishNode(node$2, "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) { // If a division operator appears in an expression position, the // tokenizer got confused, and we force it to read a regexp instead. if (this.type === types.slash) { this.readRegexp(); } var node, canBeArrow = this.potentialArrowAt === this.start; switch (this.type) { case types._super: if (!this.allowSuper) { this.raise(this.start, "'super' keyword outside a method"); } node = this.startNode(); this.next(); if (this.type === types.parenL && !this.allowDirectSuper) { this.raise(node.start, "super() call outside constructor of a subclass"); } // The `super` keyword can appear at below: // SuperProperty: // super [ Expression ] // super . IdentifierName // SuperCall: // super Arguments if (this.type !== types.dot && this.type !== types.bracketL && this.type !== types.parenL) { this.unexpected(); } return this.finishNode(node, "Super") case types._this: node = this.startNode(); this.next(); return this.finishNode(node, "ThisExpression") case types.name: var startPos = this.start, startLoc = this.startLoc, containsEsc = this.containsEsc; var id = this.parseIdent(this.type !== types.name); if (this.options.ecmaVersion >= 8 && !containsEsc && id.name === "async" && !this.canInsertSemicolon() && this.eat(types._function)) { return this.parseFunction(this.startNodeAt(startPos, startLoc), 0, false, true) } if (canBeArrow && !this.canInsertSemicolon()) { if (this.eat(types.arrow)) { return this.parseArrowExpression(this.startNodeAt(startPos, startLoc), [id], false) } if (this.options.ecmaVersion >= 8 && id.name === "async" && this.type === types.name && !containsEsc) { id = this.parseIdent(); if (this.canInsertSemicolon() || !this.eat(types.arrow)) { this.unexpected(); } return this.parseArrowExpression(this.startNodeAt(startPos, startLoc), [id], true) } } return id case types.regexp: var value = this.value; node = this.parseLiteral(value.value); node.regex = {pattern: value.pattern, flags: value.flags}; return node case types.num: case types.string: return this.parseLiteral(this.value) case types._null: case types._true: case types._false: node = this.startNode(); node.value = this.type === types._null ? null : this.type === types._true; node.raw = this.type.keyword; this.next(); return this.finishNode(node, "Literal") case types.parenL: var start = this.start, expr = this.parseParenAndDistinguishExpression(canBeArrow); if (refDestructuringErrors) { if (refDestructuringErrors.parenthesizedAssign < 0 && !this.isSimpleAssignTarget(expr)) { refDestructuringErrors.parenthesizedAssign = start; } if (refDestructuringErrors.parenthesizedBind < 0) { refDestructuringErrors.parenthesizedBind = start; } } return expr case types.bracketL: node = this.startNode(); this.next(); node.elements = this.parseExprList(types.bracketR, true, true, refDestructuringErrors); return this.finishNode(node, "ArrayExpression") case types.braceL: return this.parseObj(false, refDestructuringErrors) case types._function: node = this.startNode(); this.next(); return this.parseFunction(node, 0) case types._class: return this.parseClass(this.startNode(), false) case types._new: return this.parseNew() case types.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(types.parenL); var val = this.parseExpression(); this.expect(types.parenR); return val }; pp$3.parseParenAndDistinguishExpression = function(canBeArrow) { var this$1 = this; var startPos = this.start, startLoc = this.startLoc, val, allowTrailingComma = this.options.ecmaVersion >= 8; if (this.options.ecmaVersion >= 6) { this.next(); var innerStartPos = this.start, innerStartLoc = this.startLoc; var exprList = [], first = true, lastIsComma = false; var refDestructuringErrors = new DestructuringErrors, oldYieldPos = this.yieldPos, oldAwaitPos = this.awaitPos, spreadStart; this.yieldPos = 0; this.awaitPos = 0; while (this.type !== types.parenR) { first ? first = false : this$1.expect(types.comma); if (allowTrailingComma && this$1.afterTrailingComma(types.parenR, true)) { lastIsComma = true; break } else if (this$1.type === types.ellipsis) { spreadStart = this$1.start; exprList.push(this$1.parseParenItem(this$1.parseRestBinding())); if (this$1.type === types.comma) { this$1.raise(this$1.start, "Comma is not permitted after the rest element"); } break } else { exprList.push(this$1.parseMaybeAssign(false, refDestructuringErrors, this$1.parseParenItem)); } } var innerEndPos = this.start, innerEndLoc = this.startLoc; this.expect(types.parenR); if (canBeArrow && !this.canInsertSemicolon() && this.eat(types.arrow)) { this.checkPatternErrors(refDestructuringErrors, false); this.checkYieldAwaitInDefaultParams(); this.yieldPos = oldYieldPos; this.awaitPos = oldAwaitPos; return this.parseParenArrowList(startPos, startLoc, exprList) } if (!exprList.length || lastIsComma) { this.unexpected(this.lastTokStart); } if (spreadStart) { this.unexpected(spreadStart); } this.checkExpressionErrors(refDestructuringErrors, true); this.yieldPos = oldYieldPos || this.yieldPos; this.awaitPos = oldAwaitPos || this.awaitPos; 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(types.dot)) { node.meta = meta; var containsEsc = this.containsEsc; node.property = this.parseIdent(true); if (node.property.name !== "target" || containsEsc) { this.raiseRecoverable(node.property.start, "The only valid meta property for new is new.target"); } if (!this.inNonArrowFunction()) { 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(types.parenL)) { node.arguments = this.parseExprList(types.parenR, this.options.ecmaVersion >= 8, false); } else { node.arguments = empty$1; } return this.finishNode(node, "NewExpression") }; // Parse template expression. pp$3.parseTemplateElement = function(ref) { var isTagged = ref.isTagged; var elem = this.startNode(); if (this.type === types.invalidTemplate) { if (!isTagged) { this.raiseRecoverable(this.start, "Bad escape sequence in untagged template literal"); } elem.value = { raw: this.value, cooked: null }; } else { elem.value = { raw: this.input.slice(this.start, this.end).replace(/\r\n?/g, "\n"), cooked: this.value }; } this.next(); elem.tail = this.type === types.backQuote; return this.finishNode(elem, "TemplateElement") }; pp$3.parseTemplate = function(ref) { var this$1 = this; if ( ref === void 0 ) ref = {}; var isTagged = ref.isTagged; if ( isTagged === void 0 ) isTagged = false; var node = this.startNode(); this.next(); node.expressions = []; var curElt = this.parseTemplateElement({isTagged: isTagged}); node.quasis = [curElt]; while (!curElt.tail) { if (this$1.type === types.eof) { this$1.raise(this$1.pos, "Unterminated template literal"); } this$1.expect(types.dollarBraceL); node.expressions.push(this$1.parseExpression()); this$1.expect(types.braceR); node.quasis.push(curElt = this$1.parseTemplateElement({isTagged: isTagged})); } this.next(); return this.finishNode(node, "TemplateLiteral") }; pp$3.isAsyncProp = function(prop) { return !prop.computed && prop.key.type === "Identifier" && prop.key.name === "async" && (this.type === types.name || this.type === types.num || this.type === types.string || this.type === types.bracketL || this.type.keyword || (this.options.ecmaVersion >= 9 && this.type === types.star)) && !lineBreak.test(this.input.slice(this.lastTokEnd, this.start)) }; // 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(types.braceR)) { if (!first) { this$1.expect(types.comma); if (this$1.afterTrailingComma(types.braceR)) { break } } else { first = false; } var prop = this$1.parseProperty(isPattern, refDestructuringErrors); if (!isPattern) { this$1.checkPropClash(prop, propHash, refDestructuringErrors); } node.properties.push(prop); } return this.finishNode(node, isPattern ? "ObjectPattern" : "ObjectExpression") }; pp$3.parseProperty = function(isPattern, refDestructuringErrors) { var prop = this.startNode(), isGenerator, isAsync, startPos, startLoc; if (this.options.ecmaVersion >= 9 && this.eat(types.ellipsis)) { if (isPattern) { prop.argument = this.parseIdent(false); if (this.type === types.comma) { this.raise(this.start, "Comma is not permitted after the rest element"); } return this.finishNode(prop, "RestElement") } // To disallow parenthesized identifier via `this.toAssignable()`. if (this.type === types.parenL && refDestructuringErrors) { if (refDestructuringErrors.parenthesizedAssign < 0) { refDestructuringErrors.parenthesizedAssign = this.start; } if (refDestructuringErrors.parenthesizedBind < 0) { refDestructuringErrors.parenthesizedBind = this.start; } } // Parse argument. prop.argument = this.parseMaybeAssign(false, refDestructuringErrors); // To disallow trailing comma via `this.toAssignable()`. if (this.type === types.comma && refDestructuringErrors && refDestructuringErrors.trailingComma < 0) { refDestructuringErrors.trailingComma = this.start; } // Finish return this.finishNode(prop, "SpreadElement") } if (this.options.ecmaVersion >= 6) { prop.method = false; prop.shorthand = false; if (isPattern || refDestructuringErrors) { startPos = this.start; startLoc = this.startLoc; } if (!isPattern) { isGenerator = this.eat(types.star); } } var containsEsc = this.containsEsc; this.parsePropertyName(prop); if (!isPattern && !containsEsc && this.options.ecmaVersion >= 8 && !isGenerator && this.isAsyncProp(prop)) { isAsync = true; isGenerator = this.options.ecmaVersion >= 9 && this.eat(types.star); this.parsePropertyName(prop, refDestructuringErrors); } else { isAsync = false; } this.parsePropertyValue(prop, isPattern, isGenerator, isAsync, startPos, startLoc, refDestructuringErrors, containsEsc); return this.finishNode(prop, "Property") }; pp$3.parsePropertyValue = function(prop, isPattern, isGenerator, isAsync, startPos, startLoc, refDestructuringErrors, containsEsc) { if ((isGenerator || isAsync) && this.type === types.colon) { this.unexpected(); } if (this.eat(types.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 === types.parenL) { if (isPattern) { this.unexpected(); } prop.kind = "init"; prop.method = true; prop.value = this.parseMethod(isGenerator, isAsync); } else if (!isPattern && !containsEsc && this.options.ecmaVersion >= 5 && !prop.computed && prop.key.type === "Identifier" && (prop.key.name === "get" || prop.key.name === "set") && (this.type !== types.comma && this.type !== types.braceR)) { if (isGenerator || isAsync) { 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"); } } else { 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") { this.checkUnreserved(prop.key); prop.kind = "init"; if (isPattern) { prop.value = this.parseMaybeDefault(startPos, startLoc, prop.key); } else if (this.type === types.eq && refDestructuringErrors) { if (refDestructuringErrors.shorthandAssign < 0) { 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(types.bracketL)) { prop.computed = true; prop.key = this.parseMaybeAssign(); this.expect(types.bracketR); return prop.key } else { prop.computed = false; } } return prop.key = this.type === types.num || this.type === types.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 = node.expression = false; } if (this.options.ecmaVersion >= 8) { node.async = false; } }; // Parse object or class method. pp$3.parseMethod = function(isGenerator, isAsync, allowDirectSuper) { var node = this.startNode(), oldYieldPos = this.yieldPos, oldAwaitPos = this.awaitPos; this.initFunction(node); if (this.options.ecmaVersion >= 6) { node.generator = isGenerator; } if (this.options.ecmaVersion >= 8) { node.async = !!isAsync; } this.yieldPos = 0; this.awaitPos = 0; this.enterScope(functionFlags(isAsync, node.generator) | SCOPE_SUPER | (allowDirectSuper ? SCOPE_DIRECT_SUPER : 0)); this.expect(types.parenL); node.params = this.parseBindingList(types.parenR, false, this.options.ecmaVersion >= 8); this.checkYieldAwaitInDefaultParams(); this.parseFunctionBody(node, false); this.yieldPos = oldYieldPos; this.awaitPos = oldAwaitPos; return this.finishNode(node, "FunctionExpression") }; // Parse arrow function expression with given parameters. pp$3.parseArrowExpression = function(node, params, isAsync) { var oldYieldPos = this.yieldPos, oldAwaitPos = this.awaitPos; this.enterScope(functionFlags(isAsync, false) | SCOPE_ARROW); this.initFunction(node); if (this.options.ecmaVersion >= 8) { node.async = !!isAsync; } this.yieldPos = 0; this.awaitPos = 0; node.params = this.toAssignableList(params, true); this.parseFunctionBody(node, true); this.yieldPos = oldYieldPos; this.awaitPos = oldAwaitPos; return this.finishNode(node, "ArrowFunctionExpression") }; // Parse function body and check parameters. pp$3.parseFunctionBody = function(node, isArrowFunction) { var isExpression = isArrowFunction && this.type !== types.braceL; var oldStrict = this.strict, useStrict = false; if (isExpression) { node.body = this.parseMaybeAssign(); node.expression = true; this.checkParams(node, false); } else { var nonSimple = this.options.ecmaVersion >= 7 && !this.isSimpleParamList(node.params); if (!oldStrict || nonSimple) { useStrict = this.strictDirective(this.end); // 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`. if (useStrict && nonSimple) { this.raiseRecoverable(node.start, "Illegal 'use strict' directive in function with non-simple parameter list"); } } // Start a new scope with regard to labels and the `inFunction` // flag (restore them to their old value afterwards). var oldLabels = this.labels; this.labels = []; if (useStrict) { this.strict = true; } // Add the params to varDeclaredNames to ensure that an error is thrown // if a let/const declaration in the function clashes with one of the params. this.checkParams(node, !oldStrict && !useStrict && !isArrowFunction && this.isSimpleParamList(node.params)); node.body = this.parseBlock(false); node.expression = false; this.adaptDirectivePrologue(node.body.body); this.labels = oldLabels; } this.exitScope(); // Ensure the function name isn't a forbidden identifier in strict mode, e.g. 'eval' if (this.strict && node.id) { this.checkLVal(node.id, BIND_OUTSIDE); } this.strict = oldStrict; }; pp$3.isSimpleParamList = function(params) { for (var i = 0, list = params; i < list.length; i += 1) { var param = list[i]; if (param.type !== "Identifier") { return false } } return true }; // Checks function params for various disallowed patterns such as using "eval" // or "arguments" and duplicate parameters. pp$3.checkParams = function(node, allowDuplicates) { var this$1 = this; var nameHash = {}; for (var i = 0, list = node.params; i < list.length; i += 1) { var param = list[i]; this$1.checkLVal(param, BIND_VAR, allowDuplicates ? null : 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(types.comma); if (allowTrailingComma && this$1.afterTrailingComma(close)) { break } } else { first = false; } var elt = (void 0); if (allowEmpty && this$1.type === types.comma) { elt = null; } else if (this$1.type === types.ellipsis) { elt = this$1.parseSpread(refDestructuringErrors); if (refDestructuringErrors && this$1.type === types.comma && refDestructuringErrors.trailingComma < 0) { refDestructuringErrors.trailingComma = this$1.start; } } else { elt = this$1.parseMaybeAssign(false, refDestructuringErrors); } elts.push(elt); } return elts }; pp$3.checkUnreserved = function(ref) { var start = ref.start; var end = ref.end; var name = ref.name; if (this.inGenerator && name === "yield") { this.raiseRecoverable(start, "Can not use 'yield' as identifier inside a generator"); } if (this.inAsync && name === "await") { this.raiseRecoverable(start, "Can not use 'await' as identifier inside an async function"); } if (this.keywords.test(name)) { this.raise(start, ("Unexpected keyword '" + name + "'")); } if (this.options.ecmaVersion < 6 && this.input.slice(start, end).indexOf("\\") !== -1) { return } var re = this.strict ? this.reservedWordsStrict : this.reservedWords; if (re.test(name)) { if (!this.inAsync && name === "await") { this.raiseRecoverable(start, "Can not use keyword 'await' outside an async function"); } this.raiseRecoverable(start, ("The keyword '" + name + "' is reserved")); } }; // 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, isBinding) { var node = this.startNode(); if (liberal && this.options.allowReserved === "never") { liberal = false; } if (this.type === types.name) { node.name = this.value; } else if (this.type.keyword) { node.name = this.type.keyword; // To fix https://github.com/acornjs/acorn/issues/575 // `class` and `function` keywords push new context into this.context. // But there is no chance to pop the context if the keyword is consumed as an identifier such as a property name. // If the previous token is a dot, this does not apply because the context-managing code already ignored the keyword if ((node.name === "class" || node.name === "function") && (this.lastTokEnd !== this.lastTokStart + 1 || this.input.charCodeAt(this.lastTokStart) !== 46)) { this.context.pop(); } } else { this.unexpected(); } this.next(); this.finishNode(node, "Identifier"); if (!liberal) { this.checkUnreserved(node); } return node }; // Parses yield expression inside generator. pp$3.parseYield = function() { if (!this.yieldPos) { this.yieldPos = this.start; } var node = this.startNode(); this.next(); if (this.type === types.semi || this.canInsertSemicolon() || (this.type !== types.star && !this.type.startsExpr)) { node.delegate = false; node.argument = null; } else { node.delegate = this.eat(types.star); node.argument = this.parseMaybeAssign(); } return this.finishNode(node, "YieldExpression") }; pp$3.parseAwait = function() { if (!this.awaitPos) { this.awaitPos = this.start; } var node = this.startNode(); this.next(); node.argument = this.parseMaybeUnary(null, true); return this.finishNode(node, "AwaitExpression") }; 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 pp$5 = Parser.prototype; var Scope = function Scope(flags) { this.flags = flags; // A list of var-declared names in the current lexical scope this.var = []; // A list of lexically-declared names in the current lexical scope this.lexical = []; }; // The functions in this module keep track of declared variables in the current scope in order to detect duplicate variable names. pp$5.enterScope = function(flags) { this.scopeStack.push(new Scope(flags)); }; pp$5.exitScope = function() { this.scopeStack.pop(); }; pp$5.declareName = function(name, bindingType, pos) { var this$1 = this; var redeclared = false; if (bindingType === BIND_LEXICAL) { var scope = this.currentScope(); redeclared = scope.lexical.indexOf(name) > -1 || scope.var.indexOf(name) > -1; scope.lexical.push(name); } else if (bindingType === BIND_SIMPLE_CATCH) { var scope$1 = this.currentScope(); scope$1.lexical.push(name); } else if (bindingType === BIND_FUNCTION) { var scope$2 = this.currentScope(); redeclared = scope$2.lexical.indexOf(name) > -1; scope$2.var.push(name); } else { for (var i = this.scopeStack.length - 1; i >= 0; --i) { var scope$3 = this$1.scopeStack[i]; if (scope$3.lexical.indexOf(name) > -1 && !(scope$3.flags & SCOPE_SIMPLE_CATCH) && scope$3.lexical[0] === name) { redeclared = true; } scope$3.var.push(name); if (scope$3.flags & SCOPE_VAR) { break } } } if (redeclared) { this.raiseRecoverable(pos, ("Identifier '" + name + "' has already been declared")); } }; pp$5.currentScope = function() { return this.scopeStack[this.scopeStack.length - 1] }; pp$5.currentVarScope = function() { var this$1 = this; for (var i = this.scopeStack.length - 1;; i--) { var scope = this$1.scopeStack[i]; if (scope.flags & SCOPE_VAR) { return scope } } }; // Could be useful for `this`, `new.target`, `super()`, `super.property`, and `super[property]`. pp$5.currentThisScope = function() { var this$1 = this; for (var i = this.scopeStack.length - 1;; i--) { var scope = this$1.scopeStack[i]; if (scope.flags & SCOPE_VAR && !(scope.flags & SCOPE_ARROW)) { return scope } } }; 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$6 = Parser.prototype; pp$6.startNode = function() { return new Node(this, this.start, this.startLoc) }; pp$6.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$6.finishNode = function(node, type) { return finishNodeAt.call(this, node, type, this.lastTokEnd, this.lastTokEndLoc) }; // Finish node at given position pp$6.finishNodeAt = function(node, type, pos, loc) { return finishNodeAt.call(this, node, type, pos, loc) }; // The algorithm used to determine whether a regexp can appear at a // given point in the program is loosely based on sweet.js' approach. // See https://github.com/mozilla/sweet.js/wiki/design var TokContext = function TokContext(token, isExpr, preserveSpace, override, generator) { this.token = token; this.isExpr = !!isExpr; this.preserveSpace = !!preserveSpace; this.override = override; this.generator = !!generator; }; var types$1 = { b_stat: new TokContext("{", false), b_expr: new TokContext("{", true), b_tmpl: new TokContext("${", false), p_stat: new TokContext("(", false), p_expr: new TokContext("(", true), q_tmpl: new TokContext("`", true, true, function (p) { return p.tryReadTemplateToken(); }), f_stat: new TokContext("function", false), f_expr: new TokContext("function", true), f_expr_gen: new TokContext("function", true, false, null, true), f_gen: new TokContext("function", false, false, null, true) }; var pp$7 = Parser.prototype; pp$7.initialContext = function() { return [types$1.b_stat] }; pp$7.braceIsBlock = function(prevType) { var parent = this.curContext(); if (parent === types$1.f_expr || parent === types$1.f_stat) { return true } if (prevType === types.colon && (parent === types$1.b_stat || parent === types$1.b_expr)) { return !parent.isExpr } // The check for `tt.name && exprAllowed` detects whether we are // after a `yield` or `of` construct. See the `updateContext` for // `tt.name`. if (prevType === types._return || prevType === types.name && this.exprAllowed) { return lineBreak.test(this.input.slice(this.lastTokEnd, this.start)) } if (prevType === types._else || prevType === types.semi || prevType === types.eof || prevType === types.parenR || prevType === types.arrow) { return true } if (prevType === types.braceL) { return parent === types$1.b_stat } if (prevType === types._var || prevType === types._const || prevType === types.name) { return false } return !this.exprAllowed }; pp$7.inGeneratorContext = function() { var this$1 = this; for (var i = this.context.length - 1; i >= 1; i--) { var context = this$1.context[i]; if (context.token === "function") { return context.generator } } return false }; pp$7.updateContext = function(prevType) { var update, type = this.type; if (type.keyword && prevType === types.dot) { this.exprAllowed = false; } else if (update = type.updateContext) { update.call(this, prevType); } else { this.exprAllowed = type.beforeExpr; } }; // Token-specific context update code types.parenR.updateContext = types.braceR.updateContext = function() { if (this.context.length === 1) { this.exprAllowed = true; return } var out = this.context.pop(); if (out === types$1.b_stat && this.curContext().token === "function") { out = this.context.pop(); } this.exprAllowed = !out.isExpr; }; types.braceL.updateContext = function(prevType) { this.context.push(this.braceIsBlock(prevType) ? types$1.b_stat : types$1.b_expr); this.exprAllowed = true; }; types.dollarBraceL.updateContext = function() { this.context.push(types$1.b_tmpl); this.exprAllowed = true; }; types.parenL.updateContext = function(prevType) { var statementParens = prevType === types._if || prevType === types._for || prevType === types._with || prevType === types._while; this.context.push(statementParens ? types$1.p_stat : types$1.p_expr); this.exprAllowed = true; }; types.incDec.updateContext = function() { // tokExprAllowed stays unchanged }; types._function.updateContext = types._class.updateContext = function(prevType) { if (prevType.beforeExpr && prevType !== types.semi && prevType !== types._else && !(prevType === types._return && lineBreak.test(this.input.slice(this.lastTokEnd, this.start))) && !((prevType === types.colon || prevType === types.braceL) && this.curContext() === types$1.b_stat)) { this.context.push(types$1.f_expr); } else { this.context.push(types$1.f_stat); } this.exprAllowed = false; }; types.backQuote.updateContext = function() { if (this.curContext() === types$1.q_tmpl) { this.context.pop(); } else { this.context.push(types$1.q_tmpl); } this.exprAllowed = false; }; types.star.updateContext = function(prevType) { if (prevType === types._function) { var index = this.context.length - 1; if (this.context[index] === types$1.f_expr) { this.context[index] = types$1.f_expr_gen; } else { this.context[index] = types$1.f_gen; } } this.exprAllowed = true; }; types.name.updateContext = function(prevType) { var allowed = false; if (this.options.ecmaVersion >= 6 && prevType !== types.dot) { if (this.value === "of" && !this.exprAllowed || this.value === "yield" && this.inGeneratorContext()) { allowed = true; } } this.exprAllowed = allowed; }; var data = { "$LONE": [ "ASCII", "ASCII_Hex_Digit", "AHex", "Alphabetic", "Alpha", "Any", "Assigned", "Bidi_Control", "Bidi_C", "Bidi_Mirrored", "Bidi_M", "Case_Ignorable", "CI", "Cased", "Changes_When_Casefolded", "CWCF", "Changes_When_Casemapped", "CWCM", "Changes_When_Lowercased", "CWL", "Changes_When_NFKC_Casefolded", "CWKCF", "Changes_When_Titlecased", "CWT", "Changes_When_Uppercased", "CWU", "Dash", "Default_Ignorable_Code_Point", "DI", "Deprecated", "Dep", "Diacritic", "Dia", "Emoji", "Emoji_Component", "Emoji_Modifier", "Emoji_Modifier_Base", "Emoji_Presentation", "Extender", "Ext", "Grapheme_Base", "Gr_Base", "Grapheme_Extend", "Gr_Ext", "Hex_Digit", "Hex", "IDS_Binary_Operator", "IDSB", "IDS_Trinary_Operator", "IDST", "ID_Continue", "IDC", "ID_Start", "IDS", "Ideographic", "Ideo", "Join_Control", "Join_C", "Logical_Order_Exception", "LOE", "Lowercase", "Lower", "Math", "Noncharacter_Code_Point", "NChar", "Pattern_Syntax", "Pat_Syn", "Pattern_White_Space", "Pat_WS", "Quotation_Mark", "QMark", "Radical", "Regional_Indicator", "RI", "Sentence_Terminal", "STerm", "Soft_Dotted", "SD", "Terminal_Punctuation", "Term", "Unified_Ideograph", "UIdeo", "Uppercase", "Upper", "Variation_Selector", "VS", "White_Space", "space", "XID_Continue", "XIDC", "XID_Start", "XIDS" ], "General_Category": [ "Cased_Letter", "LC", "Close_Punctuation", "Pe", "Connector_Punctuation", "Pc", "Control", "Cc", "cntrl", "Currency_Symbol", "Sc", "Dash_Punctuation", "Pd", "Decimal_Number", "Nd", "digit", "Enclosing_Mark", "Me", "Final_Punctuation", "Pf", "Format", "Cf", "Initial_Punctuation", "Pi", "Letter", "L", "Letter_Number", "Nl", "Line_Separator", "Zl", "Lowercase_Letter", "Ll", "Mark", "M", "Combining_Mark", "Math_Symbol", "Sm", "Modifier_Letter", "Lm", "Modifier_Symbol", "Sk", "Nonspacing_Mark", "Mn", "Number", "N", "Open_Punctuation", "Ps", "Other", "C", "Other_Letter", "Lo", "Other_Number", "No", "Other_Punctuation", "Po", "Other_Symbol", "So", "Paragraph_Separator", "Zp", "Private_Use", "Co", "Punctuation", "P", "punct", "Separator", "Z", "Space_Separator", "Zs", "Spacing_Mark", "Mc", "Surrogate", "Cs", "Symbol", "S", "Titlecase_Letter", "Lt", "Unassigned", "Cn", "Uppercase_Letter", "Lu" ], "Script": [ "Adlam", "Adlm", "Ahom", "Anatolian_Hieroglyphs", "Hluw", "Arabic", "Arab", "Armenian", "Armn", "Avestan", "Avst", "Balinese", "Bali", "Bamum", "Bamu", "Bassa_Vah", "Bass", "Batak", "Batk", "Bengali", "Beng", "Bhaiksuki", "Bhks", "Bopomofo", "Bopo", "Brahmi", "Brah", "Braille", "Brai", "Buginese", "Bugi", "Buhid", "Buhd", "Canadian_Aboriginal", "Cans", "Carian", "Cari", "Caucasian_Albanian", "Aghb", "Chakma", "Cakm", "Cham", "Cherokee", "Cher", "Common", "Zyyy", "Coptic", "Copt", "Qaac", "Cuneiform", "Xsux", "Cypriot", "Cprt", "Cyrillic", "Cyrl", "Deseret", "Dsrt", "Devanagari", "Deva", "Duployan", "Dupl", "Egyptian_Hieroglyphs", "Egyp", "Elbasan", "Elba", "Ethiopic", "Ethi", "Georgian", "Geor", "Glagolitic", "Glag", "Gothic", "Goth", "Grantha", "Gran", "Greek", "Grek", "Gujarati", "Gujr", "Gurmukhi", "Guru", "Han", "Hani", "Hangul", "Hang", "Hanunoo", "Hano", "Hatran", "Hatr", "Hebrew", "Hebr", "Hiragana", "Hira", "Imperial_Aramaic", "Armi", "Inherited", "Zinh", "Qaai", "Inscriptional_Pahlavi", "Phli", "Inscriptional_Parthian", "Prti", "Javanese", "Java", "Kaithi", "Kthi", "Kannada", "Knda", "Katakana", "Kana", "Kayah_Li", "Kali", "Kharoshthi", "Khar", "Khmer", "Khmr", "Khojki", "Khoj", "Khudawadi", "Sind", "Lao", "Laoo", "Latin", "Latn", "Lepcha", "Lepc", "Limbu", "Limb", "Linear_A", "Lina", "Linear_B", "Linb", "Lisu", "Lycian", "Lyci", "Lydian", "Lydi", "Mahajani", "Mahj", "Malayalam", "Mlym", "Mandaic", "Mand", "Manichaean", "Mani", "Marchen", "Marc", "Masaram_Gondi", "Gonm", "Meetei_Mayek", "Mtei", "Mende_Kikakui", "Mend", "Meroitic_Cursive", "Merc", "Meroitic_Hieroglyphs", "Mero", "Miao", "Plrd", "Modi", "Mongolian", "Mong", "Mro", "Mroo", "Multani", "Mult", "Myanmar", "Mymr", "Nabataean", "Nbat", "New_Tai_Lue", "Talu", "Newa", "Nko", "Nkoo", "Nushu", "Nshu", "Ogham", "Ogam", "Ol_Chiki", "Olck", "Old_Hungarian", "Hung", "Old_Italic", "Ital", "Old_North_Arabian", "Narb", "Old_Permic", "Perm", "Old_Persian", "Xpeo", "Old_South_Arabian", "Sarb", "Old_Turkic", "Orkh", "Oriya", "Orya", "Osage", "Osge", "Osmanya", "Osma", "Pahawh_Hmong", "Hmng", "Palmyrene", "Palm", "Pau_Cin_Hau", "Pauc", "Phags_Pa", "Phag", "Phoenician", "Phnx", "Psalter_Pahlavi", "Phlp", "Rejang", "Rjng", "Runic", "Runr", "Samaritan", "Samr", "Saurashtra", "Saur", "Sharada", "Shrd", "Shavian", "Shaw", "Siddham", "Sidd", "SignWriting", "Sgnw", "Sinhala", "Sinh", "Sora_Sompeng", "Sora", "Soyombo", "Soyo", "Sundanese", "Sund", "Syloti_Nagri", "Sylo", "Syriac", "Syrc", "Tagalog", "Tglg", "Tagbanwa", "Tagb", "Tai_Le", "Tale", "Tai_Tham", "Lana", "Tai_Viet", "Tavt", "Takri", "Takr", "Tamil", "Taml", "Tangut", "Tang", "Telugu", "Telu", "Thaana", "Thaa", "Thai", "Tibetan", "Tibt", "Tifinagh", "Tfng", "Tirhuta", "Tirh", "Ugaritic", "Ugar", "Vai", "Vaii", "Warang_Citi", "Wara", "Yi", "Yiii", "Zanabazar_Square", "Zanb" ] }; Array.prototype.push.apply(data.$LONE, data.General_Category); data.gc = data.General_Category; data.sc = data.Script_Extensions = data.scx = data.Script; var pp$9 = Parser.prototype; var RegExpValidationState = function RegExpValidationState(parser) { this.parser = parser; this.validFlags = "gim" + (parser.options.ecmaVersion >= 6 ? "uy" : "") + (parser.options.ecmaVersion >= 9 ? "s" : ""); this.source = ""; this.flags = ""; this.start = 0; this.switchU = false; this.switchN = false; this.pos = 0; this.lastIntValue = 0; this.lastStringValue = ""; this.lastAssertionIsQuantifiable = false; this.numCapturingParens = 0; this.maxBackReference = 0; this.groupNames = []; this.backReferenceNames = []; }; RegExpValidationState.prototype.reset = function reset (start, pattern, flags) { var unicode = flags.indexOf("u") !== -1; this.start = start | 0; this.source = pattern + ""; this.flags = flags; this.switchU = unicode && this.parser.options.ecmaVersion >= 6; this.switchN = unicode && this.parser.options.ecmaVersion >= 9; }; RegExpValidationState.prototype.raise = function raise (message) { this.parser.raiseRecoverable(this.start, ("Invalid regular expression: /" + (this.source) + "/: " + message)); }; // If u flag is given, this returns the code point at the index (it combines a surrogate pair). // Otherwise, this returns the code unit of the index (can be a part of a surrogate pair). RegExpValidationState.prototype.at = function at (i) { var s = this.source; var l = s.length; if (i >= l) { return -1 } var c = s.charCodeAt(i); if (!this.switchU || c <= 0xD7FF || c >= 0xE000 || i + 1 >= l) { return c } return (c << 10) + s.charCodeAt(i + 1) - 0x35FDC00 }; RegExpValidationState.prototype.nextIndex = function nextIndex (i) { var s = this.source; var l = s.length; if (i >= l) { return l } var c = s.charCodeAt(i); if (!this.switchU || c <= 0xD7FF || c >= 0xE000 || i + 1 >= l) { return i + 1 } return i + 2 }; RegExpValidationState.prototype.current = function current () { return this.at(this.pos) }; RegExpValidationState.prototype.lookahead = function lookahead () { return this.at(this.nextIndex(this.pos)) }; RegExpValidationState.prototype.advance = function advance () { this.pos = this.nextIndex(this.pos); }; RegExpValidationState.prototype.eat = function eat (ch) { if (this.current() === ch) { this.advance(); return true } return false }; function codePointToString$1(ch) { if (ch <= 0xFFFF) { return String.fromCharCode(ch) } ch -= 0x10000; return String.fromCharCode((ch >> 10) + 0xD800, (ch & 0x03FF) + 0xDC00) } /** * Validate the flags part of a given RegExpLiteral. * * @param {RegExpValidationState} state The state to validate RegExp. * @returns {void} */ pp$9.validateRegExpFlags = function(state) { var this$1 = this; var validFlags = state.validFlags; var flags = state.flags; for (var i = 0; i < flags.length; i++) { var flag = flags.charAt(i); if (validFlags.indexOf(flag) === -1) { this$1.raise(state.start, "Invalid regular expression flag"); } if (flags.indexOf(flag, i + 1) > -1) { this$1.raise(state.start, "Duplicate regular expression flag"); } } }; /** * Validate the pattern part of a given RegExpLiteral. * * @param {RegExpValidationState} state The state to validate RegExp. * @returns {void} */ pp$9.validateRegExpPattern = function(state) { this.regexp_pattern(state); // The goal symbol for the parse is |Pattern[~U, ~N]|. If the result of // parsing contains a |GroupName|, reparse with the goal symbol // |Pattern[~U, +N]| and use this result instead. Throw a *SyntaxError* // exception if _P_ did not conform to the grammar, if any elements of _P_ // were not matched by the parse, or if any Early Error conditions exist. if (!state.switchN && this.options.ecmaVersion >= 9 && state.groupNames.length > 0) { state.switchN = true; this.regexp_pattern(state); } }; // https://www.ecma-international.org/ecma-262/8.0/#prod-Pattern pp$9.regexp_pattern = function(state) { state.pos = 0; state.lastIntValue = 0; state.lastStringValue = ""; state.lastAssertionIsQuantifiable = false; state.numCapturingParens = 0; state.maxBackReference = 0; state.groupNames.length = 0; state.backReferenceNames.length = 0; this.regexp_disjunction(state); if (state.pos !== state.source.length) { // Make the same messages as V8. if (state.eat(0x29 /* ) */)) { state.raise("Unmatched ')'"); } if (state.eat(0x5D /* [ */) || state.eat(0x7D /* } */)) { state.raise("Lone quantifier brackets"); } } if (state.maxBackReference > state.numCapturingParens) { state.raise("Invalid escape"); } for (var i = 0, list = state.backReferenceNames; i < list.length; i += 1) { var name = list[i]; if (state.groupNames.indexOf(name) === -1) { state.raise("Invalid named capture referenced"); } } }; // https://www.ecma-international.org/ecma-262/8.0/#prod-Disjunction pp$9.regexp_disjunction = function(state) { var this$1 = this; this.regexp_alternative(state); while (state.eat(0x7C /* | */)) { this$1.regexp_alternative(state); } // Make the same message as V8. if (this.regexp_eatQuantifier(state, true)) { state.raise("Nothing to repeat"); } if (state.eat(0x7B /* { */)) { state.raise("Lone quantifier brackets"); } }; // https://www.ecma-international.org/ecma-262/8.0/#prod-Alternative pp$9.regexp_alternative = function(state) { while (state.pos < state.source.length && this.regexp_eatTerm(state)) { } }; // https://www.ecma-international.org/ecma-262/8.0/#prod-annexB-Term pp$9.regexp_eatTerm = function(state) { if (this.regexp_eatAssertion(state)) { // Handle `QuantifiableAssertion Quantifier` alternative. // `state.lastAssertionIsQuantifiable` is true if the last eaten Assertion // is a QuantifiableAssertion. if (state.lastAssertionIsQuantifiable && this.regexp_eatQuantifier(state)) { // Make the same message as V8. if (state.switchU) { state.raise("Invalid quantifier"); } } return true } if (state.switchU ? this.regexp_eatAtom(state) : this.regexp_eatExtendedAtom(state)) { this.regexp_eatQuantifier(state); return true } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-annexB-Assertion pp$9.regexp_eatAssertion = function(state) { var start = state.pos; state.lastAssertionIsQuantifiable = false; // ^, $ if (state.eat(0x5E /* ^ */) || state.eat(0x24 /* $ */)) { return true } // \b \B if (state.eat(0x5C /* \ */)) { if (state.eat(0x42 /* B */) || state.eat(0x62 /* b */)) { return true } state.pos = start; } // Lookahead / Lookbehind if (state.eat(0x28 /* ( */) && state.eat(0x3F /* ? */)) { var lookbehind = false; if (this.options.ecmaVersion >= 9) { lookbehind = state.eat(0x3C /* < */); } if (state.eat(0x3D /* = */) || state.eat(0x21 /* ! */)) { this.regexp_disjunction(state); if (!state.eat(0x29 /* ) */)) { state.raise("Unterminated group"); } state.lastAssertionIsQuantifiable = !lookbehind; return true } } state.pos = start; return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-Quantifier pp$9.regexp_eatQuantifier = function(state, noError) { if ( noError === void 0 ) noError = false; if (this.regexp_eatQuantifierPrefix(state, noError)) { state.eat(0x3F /* ? */); return true } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-QuantifierPrefix pp$9.regexp_eatQuantifierPrefix = function(state, noError) { return ( state.eat(0x2A /* * */) || state.eat(0x2B /* + */) || state.eat(0x3F /* ? */) || this.regexp_eatBracedQuantifier(state, noError) ) }; pp$9.regexp_eatBracedQuantifier = function(state, noError) { var start = state.pos; if (state.eat(0x7B /* { */)) { var min = 0, max = -1; if (this.regexp_eatDecimalDigits(state)) { min = state.lastIntValue; if (state.eat(0x2C /* , */) && this.regexp_eatDecimalDigits(state)) { max = state.lastIntValue; } if (state.eat(0x7D /* } */)) { // SyntaxError in https://www.ecma-international.org/ecma-262/8.0/#sec-term if (max !== -1 && max < min && !noError) { state.raise("numbers out of order in {} quantifier"); } return true } } if (state.switchU && !noError) { state.raise("Incomplete quantifier"); } state.pos = start; } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-Atom pp$9.regexp_eatAtom = function(state) { return ( this.regexp_eatPatternCharacters(state) || state.eat(0x2E /* . */) || this.regexp_eatReverseSolidusAtomEscape(state) || this.regexp_eatCharacterClass(state) || this.regexp_eatUncapturingGroup(state) || this.regexp_eatCapturingGroup(state) ) }; pp$9.regexp_eatReverseSolidusAtomEscape = function(state) { var start = state.pos; if (state.eat(0x5C /* \ */)) { if (this.regexp_eatAtomEscape(state)) { return true } state.pos = start; } return false }; pp$9.regexp_eatUncapturingGroup = function(state) { var start = state.pos; if (state.eat(0x28 /* ( */)) { if (state.eat(0x3F /* ? */) && state.eat(0x3A /* : */)) { this.regexp_disjunction(state); if (state.eat(0x29 /* ) */)) { return true } state.raise("Unterminated group"); } state.pos = start; } return false }; pp$9.regexp_eatCapturingGroup = function(state) { if (state.eat(0x28 /* ( */)) { if (this.options.ecmaVersion >= 9) { this.regexp_groupSpecifier(state); } else if (state.current() === 0x3F /* ? */) { state.raise("Invalid group"); } this.regexp_disjunction(state); if (state.eat(0x29 /* ) */)) { state.numCapturingParens += 1; return true } state.raise("Unterminated group"); } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-annexB-ExtendedAtom pp$9.regexp_eatExtendedAtom = function(state) { return ( state.eat(0x2E /* . */) || this.regexp_eatReverseSolidusAtomEscape(state) || this.regexp_eatCharacterClass(state) || this.regexp_eatUncapturingGroup(state) || this.regexp_eatCapturingGroup(state) || this.regexp_eatInvalidBracedQuantifier(state) || this.regexp_eatExtendedPatternCharacter(state) ) }; // https://www.ecma-international.org/ecma-262/8.0/#prod-annexB-InvalidBracedQuantifier pp$9.regexp_eatInvalidBracedQuantifier = function(state) { if (this.regexp_eatBracedQuantifier(state, true)) { state.raise("Nothing to repeat"); } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-SyntaxCharacter pp$9.regexp_eatSyntaxCharacter = function(state) { var ch = state.current(); if (isSyntaxCharacter(ch)) { state.lastIntValue = ch; state.advance(); return true } return false }; function isSyntaxCharacter(ch) { return ( ch === 0x24 /* $ */ || ch >= 0x28 /* ( */ && ch <= 0x2B /* + */ || ch === 0x2E /* . */ || ch === 0x3F /* ? */ || ch >= 0x5B /* [ */ && ch <= 0x5E /* ^ */ || ch >= 0x7B /* { */ && ch <= 0x7D /* } */ ) } // https://www.ecma-international.org/ecma-262/8.0/#prod-PatternCharacter // But eat eager. pp$9.regexp_eatPatternCharacters = function(state) { var start = state.pos; var ch = 0; while ((ch = state.current()) !== -1 && !isSyntaxCharacter(ch)) { state.advance(); } return state.pos !== start }; // https://www.ecma-international.org/ecma-262/8.0/#prod-annexB-ExtendedPatternCharacter pp$9.regexp_eatExtendedPatternCharacter = function(state) { var ch = state.current(); if ( ch !== -1 && ch !== 0x24 /* $ */ && !(ch >= 0x28 /* ( */ && ch <= 0x2B /* + */) && ch !== 0x2E /* . */ && ch !== 0x3F /* ? */ && ch !== 0x5B /* [ */ && ch !== 0x5E /* ^ */ && ch !== 0x7C /* | */ ) { state.advance(); return true } return false }; // GroupSpecifier[U] :: // [empty] // `?` GroupName[?U] pp$9.regexp_groupSpecifier = function(state) { if (state.eat(0x3F /* ? */)) { if (this.regexp_eatGroupName(state)) { if (state.groupNames.indexOf(state.lastStringValue) !== -1) { state.raise("Duplicate capture group name"); } state.groupNames.push(state.lastStringValue); return } state.raise("Invalid group"); } }; // GroupName[U] :: // `<` RegExpIdentifierName[?U] `>` // Note: this updates `state.lastStringValue` property with the eaten name. pp$9.regexp_eatGroupName = function(state) { state.lastStringValue = ""; if (state.eat(0x3C /* < */)) { if (this.regexp_eatRegExpIdentifierName(state) && state.eat(0x3E /* > */)) { return true } state.raise("Invalid capture group name"); } return false }; // RegExpIdentifierName[U] :: // RegExpIdentifierStart[?U] // RegExpIdentifierName[?U] RegExpIdentifierPart[?U] // Note: this updates `state.lastStringValue` property with the eaten name. pp$9.regexp_eatRegExpIdentifierName = function(state) { state.lastStringValue = ""; if (this.regexp_eatRegExpIdentifierStart(state)) { state.lastStringValue += codePointToString$1(state.lastIntValue); while (this.regexp_eatRegExpIdentifierPart(state)) { state.lastStringValue += codePointToString$1(state.lastIntValue); } return true } return false }; // RegExpIdentifierStart[U] :: // UnicodeIDStart // `$` // `_` // `\` RegExpUnicodeEscapeSequence[?U] pp$9.regexp_eatRegExpIdentifierStart = function(state) { var start = state.pos; var ch = state.current(); state.advance(); if (ch === 0x5C /* \ */ && this.regexp_eatRegExpUnicodeEscapeSequence(state)) { ch = state.lastIntValue; } if (isRegExpIdentifierStart(ch)) { state.lastIntValue = ch; return true } state.pos = start; return false }; function isRegExpIdentifierStart(ch) { return isIdentifierStart(ch, true) || ch === 0x24 /* $ */ || ch === 0x5F /* _ */ } // RegExpIdentifierPart[U] :: // UnicodeIDContinue // `$` // `_` // `\` RegExpUnicodeEscapeSequence[?U] // // pp$9.regexp_eatRegExpIdentifierPart = function(state) { var start = state.pos; var ch = state.current(); state.advance(); if (ch === 0x5C /* \ */ && this.regexp_eatRegExpUnicodeEscapeSequence(state)) { ch = state.lastIntValue; } if (isRegExpIdentifierPart(ch)) { state.lastIntValue = ch; return true } state.pos = start; return false }; function isRegExpIdentifierPart(ch) { return isIdentifierChar(ch, true) || ch === 0x24 /* $ */ || ch === 0x5F /* _ */ || ch === 0x200C /* */ || ch === 0x200D /* */ } // https://www.ecma-international.org/ecma-262/8.0/#prod-annexB-AtomEscape pp$9.regexp_eatAtomEscape = function(state) { if ( this.regexp_eatBackReference(state) || this.regexp_eatCharacterClassEscape(state) || this.regexp_eatCharacterEscape(state) || (state.switchN && this.regexp_eatKGroupName(state)) ) { return true } if (state.switchU) { // Make the same message as V8. if (state.current() === 0x63 /* c */) { state.raise("Invalid unicode escape"); } state.raise("Invalid escape"); } return false }; pp$9.regexp_eatBackReference = function(state) { var start = state.pos; if (this.regexp_eatDecimalEscape(state)) { var n = state.lastIntValue; if (state.switchU) { // For SyntaxError in https://www.ecma-international.org/ecma-262/8.0/#sec-atomescape if (n > state.maxBackReference) { state.maxBackReference = n; } return true } if (n <= state.numCapturingParens) { return true } state.pos = start; } return false }; pp$9.regexp_eatKGroupName = function(state) { if (state.eat(0x6B /* k */)) { if (this.regexp_eatGroupName(state)) { state.backReferenceNames.push(state.lastStringValue); return true } state.raise("Invalid named reference"); } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-annexB-CharacterEscape pp$9.regexp_eatCharacterEscape = function(state) { return ( this.regexp_eatControlEscape(state) || this.regexp_eatCControlLetter(state) || this.regexp_eatZero(state) || this.regexp_eatHexEscapeSequence(state) || this.regexp_eatRegExpUnicodeEscapeSequence(state) || (!state.switchU && this.regexp_eatLegacyOctalEscapeSequence(state)) || this.regexp_eatIdentityEscape(state) ) }; pp$9.regexp_eatCControlLetter = function(state) { var start = state.pos; if (state.eat(0x63 /* c */)) { if (this.regexp_eatControlLetter(state)) { return true } state.pos = start; } return false }; pp$9.regexp_eatZero = function(state) { if (state.current() === 0x30 /* 0 */ && !isDecimalDigit(state.lookahead())) { state.lastIntValue = 0; state.advance(); return true } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-ControlEscape pp$9.regexp_eatControlEscape = function(state) { var ch = state.current(); if (ch === 0x74 /* t */) { state.lastIntValue = 0x09; /* \t */ state.advance(); return true } if (ch === 0x6E /* n */) { state.lastIntValue = 0x0A; /* \n */ state.advance(); return true } if (ch === 0x76 /* v */) { state.lastIntValue = 0x0B; /* \v */ state.advance(); return true } if (ch === 0x66 /* f */) { state.lastIntValue = 0x0C; /* \f */ state.advance(); return true } if (ch === 0x72 /* r */) { state.lastIntValue = 0x0D; /* \r */ state.advance(); return true } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-ControlLetter pp$9.regexp_eatControlLetter = function(state) { var ch = state.current(); if (isControlLetter(ch)) { state.lastIntValue = ch % 0x20; state.advance(); return true } return false }; function isControlLetter(ch) { return ( (ch >= 0x41 /* A */ && ch <= 0x5A /* Z */) || (ch >= 0x61 /* a */ && ch <= 0x7A /* z */) ) } // https://www.ecma-international.org/ecma-262/8.0/#prod-RegExpUnicodeEscapeSequence pp$9.regexp_eatRegExpUnicodeEscapeSequence = function(state) { var start = state.pos; if (state.eat(0x75 /* u */)) { if (this.regexp_eatFixedHexDigits(state, 4)) { var lead = state.lastIntValue; if (state.switchU && lead >= 0xD800 && lead <= 0xDBFF) { var leadSurrogateEnd = state.pos; if (state.eat(0x5C /* \ */) && state.eat(0x75 /* u */) && this.regexp_eatFixedHexDigits(state, 4)) { var trail = state.lastIntValue; if (trail >= 0xDC00 && trail <= 0xDFFF) { state.lastIntValue = (lead - 0xD800) * 0x400 + (trail - 0xDC00) + 0x10000; return true } } state.pos = leadSurrogateEnd; state.lastIntValue = lead; } return true } if ( state.switchU && state.eat(0x7B /* { */) && this.regexp_eatHexDigits(state) && state.eat(0x7D /* } */) && isValidUnicode(state.lastIntValue) ) { return true } if (state.switchU) { state.raise("Invalid unicode escape"); } state.pos = start; } return false }; function isValidUnicode(ch) { return ch >= 0 && ch <= 0x10FFFF } // https://www.ecma-international.org/ecma-262/8.0/#prod-annexB-IdentityEscape pp$9.regexp_eatIdentityEscape = function(state) { if (state.switchU) { if (this.regexp_eatSyntaxCharacter(state)) { return true } if (state.eat(0x2F /* / */)) { state.lastIntValue = 0x2F; /* / */ return true } return false } var ch = state.current(); if (ch !== 0x63 /* c */ && (!state.switchN || ch !== 0x6B /* k */)) { state.lastIntValue = ch; state.advance(); return true } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-DecimalEscape pp$9.regexp_eatDecimalEscape = function(state) { state.lastIntValue = 0; var ch = state.current(); if (ch >= 0x31 /* 1 */ && ch <= 0x39 /* 9 */) { do { state.lastIntValue = 10 * state.lastIntValue + (ch - 0x30 /* 0 */); state.advance(); } while ((ch = state.current()) >= 0x30 /* 0 */ && ch <= 0x39 /* 9 */) return true } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-CharacterClassEscape pp$9.regexp_eatCharacterClassEscape = function(state) { var ch = state.current(); if (isCharacterClassEscape(ch)) { state.lastIntValue = -1; state.advance(); return true } if ( state.switchU && this.options.ecmaVersion >= 9 && (ch === 0x50 /* P */ || ch === 0x70 /* p */) ) { state.lastIntValue = -1; state.advance(); if ( state.eat(0x7B /* { */) && this.regexp_eatUnicodePropertyValueExpression(state) && state.eat(0x7D /* } */) ) { return true } state.raise("Invalid property name"); } return false }; function isCharacterClassEscape(ch) { return ( ch === 0x64 /* d */ || ch === 0x44 /* D */ || ch === 0x73 /* s */ || ch === 0x53 /* S */ || ch === 0x77 /* w */ || ch === 0x57 /* W */ ) } // UnicodePropertyValueExpression :: // UnicodePropertyName `=` UnicodePropertyValue // LoneUnicodePropertyNameOrValue pp$9.regexp_eatUnicodePropertyValueExpression = function(state) { var start = state.pos; // UnicodePropertyName `=` UnicodePropertyValue if (this.regexp_eatUnicodePropertyName(state) && state.eat(0x3D /* = */)) { var name = state.lastStringValue; if (this.regexp_eatUnicodePropertyValue(state)) { var value = state.lastStringValue; this.regexp_validateUnicodePropertyNameAndValue(state, name, value); return true } } state.pos = start; // LoneUnicodePropertyNameOrValue if (this.regexp_eatLoneUnicodePropertyNameOrValue(state)) { var nameOrValue = state.lastStringValue; this.regexp_validateUnicodePropertyNameOrValue(state, nameOrValue); return true } return false }; pp$9.regexp_validateUnicodePropertyNameAndValue = function(state, name, value) { if (!data.hasOwnProperty(name) || data[name].indexOf(value) === -1) { state.raise("Invalid property name"); } }; pp$9.regexp_validateUnicodePropertyNameOrValue = function(state, nameOrValue) { if (data.$LONE.indexOf(nameOrValue) === -1) { state.raise("Invalid property name"); } }; // UnicodePropertyName :: // UnicodePropertyNameCharacters pp$9.regexp_eatUnicodePropertyName = function(state) { var ch = 0; state.lastStringValue = ""; while (isUnicodePropertyNameCharacter(ch = state.current())) { state.lastStringValue += codePointToString$1(ch); state.advance(); } return state.lastStringValue !== "" }; function isUnicodePropertyNameCharacter(ch) { return isControlLetter(ch) || ch === 0x5F /* _ */ } // UnicodePropertyValue :: // UnicodePropertyValueCharacters pp$9.regexp_eatUnicodePropertyValue = function(state) { var ch = 0; state.lastStringValue = ""; while (isUnicodePropertyValueCharacter(ch = state.current())) { state.lastStringValue += codePointToString$1(ch); state.advance(); } return state.lastStringValue !== "" }; function isUnicodePropertyValueCharacter(ch) { return isUnicodePropertyNameCharacter(ch) || isDecimalDigit(ch) } // LoneUnicodePropertyNameOrValue :: // UnicodePropertyValueCharacters pp$9.regexp_eatLoneUnicodePropertyNameOrValue = function(state) { return this.regexp_eatUnicodePropertyValue(state) }; // https://www.ecma-international.org/ecma-262/8.0/#prod-CharacterClass pp$9.regexp_eatCharacterClass = function(state) { if (state.eat(0x5B /* [ */)) { state.eat(0x5E /* ^ */); this.regexp_classRanges(state); if (state.eat(0x5D /* [ */)) { return true } // Unreachable since it threw "unterminated regular expression" error before. state.raise("Unterminated character class"); } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-ClassRanges // https://www.ecma-international.org/ecma-262/8.0/#prod-NonemptyClassRanges // https://www.ecma-international.org/ecma-262/8.0/#prod-NonemptyClassRangesNoDash pp$9.regexp_classRanges = function(state) { var this$1 = this; while (this.regexp_eatClassAtom(state)) { var left = state.lastIntValue; if (state.eat(0x2D /* - */) && this$1.regexp_eatClassAtom(state)) { var right = state.lastIntValue; if (state.switchU && (left === -1 || right === -1)) { state.raise("Invalid character class"); } if (left !== -1 && right !== -1 && left > right) { state.raise("Range out of order in character class"); } } } }; // https://www.ecma-international.org/ecma-262/8.0/#prod-ClassAtom // https://www.ecma-international.org/ecma-262/8.0/#prod-ClassAtomNoDash pp$9.regexp_eatClassAtom = function(state) { var start = state.pos; if (state.eat(0x5C /* \ */)) { if (this.regexp_eatClassEscape(state)) { return true } if (state.switchU) { // Make the same message as V8. var ch$1 = state.current(); if (ch$1 === 0x63 /* c */ || isOctalDigit(ch$1)) { state.raise("Invalid class escape"); } state.raise("Invalid escape"); } state.pos = start; } var ch = state.current(); if (ch !== 0x5D /* [ */) { state.lastIntValue = ch; state.advance(); return true } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-annexB-ClassEscape pp$9.regexp_eatClassEscape = function(state) { var start = state.pos; if (state.eat(0x62 /* b */)) { state.lastIntValue = 0x08; /* */ return true } if (state.switchU && state.eat(0x2D /* - */)) { state.lastIntValue = 0x2D; /* - */ return true } if (!state.switchU && state.eat(0x63 /* c */)) { if (this.regexp_eatClassControlLetter(state)) { return true } state.pos = start; } return ( this.regexp_eatCharacterClassEscape(state) || this.regexp_eatCharacterEscape(state) ) }; // https://www.ecma-international.org/ecma-262/8.0/#prod-annexB-ClassControlLetter pp$9.regexp_eatClassControlLetter = function(state) { var ch = state.current(); if (isDecimalDigit(ch) || ch === 0x5F /* _ */) { state.lastIntValue = ch % 0x20; state.advance(); return true } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-HexEscapeSequence pp$9.regexp_eatHexEscapeSequence = function(state) { var start = state.pos; if (state.eat(0x78 /* x */)) { if (this.regexp_eatFixedHexDigits(state, 2)) { return true } if (state.switchU) { state.raise("Invalid escape"); } state.pos = start; } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-DecimalDigits pp$9.regexp_eatDecimalDigits = function(state) { var start = state.pos; var ch = 0; state.lastIntValue = 0; while (isDecimalDigit(ch = state.current())) { state.lastIntValue = 10 * state.lastIntValue + (ch - 0x30 /* 0 */); state.advance(); } return state.pos !== start }; function isDecimalDigit(ch) { return ch >= 0x30 /* 0 */ && ch <= 0x39 /* 9 */ } // https://www.ecma-international.org/ecma-262/8.0/#prod-HexDigits pp$9.regexp_eatHexDigits = function(state) { var start = state.pos; var ch = 0; state.lastIntValue = 0; while (isHexDigit(ch = state.current())) { state.lastIntValue = 16 * state.lastIntValue + hexToInt(ch); state.advance(); } return state.pos !== start }; function isHexDigit(ch) { return ( (ch >= 0x30 /* 0 */ && ch <= 0x39 /* 9 */) || (ch >= 0x41 /* A */ && ch <= 0x46 /* F */) || (ch >= 0x61 /* a */ && ch <= 0x66 /* f */) ) } function hexToInt(ch) { if (ch >= 0x41 /* A */ && ch <= 0x46 /* F */) { return 10 + (ch - 0x41 /* A */) } if (ch >= 0x61 /* a */ && ch <= 0x66 /* f */) { return 10 + (ch - 0x61 /* a */) } return ch - 0x30 /* 0 */ } // https://www.ecma-international.org/ecma-262/8.0/#prod-annexB-LegacyOctalEscapeSequence // Allows only 0-377(octal) i.e. 0-255(decimal). pp$9.regexp_eatLegacyOctalEscapeSequence = function(state) { if (this.regexp_eatOctalDigit(state)) { var n1 = state.lastIntValue; if (this.regexp_eatOctalDigit(state)) { var n2 = state.lastIntValue; if (n1 <= 3 && this.regexp_eatOctalDigit(state)) { state.lastIntValue = n1 * 64 + n2 * 8 + state.lastIntValue; } else { state.lastIntValue = n1 * 8 + n2; } } else { state.lastIntValue = n1; } return true } return false }; // https://www.ecma-international.org/ecma-262/8.0/#prod-OctalDigit pp$9.regexp_eatOctalDigit = function(state) { var ch = state.current(); if (isOctalDigit(ch)) { state.lastIntValue = ch - 0x30; /* 0 */ state.advance(); return true } state.lastIntValue = 0; return false }; function isOctalDigit(ch) { return ch >= 0x30 /* 0 */ && ch <= 0x37 /* 7 */ } // https://www.ecma-international.org/ecma-262/8.0/#prod-Hex4Digits // https://www.ecma-international.org/ecma-262/8.0/#prod-HexDigit // And HexDigit HexDigit in https://www.ecma-international.org/ecma-262/8.0/#prod-HexEscapeSequence pp$9.regexp_eatFixedHexDigits = function(state, length) { var start = state.pos; state.lastIntValue = 0; for (var i = 0; i < length; ++i) { var ch = state.current(); if (!isHexDigit(ch)) { state.pos = start; return false } state.lastIntValue = 16 * state.lastIntValue + hexToInt(ch); state.advance(); } return true }; // 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$8 = Parser.prototype; // Move to the next token pp$8.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$8.getToken = function() { this.next(); return new Token(this) }; // If we're in an ES6 environment, make parsers iterable if (typeof Symbol !== "undefined") { pp$8[Symbol.iterator] = function() { var this$1 = this; return { next: function () { var token = this$1.getToken(); return { done: token.type === types.eof, value: token } } } }; } // Toggle strict mode. Re-reads the next number or string to please // pedantic tests (`"use strict"; 010;` should fail). pp$8.curContext = function() { return this.context[this.context.length - 1] }; // Read a single token, updating the parser object's token-related // properties. pp$8.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(types.eof) } if (curContext.override) { return curContext.override(this) } else { this.readToken(this.fullCharCodeAtPos()); } }; pp$8.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$8.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$8.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$8.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 && !isNewLine(ch)) { 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$8.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$8.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$8.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(types.ellipsis) } else { ++this.pos; return this.finishToken(types.dot) } }; pp$8.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(types.assign, 2) } return this.finishOp(types.slash, 1) }; pp$8.readToken_mult_modulo_exp = function(code) { // '%*' var next = this.input.charCodeAt(this.pos + 1); var size = 1; var tokentype = code === 42 ? types.star : types.modulo; // exponentiation operator ** and **= if (this.options.ecmaVersion >= 7 && code === 42 && next === 42) { ++size; tokentype = types.starstar; next = this.input.charCodeAt(this.pos + 2); } if (next === 61) { return this.finishOp(types.assign, size + 1) } return this.finishOp(tokentype, size) }; pp$8.readToken_pipe_amp = function(code) { // '|&' var next = this.input.charCodeAt(this.pos + 1); if (next === code) { return this.finishOp(code === 124 ? types.logicalOR : types.logicalAND, 2) } if (next === 61) { return this.finishOp(types.assign, 2) } return this.finishOp(code === 124 ? types.bitwiseOR : types.bitwiseAND, 1) }; pp$8.readToken_caret = function() { // '^' var next = this.input.charCodeAt(this.pos + 1); if (next === 61) { return this.finishOp(types.assign, 2) } return this.finishOp(types.bitwiseXOR, 1) }; pp$8.readToken_plus_min = function(code) { // '+-' var next = this.input.charCodeAt(this.pos + 1); if (next === code) { if (next === 45 && !this.inModule && this.input.charCodeAt(this.pos + 2) === 62 && (this.lastTokEnd === 0 || lineBreak.test(this.input.slice(this.lastTokEnd, this.pos)))) { // A `-->` line comment this.skipLineComment(3); this.skipSpace(); return this.nextToken() } return this.finishOp(types.incDec, 2) } if (next === 61) { return this.finishOp(types.assign, 2) } return this.finishOp(types.plusMin, 1) }; pp$8.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(types.assign, size + 1) } return this.finishOp(types.bitShift, size) } if (next === 33 && code === 60 && !this.inModule && this.input.charCodeAt(this.pos + 2) === 45 && this.input.charCodeAt(this.pos + 3) === 45) { // `