gitlabhq/vendor/assets/javascripts/ace-src-noconflict/worker-javascript.js

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JavaScript
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2012-10-09 19:11:49 +02:00
"no use strict";
var console = {
log: function(msgs) {
postMessage({type: "log", data: arguments.join(" ")});
}
};
var window = {
console: console
};
var normalizeModule = function(parentId, moduleName) {
// normalize plugin requires
if (moduleName.indexOf("!") !== -1) {
var chunks = moduleName.split("!");
return normalizeModule(parentId, chunks[0]) + "!" + normalizeModule(parentId, chunks[1]);
}
// normalize relative requires
if (moduleName.charAt(0) == ".") {
var base = parentId.split("/").slice(0, -1).join("/");
var moduleName = base + "/" + moduleName;
while(moduleName.indexOf(".") !== -1 && previous != moduleName) {
var previous = moduleName;
var moduleName = moduleName.replace(/\/\.\//, "/").replace(/[^\/]+\/\.\.\//, "");
}
}
return moduleName;
};
var require = function(parentId, id) {
if (!id.charAt)
throw new Error("worker.js require() accepts only (parentId, id) as arguments");
var id = normalizeModule(parentId, id);
var module = require.modules[id];
if (module) {
if (!module.initialized) {
module.initialized = true;
module.exports = module.factory().exports;
}
return module.exports;
}
var chunks = id.split("/");
chunks[0] = require.tlns[chunks[0]] || chunks[0];
var path = chunks.join("/") + ".js";
require.id = id;
importScripts(path);
return require(parentId, id);
};
require.modules = {};
require.tlns = {};
var define = function(id, deps, factory) {
if (arguments.length == 2) {
factory = deps;
if (typeof id != "string") {
deps = id;
id = require.id;
}
} else if (arguments.length == 1) {
factory = id;
id = require.id;
}
if (id.indexOf("text!") === 0)
return;
var req = function(deps, factory) {
return require(id, deps, factory);
};
require.modules[id] = {
factory: function() {
var module = {
exports: {}
};
var returnExports = factory(req, module.exports, module);
if (returnExports)
module.exports = returnExports;
return module;
}
};
};
function initBaseUrls(topLevelNamespaces) {
require.tlns = topLevelNamespaces;
}
function initSender() {
var EventEmitter = require(null, "ace/lib/event_emitter").EventEmitter;
var oop = require(null, "ace/lib/oop");
var Sender = function() {};
(function() {
oop.implement(this, EventEmitter);
this.callback = function(data, callbackId) {
postMessage({
type: "call",
id: callbackId,
data: data
});
};
this.emit = function(name, data) {
postMessage({
type: "event",
name: name,
data: data
});
};
}).call(Sender.prototype);
return new Sender();
}
var main;
var sender;
onmessage = function(e) {
var msg = e.data;
if (msg.command) {
main[msg.command].apply(main, msg.args);
}
else if (msg.init) {
initBaseUrls(msg.tlns);
require(null, "ace/lib/fixoldbrowsers");
sender = initSender();
var clazz = require(null, msg.module)[msg.classname];
main = new clazz(sender);
}
else if (msg.event && sender) {
sender._emit(msg.event, msg.data);
}
};
// vim:set ts=4 sts=4 sw=4 st:
// -- kriskowal Kris Kowal Copyright (C) 2009-2010 MIT License
// -- tlrobinson Tom Robinson Copyright (C) 2009-2010 MIT License (Narwhal Project)
// -- dantman Daniel Friesen Copyright(C) 2010 XXX No License Specified
// -- fschaefer Florian Schäfer Copyright (C) 2010 MIT License
// -- Irakli Gozalishvili Copyright (C) 2010 MIT License
/*!
Copyright (c) 2009, 280 North Inc. http://280north.com/
MIT License. http://github.com/280north/narwhal/blob/master/README.md
*/
define('ace/lib/fixoldbrowsers', ['require', 'exports', 'module' , 'ace/lib/regexp', 'ace/lib/es5-shim'], function(require, exports, module) {
require("./regexp");
require("./es5-shim");
});
define('ace/lib/regexp', ['require', 'exports', 'module' ], function(require, exports, module) {
//---------------------------------
// Private variables
//---------------------------------
var real = {
exec: RegExp.prototype.exec,
test: RegExp.prototype.test,
match: String.prototype.match,
replace: String.prototype.replace,
split: String.prototype.split
},
compliantExecNpcg = real.exec.call(/()??/, "")[1] === undefined, // check `exec` handling of nonparticipating capturing groups
compliantLastIndexIncrement = function () {
var x = /^/g;
real.test.call(x, "");
return !x.lastIndex;
}();
if (compliantLastIndexIncrement && compliantExecNpcg)
return;
//---------------------------------
// Overriden native methods
//---------------------------------
// Adds named capture support (with backreferences returned as `result.name`), and fixes two
// cross-browser issues per ES3:
// - Captured values for nonparticipating capturing groups should be returned as `undefined`,
// rather than the empty string.
// - `lastIndex` should not be incremented after zero-length matches.
RegExp.prototype.exec = function (str) {
var match = real.exec.apply(this, arguments),
name, r2;
if ( typeof(str) == 'string' && match) {
// Fix browsers whose `exec` methods don't consistently return `undefined` for
// nonparticipating capturing groups
if (!compliantExecNpcg && match.length > 1 && indexOf(match, "") > -1) {
r2 = RegExp(this.source, real.replace.call(getNativeFlags(this), "g", ""));
// Using `str.slice(match.index)` rather than `match[0]` in case lookahead allowed
// matching due to characters outside the match
real.replace.call(str.slice(match.index), r2, function () {
for (var i = 1; i < arguments.length - 2; i++) {
if (arguments[i] === undefined)
match[i] = undefined;
}
});
}
// Attach named capture properties
if (this._xregexp && this._xregexp.captureNames) {
for (var i = 1; i < match.length; i++) {
name = this._xregexp.captureNames[i - 1];
if (name)
match[name] = match[i];
}
}
// Fix browsers that increment `lastIndex` after zero-length matches
if (!compliantLastIndexIncrement && this.global && !match[0].length && (this.lastIndex > match.index))
this.lastIndex--;
}
return match;
};
// Don't override `test` if it won't change anything
if (!compliantLastIndexIncrement) {
// Fix browser bug in native method
RegExp.prototype.test = function (str) {
// Use the native `exec` to skip some processing overhead, even though the overriden
// `exec` would take care of the `lastIndex` fix
var match = real.exec.call(this, str);
// Fix browsers that increment `lastIndex` after zero-length matches
if (match && this.global && !match[0].length && (this.lastIndex > match.index))
this.lastIndex--;
return !!match;
};
}
//---------------------------------
// Private helper functions
//---------------------------------
function getNativeFlags (regex) {
return (regex.global ? "g" : "") +
(regex.ignoreCase ? "i" : "") +
(regex.multiline ? "m" : "") +
(regex.extended ? "x" : "") + // Proposed for ES4; included in AS3
(regex.sticky ? "y" : "");
}
function indexOf (array, item, from) {
if (Array.prototype.indexOf) // Use the native array method if available
return array.indexOf(item, from);
for (var i = from || 0; i < array.length; i++) {
if (array[i] === item)
return i;
}
return -1;
}
});
// vim: ts=4 sts=4 sw=4 expandtab
// -- kriskowal Kris Kowal Copyright (C) 2009-2011 MIT License
// -- tlrobinson Tom Robinson Copyright (C) 2009-2010 MIT License (Narwhal Project)
// -- dantman Daniel Friesen Copyright (C) 2010 XXX TODO License or CLA
// -- fschaefer Florian Schäfer Copyright (C) 2010 MIT License
// -- Gozala Irakli Gozalishvili Copyright (C) 2010 MIT License
// -- kitcambridge Kit Cambridge Copyright (C) 2011 MIT License
// -- kossnocorp Sasha Koss XXX TODO License or CLA
// -- bryanforbes Bryan Forbes XXX TODO License or CLA
// -- killdream Quildreen Motta Copyright (C) 2011 MIT Licence
// -- michaelficarra Michael Ficarra Copyright (C) 2011 3-clause BSD License
// -- sharkbrainguy Gerard Paapu Copyright (C) 2011 MIT License
// -- bbqsrc Brendan Molloy (C) 2011 Creative Commons Zero (public domain)
// -- iwyg XXX TODO License or CLA
// -- DomenicDenicola Domenic Denicola Copyright (C) 2011 MIT License
// -- xavierm02 Montillet Xavier XXX TODO License or CLA
// -- Raynos Raynos XXX TODO License or CLA
// -- samsonjs Sami Samhuri Copyright (C) 2010 MIT License
// -- rwldrn Rick Waldron Copyright (C) 2011 MIT License
// -- lexer Alexey Zakharov XXX TODO License or CLA
/*!
Copyright (c) 2009, 280 North Inc. http://280north.com/
MIT License. http://github.com/280north/narwhal/blob/master/README.md
*/
define('ace/lib/es5-shim', ['require', 'exports', 'module' ], function(require, exports, module) {
/*
* Brings an environment as close to ECMAScript 5 compliance
* as is possible with the facilities of erstwhile engines.
*
* Annotated ES5: http://es5.github.com/ (specific links below)
* ES5 Spec: http://www.ecma-international.org/publications/files/ECMA-ST/Ecma-262.pdf
*
* @module
*/
/*whatsupdoc*/
//
// Function
// ========
//
// ES-5 15.3.4.5
// http://es5.github.com/#x15.3.4.5
if (!Function.prototype.bind) {
Function.prototype.bind = function bind(that) { // .length is 1
// 1. Let Target be the this value.
var target = this;
// 2. If IsCallable(Target) is false, throw a TypeError exception.
if (typeof target != "function")
throw new TypeError(); // TODO message
// 3. Let A be a new (possibly empty) internal list of all of the
// argument values provided after thisArg (arg1, arg2 etc), in order.
// XXX slicedArgs will stand in for "A" if used
var args = slice.call(arguments, 1); // for normal call
// 4. Let F be a new native ECMAScript object.
// 11. Set the [[Prototype]] internal property of F to the standard
// built-in Function prototype object as specified in 15.3.3.1.
// 12. Set the [[Call]] internal property of F as described in
// 15.3.4.5.1.
// 13. Set the [[Construct]] internal property of F as described in
// 15.3.4.5.2.
// 14. Set the [[HasInstance]] internal property of F as described in
// 15.3.4.5.3.
var bound = function () {
if (this instanceof bound) {
// 15.3.4.5.2 [[Construct]]
// When the [[Construct]] internal method of a function object,
// F that was created using the bind function is called with a
// list of arguments ExtraArgs, the following steps are taken:
// 1. Let target be the value of F's [[TargetFunction]]
// internal property.
// 2. If target has no [[Construct]] internal method, a
// TypeError exception is thrown.
// 3. Let boundArgs be the value of F's [[BoundArgs]] internal
// property.
// 4. Let args be a new list containing the same values as the
// list boundArgs in the same order followed by the same
// values as the list ExtraArgs in the same order.
// 5. Return the result of calling the [[Construct]] internal
// method of target providing args as the arguments.
var F = function(){};
F.prototype = target.prototype;
var self = new F;
var result = target.apply(
self,
args.concat(slice.call(arguments))
);
if (result !== null && Object(result) === result)
return result;
return self;
} else {
// 15.3.4.5.1 [[Call]]
// When the [[Call]] internal method of a function object, F,
// which was created using the bind function is called with a
// this value and a list of arguments ExtraArgs, the following
// steps are taken:
// 1. Let boundArgs be the value of F's [[BoundArgs]] internal
// property.
// 2. Let boundThis be the value of F's [[BoundThis]] internal
// property.
// 3. Let target be the value of F's [[TargetFunction]] internal
// property.
// 4. Let args be a new list containing the same values as the
// list boundArgs in the same order followed by the same
// values as the list ExtraArgs in the same order.
// 5. Return the result of calling the [[Call]] internal method
// of target providing boundThis as the this value and
// providing args as the arguments.
// equiv: target.call(this, ...boundArgs, ...args)
return target.apply(
that,
args.concat(slice.call(arguments))
);
}
};
// XXX bound.length is never writable, so don't even try
//
// 15. If the [[Class]] internal property of Target is "Function", then
// a. Let L be the length property of Target minus the length of A.
// b. Set the length own property of F to either 0 or L, whichever is
// larger.
// 16. Else set the length own property of F to 0.
// 17. Set the attributes of the length own property of F to the values
// specified in 15.3.5.1.
// TODO
// 18. Set the [[Extensible]] internal property of F to true.
// TODO
// 19. Let thrower be the [[ThrowTypeError]] function Object (13.2.3).
// 20. Call the [[DefineOwnProperty]] internal method of F with
// arguments "caller", PropertyDescriptor {[[Get]]: thrower, [[Set]]:
// thrower, [[Enumerable]]: false, [[Configurable]]: false}, and
// false.
// 21. Call the [[DefineOwnProperty]] internal method of F with
// arguments "arguments", PropertyDescriptor {[[Get]]: thrower,
// [[Set]]: thrower, [[Enumerable]]: false, [[Configurable]]: false},
// and false.
// TODO
// NOTE Function objects created using Function.prototype.bind do not
// have a prototype property or the [[Code]], [[FormalParameters]], and
// [[Scope]] internal properties.
// XXX can't delete prototype in pure-js.
// 22. Return F.
return bound;
};
}
// Shortcut to an often accessed properties, in order to avoid multiple
// dereference that costs universally.
// _Please note: Shortcuts are defined after `Function.prototype.bind` as we
// us it in defining shortcuts.
var call = Function.prototype.call;
var prototypeOfArray = Array.prototype;
var prototypeOfObject = Object.prototype;
var slice = prototypeOfArray.slice;
var toString = call.bind(prototypeOfObject.toString);
var owns = call.bind(prototypeOfObject.hasOwnProperty);
// If JS engine supports accessors creating shortcuts.
var defineGetter;
var defineSetter;
var lookupGetter;
var lookupSetter;
var supportsAccessors;
if ((supportsAccessors = owns(prototypeOfObject, "__defineGetter__"))) {
defineGetter = call.bind(prototypeOfObject.__defineGetter__);
defineSetter = call.bind(prototypeOfObject.__defineSetter__);
lookupGetter = call.bind(prototypeOfObject.__lookupGetter__);
lookupSetter = call.bind(prototypeOfObject.__lookupSetter__);
}
//
// Array
// =====
//
// ES5 15.4.3.2
// http://es5.github.com/#x15.4.3.2
// https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Array/isArray
if (!Array.isArray) {
Array.isArray = function isArray(obj) {
return toString(obj) == "[object Array]";
};
}
// The IsCallable() check in the Array functions
// has been replaced with a strict check on the
// internal class of the object to trap cases where
// the provided function was actually a regular
// expression literal, which in V8 and
// JavaScriptCore is a typeof "function". Only in
// V8 are regular expression literals permitted as
// reduce parameters, so it is desirable in the
// general case for the shim to match the more
// strict and common behavior of rejecting regular
// expressions.
// ES5 15.4.4.18
// http://es5.github.com/#x15.4.4.18
// https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/array/forEach
if (!Array.prototype.forEach) {
Array.prototype.forEach = function forEach(fun /*, thisp*/) {
var self = toObject(this),
thisp = arguments[1],
i = 0,
length = self.length >>> 0;
// If no callback function or if callback is not a callable function
if (toString(fun) != "[object Function]") {
throw new TypeError(); // TODO message
}
while (i < length) {
if (i in self) {
// Invoke the callback function with call, passing arguments:
// context, property value, property key, thisArg object context
fun.call(thisp, self[i], i, self);
}
i++;
}
};
}
// ES5 15.4.4.19
// http://es5.github.com/#x15.4.4.19
// https://developer.mozilla.org/en/Core_JavaScript_1.5_Reference/Objects/Array/map
if (!Array.prototype.map) {
Array.prototype.map = function map(fun /*, thisp*/) {
var self = toObject(this),
length = self.length >>> 0,
result = Array(length),
thisp = arguments[1];
// If no callback function or if callback is not a callable function
if (toString(fun) != "[object Function]") {
throw new TypeError(); // TODO message
}
for (var i = 0; i < length; i++) {
if (i in self)
result[i] = fun.call(thisp, self[i], i, self);
}
return result;
};
}
// ES5 15.4.4.20
// http://es5.github.com/#x15.4.4.20
// https://developer.mozilla.org/en/Core_JavaScript_1.5_Reference/Objects/Array/filter
if (!Array.prototype.filter) {
Array.prototype.filter = function filter(fun /*, thisp */) {
var self = toObject(this),
length = self.length >>> 0,
result = [],
thisp = arguments[1];
// If no callback function or if callback is not a callable function
if (toString(fun) != "[object Function]") {
throw new TypeError(); // TODO message
}
for (var i = 0; i < length; i++) {
if (i in self && fun.call(thisp, self[i], i, self))
result.push(self[i]);
}
return result;
};
}
// ES5 15.4.4.16
// http://es5.github.com/#x15.4.4.16
// https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Array/every
if (!Array.prototype.every) {
Array.prototype.every = function every(fun /*, thisp */) {
var self = toObject(this),
length = self.length >>> 0,
thisp = arguments[1];
// If no callback function or if callback is not a callable function
if (toString(fun) != "[object Function]") {
throw new TypeError(); // TODO message
}
for (var i = 0; i < length; i++) {
if (i in self && !fun.call(thisp, self[i], i, self))
return false;
}
return true;
};
}
// ES5 15.4.4.17
// http://es5.github.com/#x15.4.4.17
// https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Array/some
if (!Array.prototype.some) {
Array.prototype.some = function some(fun /*, thisp */) {
var self = toObject(this),
length = self.length >>> 0,
thisp = arguments[1];
// If no callback function or if callback is not a callable function
if (toString(fun) != "[object Function]") {
throw new TypeError(); // TODO message
}
for (var i = 0; i < length; i++) {
if (i in self && fun.call(thisp, self[i], i, self))
return true;
}
return false;
};
}
// ES5 15.4.4.21
// http://es5.github.com/#x15.4.4.21
// https://developer.mozilla.org/en/Core_JavaScript_1.5_Reference/Objects/Array/reduce
if (!Array.prototype.reduce) {
Array.prototype.reduce = function reduce(fun /*, initial*/) {
var self = toObject(this),
length = self.length >>> 0;
// If no callback function or if callback is not a callable function
if (toString(fun) != "[object Function]") {
throw new TypeError(); // TODO message
}
// no value to return if no initial value and an empty array
if (!length && arguments.length == 1)
throw new TypeError(); // TODO message
var i = 0;
var result;
if (arguments.length >= 2) {
result = arguments[1];
} else {
do {
if (i in self) {
result = self[i++];
break;
}
// if array contains no values, no initial value to return
if (++i >= length)
throw new TypeError(); // TODO message
} while (true);
}
for (; i < length; i++) {
if (i in self)
result = fun.call(void 0, result, self[i], i, self);
}
return result;
};
}
// ES5 15.4.4.22
// http://es5.github.com/#x15.4.4.22
// https://developer.mozilla.org/en/Core_JavaScript_1.5_Reference/Objects/Array/reduceRight
if (!Array.prototype.reduceRight) {
Array.prototype.reduceRight = function reduceRight(fun /*, initial*/) {
var self = toObject(this),
length = self.length >>> 0;
// If no callback function or if callback is not a callable function
if (toString(fun) != "[object Function]") {
throw new TypeError(); // TODO message
}
// no value to return if no initial value, empty array
if (!length && arguments.length == 1)
throw new TypeError(); // TODO message
var result, i = length - 1;
if (arguments.length >= 2) {
result = arguments[1];
} else {
do {
if (i in self) {
result = self[i--];
break;
}
// if array contains no values, no initial value to return
if (--i < 0)
throw new TypeError(); // TODO message
} while (true);
}
do {
if (i in this)
result = fun.call(void 0, result, self[i], i, self);
} while (i--);
return result;
};
}
// ES5 15.4.4.14
// http://es5.github.com/#x15.4.4.14
// https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Array/indexOf
if (!Array.prototype.indexOf) {
Array.prototype.indexOf = function indexOf(sought /*, fromIndex */ ) {
var self = toObject(this),
length = self.length >>> 0;
if (!length)
return -1;
var i = 0;
if (arguments.length > 1)
i = toInteger(arguments[1]);
// handle negative indices
i = i >= 0 ? i : Math.max(0, length + i);
for (; i < length; i++) {
if (i in self && self[i] === sought) {
return i;
}
}
return -1;
};
}
// ES5 15.4.4.15
// http://es5.github.com/#x15.4.4.15
// https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/Array/lastIndexOf
if (!Array.prototype.lastIndexOf) {
Array.prototype.lastIndexOf = function lastIndexOf(sought /*, fromIndex */) {
var self = toObject(this),
length = self.length >>> 0;
if (!length)
return -1;
var i = length - 1;
if (arguments.length > 1)
i = Math.min(i, toInteger(arguments[1]));
// handle negative indices
i = i >= 0 ? i : length - Math.abs(i);
for (; i >= 0; i--) {
if (i in self && sought === self[i])
return i;
}
return -1;
};
}
//
// Object
// ======
//
// ES5 15.2.3.2
// http://es5.github.com/#x15.2.3.2
if (!Object.getPrototypeOf) {
// https://github.com/kriskowal/es5-shim/issues#issue/2
// http://ejohn.org/blog/objectgetprototypeof/
// recommended by fschaefer on github
Object.getPrototypeOf = function getPrototypeOf(object) {
return object.__proto__ || (
object.constructor ?
object.constructor.prototype :
prototypeOfObject
);
};
}
// ES5 15.2.3.3
// http://es5.github.com/#x15.2.3.3
if (!Object.getOwnPropertyDescriptor) {
var ERR_NON_OBJECT = "Object.getOwnPropertyDescriptor called on a " +
"non-object: ";
Object.getOwnPropertyDescriptor = function getOwnPropertyDescriptor(object, property) {
if ((typeof object != "object" && typeof object != "function") || object === null)
throw new TypeError(ERR_NON_OBJECT + object);
// If object does not owns property return undefined immediately.
if (!owns(object, property))
return;
var descriptor, getter, setter;
// If object has a property then it's for sure both `enumerable` and
// `configurable`.
descriptor = { enumerable: true, configurable: true };
// If JS engine supports accessor properties then property may be a
// getter or setter.
if (supportsAccessors) {
// Unfortunately `__lookupGetter__` will return a getter even
// if object has own non getter property along with a same named
// inherited getter. To avoid misbehavior we temporary remove
// `__proto__` so that `__lookupGetter__` will return getter only
// if it's owned by an object.
var prototype = object.__proto__;
object.__proto__ = prototypeOfObject;
var getter = lookupGetter(object, property);
var setter = lookupSetter(object, property);
// Once we have getter and setter we can put values back.
object.__proto__ = prototype;
if (getter || setter) {
if (getter) descriptor.get = getter;
if (setter) descriptor.set = setter;
// If it was accessor property we're done and return here
// in order to avoid adding `value` to the descriptor.
return descriptor;
}
}
// If we got this far we know that object has an own property that is
// not an accessor so we set it as a value and return descriptor.
descriptor.value = object[property];
return descriptor;
};
}
// ES5 15.2.3.4
// http://es5.github.com/#x15.2.3.4
if (!Object.getOwnPropertyNames) {
Object.getOwnPropertyNames = function getOwnPropertyNames(object) {
return Object.keys(object);
};
}
// ES5 15.2.3.5
// http://es5.github.com/#x15.2.3.5
if (!Object.create) {
Object.create = function create(prototype, properties) {
var object;
if (prototype === null) {
object = { "__proto__": null };
} else {
if (typeof prototype != "object")
throw new TypeError("typeof prototype["+(typeof prototype)+"] != 'object'");
var Type = function () {};
Type.prototype = prototype;
object = new Type();
// IE has no built-in implementation of `Object.getPrototypeOf`
// neither `__proto__`, but this manually setting `__proto__` will
// guarantee that `Object.getPrototypeOf` will work as expected with
// objects created using `Object.create`
object.__proto__ = prototype;
}
if (properties !== void 0)
Object.defineProperties(object, properties);
return object;
};
}
// ES5 15.2.3.6
// http://es5.github.com/#x15.2.3.6
// Patch for WebKit and IE8 standard mode
// Designed by hax <hax.github.com>
// related issue: https://github.com/kriskowal/es5-shim/issues#issue/5
// IE8 Reference:
// http://msdn.microsoft.com/en-us/library/dd282900.aspx
// http://msdn.microsoft.com/en-us/library/dd229916.aspx
// WebKit Bugs:
// https://bugs.webkit.org/show_bug.cgi?id=36423
function doesDefinePropertyWork(object) {
try {
Object.defineProperty(object, "sentinel", {});
return "sentinel" in object;
} catch (exception) {
// returns falsy
}
}
// check whether defineProperty works if it's given. Otherwise,
// shim partially.
if (Object.defineProperty) {
var definePropertyWorksOnObject = doesDefinePropertyWork({});
var definePropertyWorksOnDom = typeof document == "undefined" ||
doesDefinePropertyWork(document.createElement("div"));
if (!definePropertyWorksOnObject || !definePropertyWorksOnDom) {
var definePropertyFallback = Object.defineProperty;
}
}
if (!Object.defineProperty || definePropertyFallback) {
var ERR_NON_OBJECT_DESCRIPTOR = "Property description must be an object: ";
var ERR_NON_OBJECT_TARGET = "Object.defineProperty called on non-object: "
var ERR_ACCESSORS_NOT_SUPPORTED = "getters & setters can not be defined " +
"on this javascript engine";
Object.defineProperty = function defineProperty(object, property, descriptor) {
if ((typeof object != "object" && typeof object != "function") || object === null)
throw new TypeError(ERR_NON_OBJECT_TARGET + object);
if ((typeof descriptor != "object" && typeof descriptor != "function") || descriptor === null)
throw new TypeError(ERR_NON_OBJECT_DESCRIPTOR + descriptor);
// make a valiant attempt to use the real defineProperty
// for I8's DOM elements.
if (definePropertyFallback) {
try {
return definePropertyFallback.call(Object, object, property, descriptor);
} catch (exception) {
// try the shim if the real one doesn't work
}
}
// If it's a data property.
if (owns(descriptor, "value")) {
// fail silently if "writable", "enumerable", or "configurable"
// are requested but not supported
/*
// alternate approach:
if ( // can't implement these features; allow false but not true
!(owns(descriptor, "writable") ? descriptor.writable : true) ||
!(owns(descriptor, "enumerable") ? descriptor.enumerable : true) ||
!(owns(descriptor, "configurable") ? descriptor.configurable : true)
)
throw new RangeError(
"This implementation of Object.defineProperty does not " +
"support configurable, enumerable, or writable."
);
*/
if (supportsAccessors && (lookupGetter(object, property) ||
lookupSetter(object, property)))
{
// As accessors are supported only on engines implementing
// `__proto__` we can safely override `__proto__` while defining
// a property to make sure that we don't hit an inherited
// accessor.
var prototype = object.__proto__;
object.__proto__ = prototypeOfObject;
// Deleting a property anyway since getter / setter may be
// defined on object itself.
delete object[property];
object[property] = descriptor.value;
// Setting original `__proto__` back now.
object.__proto__ = prototype;
} else {
object[property] = descriptor.value;
}
} else {
if (!supportsAccessors)
throw new TypeError(ERR_ACCESSORS_NOT_SUPPORTED);
// If we got that far then getters and setters can be defined !!
if (owns(descriptor, "get"))
defineGetter(object, property, descriptor.get);
if (owns(descriptor, "set"))
defineSetter(object, property, descriptor.set);
}
return object;
};
}
// ES5 15.2.3.7
// http://es5.github.com/#x15.2.3.7
if (!Object.defineProperties) {
Object.defineProperties = function defineProperties(object, properties) {
for (var property in properties) {
if (owns(properties, property))
Object.defineProperty(object, property, properties[property]);
}
return object;
};
}
// ES5 15.2.3.8
// http://es5.github.com/#x15.2.3.8
if (!Object.seal) {
Object.seal = function seal(object) {
// this is misleading and breaks feature-detection, but
// allows "securable" code to "gracefully" degrade to working
// but insecure code.
return object;
};
}
// ES5 15.2.3.9
// http://es5.github.com/#x15.2.3.9
if (!Object.freeze) {
Object.freeze = function freeze(object) {
// this is misleading and breaks feature-detection, but
// allows "securable" code to "gracefully" degrade to working
// but insecure code.
return object;
};
}
// detect a Rhino bug and patch it
try {
Object.freeze(function () {});
} catch (exception) {
Object.freeze = (function freeze(freezeObject) {
return function freeze(object) {
if (typeof object == "function") {
return object;
} else {
return freezeObject(object);
}
};
})(Object.freeze);
}
// ES5 15.2.3.10
// http://es5.github.com/#x15.2.3.10
if (!Object.preventExtensions) {
Object.preventExtensions = function preventExtensions(object) {
// this is misleading and breaks feature-detection, but
// allows "securable" code to "gracefully" degrade to working
// but insecure code.
return object;
};
}
// ES5 15.2.3.11
// http://es5.github.com/#x15.2.3.11
if (!Object.isSealed) {
Object.isSealed = function isSealed(object) {
return false;
};
}
// ES5 15.2.3.12
// http://es5.github.com/#x15.2.3.12
if (!Object.isFrozen) {
Object.isFrozen = function isFrozen(object) {
return false;
};
}
// ES5 15.2.3.13
// http://es5.github.com/#x15.2.3.13
if (!Object.isExtensible) {
Object.isExtensible = function isExtensible(object) {
// 1. If Type(O) is not Object throw a TypeError exception.
if (Object(object) === object) {
throw new TypeError(); // TODO message
}
// 2. Return the Boolean value of the [[Extensible]] internal property of O.
var name = '';
while (owns(object, name)) {
name += '?';
}
object[name] = true;
var returnValue = owns(object, name);
delete object[name];
return returnValue;
};
}
// ES5 15.2.3.14
// http://es5.github.com/#x15.2.3.14
if (!Object.keys) {
// http://whattheheadsaid.com/2010/10/a-safer-object-keys-compatibility-implementation
var hasDontEnumBug = true,
dontEnums = [
"toString",
"toLocaleString",
"valueOf",
"hasOwnProperty",
"isPrototypeOf",
"propertyIsEnumerable",
"constructor"
],
dontEnumsLength = dontEnums.length;
for (var key in {"toString": null})
hasDontEnumBug = false;
Object.keys = function keys(object) {
if ((typeof object != "object" && typeof object != "function") || object === null)
throw new TypeError("Object.keys called on a non-object");
var keys = [];
for (var name in object) {
if (owns(object, name)) {
keys.push(name);
}
}
if (hasDontEnumBug) {
for (var i = 0, ii = dontEnumsLength; i < ii; i++) {
var dontEnum = dontEnums[i];
if (owns(object, dontEnum)) {
keys.push(dontEnum);
}
}
}
return keys;
};
}
//
// Date
// ====
//
// ES5 15.9.5.43
// http://es5.github.com/#x15.9.5.43
// This function returns a String value represent the instance in time
// represented by this Date object. The format of the String is the Date Time
// string format defined in 15.9.1.15. All fields are present in the String.
// The time zone is always UTC, denoted by the suffix Z. If the time value of
// this object is not a finite Number a RangeError exception is thrown.
if (!Date.prototype.toISOString || (new Date(-62198755200000).toISOString().indexOf('-000001') === -1)) {
Date.prototype.toISOString = function toISOString() {
var result, length, value, year;
if (!isFinite(this))
throw new RangeError;
// the date time string format is specified in 15.9.1.15.
result = [this.getUTCMonth() + 1, this.getUTCDate(),
this.getUTCHours(), this.getUTCMinutes(), this.getUTCSeconds()];
year = this.getUTCFullYear();
year = (year < 0 ? '-' : (year > 9999 ? '+' : '')) + ('00000' + Math.abs(year)).slice(0 <= year && year <= 9999 ? -4 : -6);
length = result.length;
while (length--) {
value = result[length];
// pad months, days, hours, minutes, and seconds to have two digits.
if (value < 10)
result[length] = "0" + value;
}
// pad milliseconds to have three digits.
return year + "-" + result.slice(0, 2).join("-") + "T" + result.slice(2).join(":") + "." +
("000" + this.getUTCMilliseconds()).slice(-3) + "Z";
}
}
// ES5 15.9.4.4
// http://es5.github.com/#x15.9.4.4
if (!Date.now) {
Date.now = function now() {
return new Date().getTime();
};
}
// ES5 15.9.5.44
// http://es5.github.com/#x15.9.5.44
// This function provides a String representation of a Date object for use by
// JSON.stringify (15.12.3).
if (!Date.prototype.toJSON) {
Date.prototype.toJSON = function toJSON(key) {
// When the toJSON method is called with argument key, the following
// steps are taken:
// 1. Let O be the result of calling ToObject, giving it the this
// value as its argument.
// 2. Let tv be ToPrimitive(O, hint Number).
// 3. If tv is a Number and is not finite, return null.
// XXX
// 4. Let toISO be the result of calling the [[Get]] internal method of
// O with argument "toISOString".
// 5. If IsCallable(toISO) is false, throw a TypeError exception.
if (typeof this.toISOString != "function")
throw new TypeError(); // TODO message
// 6. Return the result of calling the [[Call]] internal method of
// toISO with O as the this value and an empty argument list.
return this.toISOString();
// NOTE 1 The argument is ignored.
// NOTE 2 The toJSON function is intentionally generic; it does not
// require that its this value be a Date object. Therefore, it can be
// transferred to other kinds of objects for use as a method. However,
// it does require that any such object have a toISOString method. An
// object is free to use the argument key to filter its
// stringification.
};
}
// ES5 15.9.4.2
// http://es5.github.com/#x15.9.4.2
// based on work shared by Daniel Friesen (dantman)
// http://gist.github.com/303249
if (Date.parse("+275760-09-13T00:00:00.000Z") !== 8.64e15) {
// XXX global assignment won't work in embeddings that use
// an alternate object for the context.
Date = (function(NativeDate) {
// Date.length === 7
var Date = function Date(Y, M, D, h, m, s, ms) {
var length = arguments.length;
if (this instanceof NativeDate) {
var date = length == 1 && String(Y) === Y ? // isString(Y)
// We explicitly pass it through parse:
new NativeDate(Date.parse(Y)) :
// We have to manually make calls depending on argument
// length here
length >= 7 ? new NativeDate(Y, M, D, h, m, s, ms) :
length >= 6 ? new NativeDate(Y, M, D, h, m, s) :
length >= 5 ? new NativeDate(Y, M, D, h, m) :
length >= 4 ? new NativeDate(Y, M, D, h) :
length >= 3 ? new NativeDate(Y, M, D) :
length >= 2 ? new NativeDate(Y, M) :
length >= 1 ? new NativeDate(Y) :
new NativeDate();
// Prevent mixups with unfixed Date object
date.constructor = Date;
return date;
}
return NativeDate.apply(this, arguments);
};
// 15.9.1.15 Date Time String Format.
var isoDateExpression = new RegExp("^" +
"(\\d{4}|[\+\-]\\d{6})" + // four-digit year capture or sign + 6-digit extended year
"(?:-(\\d{2})" + // optional month capture
"(?:-(\\d{2})" + // optional day capture
"(?:" + // capture hours:minutes:seconds.milliseconds
"T(\\d{2})" + // hours capture
":(\\d{2})" + // minutes capture
"(?:" + // optional :seconds.milliseconds
":(\\d{2})" + // seconds capture
"(?:\\.(\\d{3}))?" + // milliseconds capture
")?" +
"(?:" + // capture UTC offset component
"Z|" + // UTC capture
"(?:" + // offset specifier +/-hours:minutes
"([-+])" + // sign capture
"(\\d{2})" + // hours offset capture
":(\\d{2})" + // minutes offset capture
")" +
")?)?)?)?" +
"$");
// Copy any custom methods a 3rd party library may have added
for (var key in NativeDate)
Date[key] = NativeDate[key];
// Copy "native" methods explicitly; they may be non-enumerable
Date.now = NativeDate.now;
Date.UTC = NativeDate.UTC;
Date.prototype = NativeDate.prototype;
Date.prototype.constructor = Date;
// Upgrade Date.parse to handle simplified ISO 8601 strings
Date.parse = function parse(string) {
var match = isoDateExpression.exec(string);
if (match) {
match.shift(); // kill match[0], the full match
// parse months, days, hours, minutes, seconds, and milliseconds
for (var i = 1; i < 7; i++) {
// provide default values if necessary
match[i] = +(match[i] || (i < 3 ? 1 : 0));
// match[1] is the month. Months are 0-11 in JavaScript
// `Date` objects, but 1-12 in ISO notation, so we
// decrement.
if (i == 1)
match[i]--;
}
// parse the UTC offset component
var minuteOffset = +match.pop(), hourOffset = +match.pop(), sign = match.pop();
// compute the explicit time zone offset if specified
var offset = 0;
if (sign) {
// detect invalid offsets and return early
if (hourOffset > 23 || minuteOffset > 59)
return NaN;
// express the provided time zone offset in minutes. The offset is
// negative for time zones west of UTC; positive otherwise.
offset = (hourOffset * 60 + minuteOffset) * 6e4 * (sign == "+" ? -1 : 1);
}
// Date.UTC for years between 0 and 99 converts year to 1900 + year
// The Gregorian calendar has a 400-year cycle, so
// to Date.UTC(year + 400, .... ) - 12622780800000 == Date.UTC(year, ...),
// where 12622780800000 - number of milliseconds in Gregorian calendar 400 years
var year = +match[0];
if (0 <= year && year <= 99) {
match[0] = year + 400;
return NativeDate.UTC.apply(this, match) + offset - 12622780800000;
}
// compute a new UTC date value, accounting for the optional offset
return NativeDate.UTC.apply(this, match) + offset;
}
return NativeDate.parse.apply(this, arguments);
};
return Date;
})(Date);
}
//
// String
// ======
//
// ES5 15.5.4.20
// http://es5.github.com/#x15.5.4.20
var ws = "\x09\x0A\x0B\x0C\x0D\x20\xA0\u1680\u180E\u2000\u2001\u2002\u2003" +
"\u2004\u2005\u2006\u2007\u2008\u2009\u200A\u202F\u205F\u3000\u2028" +
"\u2029\uFEFF";
if (!String.prototype.trim || ws.trim()) {
// http://blog.stevenlevithan.com/archives/faster-trim-javascript
// http://perfectionkills.com/whitespace-deviations/
ws = "[" + ws + "]";
var trimBeginRegexp = new RegExp("^" + ws + ws + "*"),
trimEndRegexp = new RegExp(ws + ws + "*$");
String.prototype.trim = function trim() {
return String(this).replace(trimBeginRegexp, "").replace(trimEndRegexp, "");
};
}
//
// Util
// ======
//
// ES5 9.4
// http://es5.github.com/#x9.4
// http://jsperf.com/to-integer
var toInteger = function (n) {
n = +n;
if (n !== n) // isNaN
n = 0;
else if (n !== 0 && n !== (1/0) && n !== -(1/0))
n = (n > 0 || -1) * Math.floor(Math.abs(n));
return n;
};
var prepareString = "a"[0] != "a",
// ES5 9.9
// http://es5.github.com/#x9.9
toObject = function (o) {
if (o == null) { // this matches both null and undefined
throw new TypeError(); // TODO message
}
// If the implementation doesn't support by-index access of
// string characters (ex. IE < 7), split the string
if (prepareString && typeof o == "string" && o) {
return o.split("");
}
return Object(o);
};
});
define('ace/lib/event_emitter', ['require', 'exports', 'module' ], function(require, exports, module) {
var EventEmitter = {};
EventEmitter._emit =
EventEmitter._dispatchEvent = function(eventName, e) {
this._eventRegistry = this._eventRegistry || {};
this._defaultHandlers = this._defaultHandlers || {};
var listeners = this._eventRegistry[eventName] || [];
var defaultHandler = this._defaultHandlers[eventName];
if (!listeners.length && !defaultHandler)
return;
if (typeof e != "object" || !e)
e = {};
if (!e.type)
e.type = eventName;
if (!e.stopPropagation) {
e.stopPropagation = function() {
this.propagationStopped = true;
};
}
if (!e.preventDefault) {
e.preventDefault = function() {
this.defaultPrevented = true;
};
}
for (var i=0; i<listeners.length; i++) {
listeners[i](e);
if (e.propagationStopped)
break;
}
if (defaultHandler && !e.defaultPrevented)
return defaultHandler(e);
};
EventEmitter.setDefaultHandler = function(eventName, callback) {
this._defaultHandlers = this._defaultHandlers || {};
if (this._defaultHandlers[eventName])
throw new Error("The default handler for '" + eventName + "' is already set");
this._defaultHandlers[eventName] = callback;
};
EventEmitter.on =
EventEmitter.addEventListener = function(eventName, callback) {
this._eventRegistry = this._eventRegistry || {};
var listeners = this._eventRegistry[eventName];
if (!listeners)
listeners = this._eventRegistry[eventName] = [];
if (listeners.indexOf(callback) == -1)
listeners.push(callback);
};
EventEmitter.removeListener =
EventEmitter.removeEventListener = function(eventName, callback) {
this._eventRegistry = this._eventRegistry || {};
var listeners = this._eventRegistry[eventName];
if (!listeners)
return;
var index = listeners.indexOf(callback);
if (index !== -1)
listeners.splice(index, 1);
};
EventEmitter.removeAllListeners = function(eventName) {
if (this._eventRegistry) this._eventRegistry[eventName] = [];
};
exports.EventEmitter = EventEmitter;
});
define('ace/lib/oop', ['require', 'exports', 'module' ], function(require, exports, module) {
exports.inherits = (function() {
var tempCtor = function() {};
return function(ctor, superCtor) {
tempCtor.prototype = superCtor.prototype;
ctor.super_ = superCtor.prototype;
ctor.prototype = new tempCtor();
ctor.prototype.constructor = ctor;
};
}());
exports.mixin = function(obj, mixin) {
for (var key in mixin) {
obj[key] = mixin[key];
}
};
exports.implement = function(proto, mixin) {
exports.mixin(proto, mixin);
};
});
define('ace/mode/javascript_worker', ['require', 'exports', 'module' , 'ace/lib/oop', 'ace/worker/mirror', 'ace/worker/jshint', 'ace/narcissus/parser'], function(require, exports, module) {
var oop = require("../lib/oop");
var Mirror = require("../worker/mirror").Mirror;
var lint = require("../worker/jshint").JSHINT;
var parser = require("../narcissus/parser");
var JavaScriptWorker = exports.JavaScriptWorker = function(sender) {
Mirror.call(this, sender);
this.setTimeout(500);
};
oop.inherits(JavaScriptWorker, Mirror);
(function() {
this.onUpdate = function() {
var value = this.doc.getValue();
value = value.replace(/^#!.*\n/, "\n");
// var start = new Date();
try {
parser.parse(value);
} catch(e) {
// console.log("narcissus")
// console.log(e);
var chunks = e.message.split(":")
var message = chunks.pop().trim();
var lineNumber = parseInt(chunks.pop().trim()) - 1;
this.sender.emit("narcissus", {
row: lineNumber,
column: null, // TODO convert e.cursor
text: message,
type: "error"
});
return;
} finally {
// console.log("parse time: " + (new Date() - start));
}
// var start = new Date();
// console.log("jslint")
lint(value, {undef: false, onevar: false, passfail: false});
this.sender.emit("jslint", lint.errors);
// console.log("lint time: " + (new Date() - start));
}
}).call(JavaScriptWorker.prototype);
});
define('ace/worker/mirror', ['require', 'exports', 'module' , 'ace/document', 'ace/lib/lang'], function(require, exports, module) {
var Document = require("../document").Document;
var lang = require("../lib/lang");
var Mirror = exports.Mirror = function(sender) {
this.sender = sender;
var doc = this.doc = new Document("");
var deferredUpdate = this.deferredUpdate = lang.deferredCall(this.onUpdate.bind(this));
var _self = this;
sender.on("change", function(e) {
doc.applyDeltas([e.data]);
deferredUpdate.schedule(_self.$timeout);
});
};
(function() {
this.$timeout = 500;
this.setTimeout = function(timeout) {
this.$timeout = timeout;
};
this.setValue = function(value) {
this.doc.setValue(value);
this.deferredUpdate.schedule(this.$timeout);
};
this.getValue = function(callbackId) {
this.sender.callback(this.doc.getValue(), callbackId);
};
this.onUpdate = function() {
// abstract method
};
}).call(Mirror.prototype);
});
define('ace/document', ['require', 'exports', 'module' , 'ace/lib/oop', 'ace/lib/event_emitter', 'ace/range', 'ace/anchor'], function(require, exports, module) {
var oop = require("./lib/oop");
var EventEmitter = require("./lib/event_emitter").EventEmitter;
var Range = require("./range").Range;
var Anchor = require("./anchor").Anchor;
/**
* new Document([text])
* - text (String | Array): The starting text
*
* Creates a new `Document`. If `text` is included, the `Document` contains those strings; otherwise, it's empty.
*
**/
var Document = function(text) {
this.$lines = [];
// There has to be one line at least in the document. If you pass an empty
// string to the insert function, nothing will happen. Workaround.
if (text.length == 0) {
this.$lines = [""];
} else if (Array.isArray(text)) {
this.insertLines(0, text);
} else {
this.insert({row: 0, column:0}, text);
}
};
(function() {
oop.implement(this, EventEmitter);
this.setValue = function(text) {
var len = this.getLength();
this.remove(new Range(0, 0, len, this.getLine(len-1).length));
this.insert({row: 0, column:0}, text);
};
this.getValue = function() {
return this.getAllLines().join(this.getNewLineCharacter());
};
this.createAnchor = function(row, column) {
return new Anchor(this, row, column);
};
// check for IE split bug
if ("aaa".split(/a/).length == 0)
this.$split = function(text) {
return text.replace(/\r\n|\r/g, "\n").split("\n");
}
else
this.$split = function(text) {
return text.split(/\r\n|\r|\n/);
};
this.$detectNewLine = function(text) {
var match = text.match(/^.*?(\r\n|\r|\n)/m);
if (match) {
this.$autoNewLine = match[1];
} else {
this.$autoNewLine = "\n";
}
};
this.getNewLineCharacter = function() {
switch (this.$newLineMode) {
case "windows":
return "\r\n";
case "unix":
return "\n";
case "auto":
return this.$autoNewLine;
}
};
this.$autoNewLine = "\n";
this.$newLineMode = "auto";
this.setNewLineMode = function(newLineMode) {
if (this.$newLineMode === newLineMode)
return;
this.$newLineMode = newLineMode;
};
this.getNewLineMode = function() {
return this.$newLineMode;
};
this.isNewLine = function(text) {
return (text == "\r\n" || text == "\r" || text == "\n");
};
this.getLine = function(row) {
return this.$lines[row] || "";
};
this.getLines = function(firstRow, lastRow) {
return this.$lines.slice(firstRow, lastRow + 1);
};
this.getAllLines = function() {
return this.getLines(0, this.getLength());
};
this.getLength = function() {
return this.$lines.length;
};
this.getTextRange = function(range) {
if (range.start.row == range.end.row) {
return this.$lines[range.start.row].substring(range.start.column,
range.end.column);
}
else {
var lines = this.getLines(range.start.row+1, range.end.row-1);
lines.unshift((this.$lines[range.start.row] || "").substring(range.start.column));
lines.push((this.$lines[range.end.row] || "").substring(0, range.end.column));
return lines.join(this.getNewLineCharacter());
}
};
this.$clipPosition = function(position) {
var length = this.getLength();
if (position.row >= length) {
position.row = Math.max(0, length - 1);
position.column = this.getLine(length-1).length;
}
return position;
};
this.insert = function(position, text) {
if (!text || text.length === 0)
return position;
position = this.$clipPosition(position);
// only detect new lines if the document has no line break yet
if (this.getLength() <= 1)
this.$detectNewLine(text);
var lines = this.$split(text);
var firstLine = lines.splice(0, 1)[0];
var lastLine = lines.length == 0 ? null : lines.splice(lines.length - 1, 1)[0];
position = this.insertInLine(position, firstLine);
if (lastLine !== null) {
position = this.insertNewLine(position); // terminate first line
position = this.insertLines(position.row, lines);
position = this.insertInLine(position, lastLine || "");
}
return position;
};
/**
* Document@change(e)
* - e (Object): Contains at least one property called `"action"`. `"action"` indicates the action that triggered the change. Each action also has a set of additional properties.
*
* Fires whenever the document changes.
*
* Several methods trigger different `"change"` events. Below is a list of each action type, followed by each property that's also available:
*
* * `"insertLines"` (emitted by [[Document.insertLines]])
* * `range`: the [[Range]] of the change within the document
* * `lines`: the lines in the document that are changing
* * `"insertText"` (emitted by [[Document.insertNewLine]])
* * `range`: the [[Range]] of the change within the document
* * `text`: the text that's being added
* * `"removeLines"` (emitted by [[Document.insertLines]])
* * `range`: the [[Range]] of the change within the document
* * `lines`: the lines in the document that were removed
* * `nl`: the new line character (as defined by [[Document.getNewLineCharacter]])
* * `"removeText"` (emitted by [[Document.removeInLine]] and [[Document.removeNewLine]])
* * `range`: the [[Range]] of the change within the document
* * `text`: the text that's being removed
*
**/
this.insertLines = function(row, lines) {
if (lines.length == 0)
return {row: row, column: 0};
// apply doesn't work for big arrays (smallest threshold is on safari 0xFFFF)
// to circumvent that we have to break huge inserts into smaller chunks here
if (lines.length > 0xFFFF) {
var end = this.insertLines(row, lines.slice(0xFFFF));
lines = lines.slice(0, 0xFFFF);
}
var args = [row, 0];
args.push.apply(args, lines);
this.$lines.splice.apply(this.$lines, args);
var range = new Range(row, 0, row + lines.length, 0);
var delta = {
action: "insertLines",
range: range,
lines: lines
};
this._emit("change", { data: delta });
return end || range.end;
};
this.insertNewLine = function(position) {
position = this.$clipPosition(position);
var line = this.$lines[position.row] || "";
this.$lines[position.row] = line.substring(0, position.column);
this.$lines.splice(position.row + 1, 0, line.substring(position.column, line.length));
var end = {
row : position.row + 1,
column : 0
};
var delta = {
action: "insertText",
range: Range.fromPoints(position, end),
text: this.getNewLineCharacter()
};
this._emit("change", { data: delta });
return end;
};
this.insertInLine = function(position, text) {
if (text.length == 0)
return position;
var line = this.$lines[position.row] || "";
this.$lines[position.row] = line.substring(0, position.column) + text
+ line.substring(position.column);
var end = {
row : position.row,
column : position.column + text.length
};
var delta = {
action: "insertText",
range: Range.fromPoints(position, end),
text: text
};
this._emit("change", { data: delta });
return end;
};
this.remove = function(range) {
// clip to document
range.start = this.$clipPosition(range.start);
range.end = this.$clipPosition(range.end);
if (range.isEmpty())
return range.start;
var firstRow = range.start.row;
var lastRow = range.end.row;
if (range.isMultiLine()) {
var firstFullRow = range.start.column == 0 ? firstRow : firstRow + 1;
var lastFullRow = lastRow - 1;
if (range.end.column > 0)
this.removeInLine(lastRow, 0, range.end.column);
if (lastFullRow >= firstFullRow)
this.removeLines(firstFullRow, lastFullRow);
if (firstFullRow != firstRow) {
this.removeInLine(firstRow, range.start.column, this.getLine(firstRow).length);
this.removeNewLine(range.start.row);
}
}
else {
this.removeInLine(firstRow, range.start.column, range.end.column);
}
return range.start;
};
this.removeInLine = function(row, startColumn, endColumn) {
if (startColumn == endColumn)
return;
var range = new Range(row, startColumn, row, endColumn);
var line = this.getLine(row);
var removed = line.substring(startColumn, endColumn);
var newLine = line.substring(0, startColumn) + line.substring(endColumn, line.length);
this.$lines.splice(row, 1, newLine);
var delta = {
action: "removeText",
range: range,
text: removed
};
this._emit("change", { data: delta });
return range.start;
};
this.removeLines = function(firstRow, lastRow) {
var range = new Range(firstRow, 0, lastRow + 1, 0);
var removed = this.$lines.splice(firstRow, lastRow - firstRow + 1);
var delta = {
action: "removeLines",
range: range,
nl: this.getNewLineCharacter(),
lines: removed
};
this._emit("change", { data: delta });
return removed;
};
this.removeNewLine = function(row) {
var firstLine = this.getLine(row);
var secondLine = this.getLine(row+1);
var range = new Range(row, firstLine.length, row+1, 0);
var line = firstLine + secondLine;
this.$lines.splice(row, 2, line);
var delta = {
action: "removeText",
range: range,
text: this.getNewLineCharacter()
};
this._emit("change", { data: delta });
};
this.replace = function(range, text) {
if (text.length == 0 && range.isEmpty())
return range.start;
// Shortcut: If the text we want to insert is the same as it is already
// in the document, we don't have to replace anything.
if (text == this.getTextRange(range))
return range.end;
this.remove(range);
if (text) {
var end = this.insert(range.start, text);
}
else {
end = range.start;
}
return end;
};
this.applyDeltas = function(deltas) {
for (var i=0; i<deltas.length; i++) {
var delta = deltas[i];
var range = Range.fromPoints(delta.range.start, delta.range.end);
if (delta.action == "insertLines")
this.insertLines(range.start.row, delta.lines);
else if (delta.action == "insertText")
this.insert(range.start, delta.text);
else if (delta.action == "removeLines")
this.removeLines(range.start.row, range.end.row - 1);
else if (delta.action == "removeText")
this.remove(range);
}
};
this.revertDeltas = function(deltas) {
for (var i=deltas.length-1; i>=0; i--) {
var delta = deltas[i];
var range = Range.fromPoints(delta.range.start, delta.range.end);
if (delta.action == "insertLines")
this.removeLines(range.start.row, range.end.row - 1);
else if (delta.action == "insertText")
this.remove(range);
else if (delta.action == "removeLines")
this.insertLines(range.start.row, delta.lines);
else if (delta.action == "removeText")
this.insert(range.start, delta.text);
}
};
}).call(Document.prototype);
exports.Document = Document;
});
define('ace/range', ['require', 'exports', 'module' ], function(require, exports, module) {
/**
* class Range
*
* This object is used in various places to indicate a region within the editor. To better visualize how this works, imagine a rectangle. Each quadrant of the rectangle is analogus to a range, as ranges contain a starting row and starting column, and an ending row, and ending column.
*
**/
/**
* new Range(startRow, startColumn, endRow, endColumn)
* - startRow (Number): The starting row
* - startColumn (Number): The starting column
* - endRow (Number): The ending row
* - endColumn (Number): The ending column
*
* Creates a new `Range` object with the given starting and ending row and column points.
*
**/
var Range = function(startRow, startColumn, endRow, endColumn) {
this.start = {
row: startRow,
column: startColumn
};
this.end = {
row: endRow,
column: endColumn
};
};
(function() {
/**
* Range.isEqual(range) -> Boolean
* - range (Range): A range to check against
*
* Returns `true` if and only if the starting row and column, and ending tow and column, are equivalent to those given by `range`.
*
**/
this.isEqual = function(range) {
return this.start.row == range.start.row &&
this.end.row == range.end.row &&
this.start.column == range.start.column &&
this.end.column == range.end.column
};
this.toString = function() {
return ("Range: [" + this.start.row + "/" + this.start.column +
"] -> [" + this.end.row + "/" + this.end.column + "]");
};
this.contains = function(row, column) {
return this.compare(row, column) == 0;
};
this.compareRange = function(range) {
var cmp,
end = range.end,
start = range.start;
cmp = this.compare(end.row, end.column);
if (cmp == 1) {
cmp = this.compare(start.row, start.column);
if (cmp == 1) {
return 2;
} else if (cmp == 0) {
return 1;
} else {
return 0;
}
} else if (cmp == -1) {
return -2;
} else {
cmp = this.compare(start.row, start.column);
if (cmp == -1) {
return -1;
} else if (cmp == 1) {
return 42;
} else {
return 0;
}
}
}
/** related to: Range.compare
* Range.comparePoint(p) -> Number
* - p (Range): A point to compare with
* + (Number): This method returns one of the following numbers:<br/>
* * `0` if the two points are exactly equal<br/>
* * `-1` if `p.row` is less then the calling range<br/>
* * `1` if `p.row` is greater than the calling range<br/>
* <br/>
* If the starting row of the calling range is equal to `p.row`, and:<br/>
* * `p.column` is greater than or equal to the calling range's starting column, this returns `0`<br/>
* * Otherwise, it returns -1<br/>
*<br/>
* If the ending row of the calling range is equal to `p.row`, and:<br/>
* * `p.column` is less than or equal to the calling range's ending column, this returns `0`<br/>
* * Otherwise, it returns 1<br/>
*
* Checks the row and column points of `p` with the row and column points of the calling range.
*
*
*
**/
this.comparePoint = function(p) {
return this.compare(p.row, p.column);
}
/** related to: Range.comparePoint
* Range.containsRange(range) -> Boolean
* - range (Range): A range to compare with
*
* Checks the start and end points of `range` and compares them to the calling range. Returns `true` if the `range` is contained within the caller's range.
*
**/
this.containsRange = function(range) {
return this.comparePoint(range.start) == 0 && this.comparePoint(range.end) == 0;
}
/**
* Range.intersects(range) -> Boolean
* - range (Range): A range to compare with
*
* Returns `true` if passed in `range` intersects with the one calling this method.
*
**/
this.intersects = function(range) {
var cmp = this.compareRange(range);
return (cmp == -1 || cmp == 0 || cmp == 1);
}
/**
* Range.isEnd(row, column) -> Boolean
* - row (Number): A row point to compare with
* - column (Number): A column point to compare with
*
* Returns `true` if the caller's ending row point is the same as `row`, and if the caller's ending column is the same as `column`.
*
**/
this.isEnd = function(row, column) {
return this.end.row == row && this.end.column == column;
}
/**
* Range.isStart(row, column) -> Boolean
* - row (Number): A row point to compare with
* - column (Number): A column point to compare with
*
* Returns `true` if the caller's starting row point is the same as `row`, and if the caller's starting column is the same as `column`.
*
**/
this.isStart = function(row, column) {
return this.start.row == row && this.start.column == column;
}
/**
* Range.setStart(row, column)
* - row (Number): A row point to set
* - column (Number): A column point to set
*
* Sets the starting row and column for the range.
*
**/
this.setStart = function(row, column) {
if (typeof row == "object") {
this.start.column = row.column;
this.start.row = row.row;
} else {
this.start.row = row;
this.start.column = column;
}
}
/**
* Range.setEnd(row, column)
* - row (Number): A row point to set
* - column (Number): A column point to set
*
* Sets the starting row and column for the range.
*
**/
this.setEnd = function(row, column) {
if (typeof row == "object") {
this.end.column = row.column;
this.end.row = row.row;
} else {
this.end.row = row;
this.end.column = column;
}
}
/** related to: Range.compare
* Range.inside(row, column) -> Boolean
* - row (Number): A row point to compare with
* - column (Number): A column point to compare with
*
* Returns `true` if the `row` and `column` are within the given range.
*
**/
this.inside = function(row, column) {
if (this.compare(row, column) == 0) {
if (this.isEnd(row, column) || this.isStart(row, column)) {
return false;
} else {
return true;
}
}
return false;
}
/** related to: Range.compare
* Range.insideStart(row, column) -> Boolean
* - row (Number): A row point to compare with
* - column (Number): A column point to compare with
*
* Returns `true` if the `row` and `column` are within the given range's starting points.
*
**/
this.insideStart = function(row, column) {
if (this.compare(row, column) == 0) {
if (this.isEnd(row, column)) {
return false;
} else {
return true;
}
}
return false;
}
/** related to: Range.compare
* Range.insideEnd(row, column) -> Boolean
* - row (Number): A row point to compare with
* - column (Number): A column point to compare with
*
* Returns `true` if the `row` and `column` are within the given range's ending points.
*
**/
this.insideEnd = function(row, column) {
if (this.compare(row, column) == 0) {
if (this.isStart(row, column)) {
return false;
} else {
return true;
}
}
return false;
}
/**
* Range.compare(row, column) -> Number
* - row (Number): A row point to compare with
* - column (Number): A column point to compare with
* + (Number): This method returns one of the following numbers:<br/>
* * `0` if the two points are exactly equal <br/>
* * `-1` if `p.row` is less then the calling range <br/>
* * `1` if `p.row` is greater than the calling range <br/>
* <br/>
* If the starting row of the calling range is equal to `p.row`, and: <br/>
* * `p.column` is greater than or equal to the calling range's starting column, this returns `0`<br/>
* * Otherwise, it returns -1<br/>
* <br/>
* If the ending row of the calling range is equal to `p.row`, and: <br/>
* * `p.column` is less than or equal to the calling range's ending column, this returns `0` <br/>
* * Otherwise, it returns 1
*
* Checks the row and column points with the row and column points of the calling range.
*
*
**/
this.compare = function(row, column) {
if (!this.isMultiLine()) {
if (row === this.start.row) {
return column < this.start.column ? -1 : (column > this.end.column ? 1 : 0);
};
}
if (row < this.start.row)
return -1;
if (row > this.end.row)
return 1;
if (this.start.row === row)
return column >= this.start.column ? 0 : -1;
if (this.end.row === row)
return column <= this.end.column ? 0 : 1;
return 0;
};
this.compareStart = function(row, column) {
if (this.start.row == row && this.start.column == column) {
return -1;
} else {
return this.compare(row, column);
}
}
/**
* Range.compareEnd(row, column) -> Number
* - row (Number): A row point to compare with
* - column (Number): A column point to compare with
* + (Number): This method returns one of the following numbers:<br/>
* * `0` if the two points are exactly equal<br/>
* * `-1` if `p.row` is less then the calling range<br/>
* * `1` if `p.row` is greater than the calling range, or if `isEnd` is `true.<br/>
* <br/>
* If the starting row of the calling range is equal to `p.row`, and:<br/>
* * `p.column` is greater than or equal to the calling range's starting column, this returns `0`<br/>
* * Otherwise, it returns -1<br/>
*<br/>
* If the ending row of the calling range is equal to `p.row`, and:<br/>
* * `p.column` is less than or equal to the calling range's ending column, this returns `0`<br/>
* * Otherwise, it returns 1
*
* Checks the row and column points with the row and column points of the calling range.
*
*
**/
this.compareEnd = function(row, column) {
if (this.end.row == row && this.end.column == column) {
return 1;
} else {
return this.compare(row, column);
}
}
/**
* Range.compareInside(row, column) -> Number
* - row (Number): A row point to compare with
* - column (Number): A column point to compare with
* + (Number): This method returns one of the following numbers:<br/>
* * `1` if the ending row of the calling range is equal to `row`, and the ending column of the calling range is equal to `column`<br/>
* * `-1` if the starting row of the calling range is equal to `row`, and the starting column of the calling range is equal to `column`<br/>
* <br/>
* Otherwise, it returns the value after calling [[Range.compare `compare()`]].
*
* Checks the row and column points with the row and column points of the calling range.
*
*
*
**/
this.compareInside = function(row, column) {
if (this.end.row == row && this.end.column == column) {
return 1;
} else if (this.start.row == row && this.start.column == column) {
return -1;
} else {
return this.compare(row, column);
}
}
/**
* Range.clipRows(firstRow, lastRow) -> Range
* - firstRow (Number): The starting row
* - lastRow (Number): The ending row
*
* Returns the part of the current `Range` that occurs within the boundaries of `firstRow` and `lastRow` as a new `Range` object.
*
**/
this.clipRows = function(firstRow, lastRow) {
if (this.end.row > lastRow) {
var end = {
row: lastRow+1,
column: 0
};
}
if (this.start.row > lastRow) {
var start = {
row: lastRow+1,
column: 0
};
}
if (this.start.row < firstRow) {
var start = {
row: firstRow,
column: 0
};
}
if (this.end.row < firstRow) {
var end = {
row: firstRow,
column: 0
};
}
return Range.fromPoints(start || this.start, end || this.end);
};
this.extend = function(row, column) {
var cmp = this.compare(row, column);
if (cmp == 0)
return this;
else if (cmp == -1)
var start = {row: row, column: column};
else
var end = {row: row, column: column};
return Range.fromPoints(start || this.start, end || this.end);
};
this.isEmpty = function() {
return (this.start.row == this.end.row && this.start.column == this.end.column);
};
this.isMultiLine = function() {
return (this.start.row !== this.end.row);
};
this.clone = function() {
return Range.fromPoints(this.start, this.end);
};
this.collapseRows = function() {
if (this.end.column == 0)
return new Range(this.start.row, 0, Math.max(this.start.row, this.end.row-1), 0)
else
return new Range(this.start.row, 0, this.end.row, 0)
};
this.toScreenRange = function(session) {
var screenPosStart =
session.documentToScreenPosition(this.start);
var screenPosEnd =
session.documentToScreenPosition(this.end);
return new Range(
screenPosStart.row, screenPosStart.column,
screenPosEnd.row, screenPosEnd.column
);
};
}).call(Range.prototype);
Range.fromPoints = function(start, end) {
return new Range(start.row, start.column, end.row, end.column);
};
exports.Range = Range;
});
define('ace/anchor', ['require', 'exports', 'module' , 'ace/lib/oop', 'ace/lib/event_emitter'], function(require, exports, module) {
var oop = require("./lib/oop");
var EventEmitter = require("./lib/event_emitter").EventEmitter;
/**
* new Anchor(doc, row, column)
* - doc (Document): The document to associate with the anchor
* - row (Number): The starting row position
* - column (Number): The starting column position
*
* Creates a new `Anchor` and associates it with a document.
*
**/
var Anchor = exports.Anchor = function(doc, row, column) {
this.document = doc;
if (typeof column == "undefined")
this.setPosition(row.row, row.column);
else
this.setPosition(row, column);
this.$onChange = this.onChange.bind(this);
doc.on("change", this.$onChange);
};
(function() {
oop.implement(this, EventEmitter);
this.getPosition = function() {
return this.$clipPositionToDocument(this.row, this.column);
};
this.getDocument = function() {
return this.document;
};
this.onChange = function(e) {
var delta = e.data;
var range = delta.range;
if (range.start.row == range.end.row && range.start.row != this.row)
return;
if (range.start.row > this.row)
return;
if (range.start.row == this.row && range.start.column > this.column)
return;
var row = this.row;
var column = this.column;
if (delta.action === "insertText") {
if (range.start.row === row && range.start.column <= column) {
if (range.start.row === range.end.row) {
column += range.end.column - range.start.column;
}
else {
column -= range.start.column;
row += range.end.row - range.start.row;
}
}
else if (range.start.row !== range.end.row && range.start.row < row) {
row += range.end.row - range.start.row;
}
} else if (delta.action === "insertLines") {
if (range.start.row <= row) {
row += range.end.row - range.start.row;
}
}
else if (delta.action == "removeText") {
if (range.start.row == row && range.start.column < column) {
if (range.end.column >= column)
column = range.start.column;
else
column = Math.max(0, column - (range.end.column - range.start.column));
} else if (range.start.row !== range.end.row && range.start.row < row) {
if (range.end.row == row) {
column = Math.max(0, column - range.end.column) + range.start.column;
}
row -= (range.end.row - range.start.row);
}
else if (range.end.row == row) {
row -= range.end.row - range.start.row;
column = Math.max(0, column - range.end.column) + range.start.column;
}
} else if (delta.action == "removeLines") {
if (range.start.row <= row) {
if (range.end.row <= row)
row -= range.end.row - range.start.row;
else {
row = range.start.row;
column = 0;
}
}
}
this.setPosition(row, column, true);
};
this.setPosition = function(row, column, noClip) {
var pos;
if (noClip) {
pos = {
row: row,
column: column
};
}
else {
pos = this.$clipPositionToDocument(row, column);
}
if (this.row == pos.row && this.column == pos.column)
return;
var old = {
row: this.row,
column: this.column
};
this.row = pos.row;
this.column = pos.column;
this._emit("change", {
old: old,
value: pos
});
};
this.detach = function() {
this.document.removeEventListener("change", this.$onChange);
};
this.$clipPositionToDocument = function(row, column) {
var pos = {};
if (row >= this.document.getLength()) {
pos.row = Math.max(0, this.document.getLength() - 1);
pos.column = this.document.getLine(pos.row).length;
}
else if (row < 0) {
pos.row = 0;
pos.column = 0;
}
else {
pos.row = row;
pos.column = Math.min(this.document.getLine(pos.row).length, Math.max(0, column));
}
if (column < 0)
pos.column = 0;
return pos;
};
}).call(Anchor.prototype);
});
define('ace/lib/lang', ['require', 'exports', 'module' ], function(require, exports, module) {
exports.stringReverse = function(string) {
return string.split("").reverse().join("");
};
exports.stringRepeat = function (string, count) {
return new Array(count + 1).join(string);
};
var trimBeginRegexp = /^\s\s*/;
var trimEndRegexp = /\s\s*$/;
exports.stringTrimLeft = function (string) {
return string.replace(trimBeginRegexp, '');
};
exports.stringTrimRight = function (string) {
return string.replace(trimEndRegexp, '');
};
exports.copyObject = function(obj) {
var copy = {};
for (var key in obj) {
copy[key] = obj[key];
}
return copy;
};
exports.copyArray = function(array){
var copy = [];
for (var i=0, l=array.length; i<l; i++) {
if (array[i] && typeof array[i] == "object")
copy[i] = this.copyObject( array[i] );
else
copy[i] = array[i];
}
return copy;
};
exports.deepCopy = function (obj) {
if (typeof obj != "object") {
return obj;
}
var copy = obj.constructor();
for (var key in obj) {
if (typeof obj[key] == "object") {
copy[key] = this.deepCopy(obj[key]);
} else {
copy[key] = obj[key];
}
}
return copy;
};
exports.arrayToMap = function(arr) {
var map = {};
for (var i=0; i<arr.length; i++) {
map[arr[i]] = 1;
}
return map;
};
exports.createMap = function(props) {
var map = Object.create(null);
for (var i in props) {
map[i] = props[i];
}
return map;
};
exports.arrayRemove = function(array, value) {
for (var i = 0; i <= array.length; i++) {
if (value === array[i]) {
array.splice(i, 1);
}
}
};
exports.escapeRegExp = function(str) {
return str.replace(/([.*+?^${}()|[\]\/\\])/g, '\\$1');
};
exports.getMatchOffsets = function(string, regExp) {
var matches = [];
string.replace(regExp, function(str) {
matches.push({
offset: arguments[arguments.length-2],
length: str.length
});
});
return matches;
};
exports.deferredCall = function(fcn) {
var timer = null;
var callback = function() {
timer = null;
fcn();
};
var deferred = function(timeout) {
deferred.cancel();
timer = setTimeout(callback, timeout || 0);
return deferred;
};
deferred.schedule = deferred;
deferred.call = function() {
this.cancel();
fcn();
return deferred;
};
deferred.cancel = function() {
clearTimeout(timer);
timer = null;
return deferred;
};
return deferred;
};
});
define('ace/worker/jshint', ['require', 'exports', 'module' ], function(require, exports, module) {
/*!
* JSHint, by JSHint Community.
*
* Licensed under the same slightly modified MIT license that JSLint is.
* It stops evil-doers everywhere.
*
* JSHint is a derivative work of JSLint:
*
* Copyright (c) 2002 Douglas Crockford (www.JSLint.com)
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom
* the Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included
* in all copies or substantial portions of the Software.
*
* The Software shall be used for Good, not Evil.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*
* JSHint was forked from 2010-12-16 edition of JSLint.
*
*/
/*
JSHINT is a global function. It takes two parameters.
var myResult = JSHINT(source, option);
The first parameter is either a string or an array of strings. If it is a
string, it will be split on '\n' or '\r'. If it is an array of strings, it
is assumed that each string represents one line. The source can be a
JavaScript text or a JSON text.
The second parameter is an optional object of options which control the
operation of JSHINT. Most of the options are booleans: They are all
optional and have a default value of false. One of the options, predef,
can be an array of names, which will be used to declare global variables,
or an object whose keys are used as global names, with a boolean value
that determines if they are assignable.
If it checks out, JSHINT returns true. Otherwise, it returns false.
If false, you can inspect JSHINT.errors to find out the problems.
JSHINT.errors is an array of objects containing these members:
{
line : The line (relative to 0) at which the lint was found
character : The character (relative to 0) at which the lint was found
reason : The problem
evidence : The text line in which the problem occurred
raw : The raw message before the details were inserted
a : The first detail
b : The second detail
c : The third detail
d : The fourth detail
}
If a fatal error was found, a null will be the last element of the
JSHINT.errors array.
You can request a Function Report, which shows all of the functions
and the parameters and vars that they use. This can be used to find
implied global variables and other problems. The report is in HTML and
can be inserted in an HTML <body>.
var myReport = JSHINT.report(limited);
If limited is true, then the report will be limited to only errors.
You can request a data structure which contains JSHint's results.
var myData = JSHINT.data();
It returns a structure with this form:
{
errors: [
{
line: NUMBER,
character: NUMBER,
reason: STRING,
evidence: STRING
}
],
functions: [
name: STRING,
line: NUMBER,
last: NUMBER,
param: [
STRING
],
closure: [
STRING
],
var: [
STRING
],
exception: [
STRING
],
outer: [
STRING
],
unused: [
STRING
],
global: [
STRING
],
label: [
STRING
]
],
globals: [
STRING
],
member: {
STRING: NUMBER
},
unused: [
{
name: STRING,
line: NUMBER
}
],
implieds: [
{
name: STRING,
line: NUMBER
}
],
urls: [
STRING
],
json: BOOLEAN
}
Empty arrays will not be included.
*/
/*jshint
evil: true, nomen: false, onevar: false, regexp: false, strict: true, boss: true,
undef: true, maxlen: 100, indent:4
*/
/*members "\b", "\t", "\n", "\f", "\r", "!=", "!==", "\"", "%", "(begin)",
"(breakage)", "(context)", "(error)", "(global)", "(identifier)", "(last)",
"(line)", "(loopage)", "(name)", "(onevar)", "(params)", "(scope)",
"(statement)", "(verb)", "*", "+", "++", "-", "--", "\/", "<", "<=", "==",
"===", ">", ">=", $, $$, $A, $F, $H, $R, $break, $continue, $w, Abstract, Ajax,
__filename, __dirname, ActiveXObject, Array, ArrayBuffer, ArrayBufferView, Audio,
Autocompleter, Assets, Boolean, Builder, Buffer, Browser, COM, CScript, Canvas,
CustomAnimation, Class, Control, Chain, Color, Cookie, Core, DataView, Date,
Debug, Draggable, Draggables, Droppables, Document, DomReady, DOMReady, DOMParser, Drag,
E, Enumerator, Enumerable, Element, Elements, Error, Effect, EvalError, Event,
Events, FadeAnimation, Field, Flash, Float32Array, Float64Array, Form,
FormField, Frame, FormData, Function, Fx, GetObject, Group, Hash, HotKey,
HTMLElement, HTMLAnchorElement, HTMLBaseElement, HTMLBlockquoteElement,
HTMLBodyElement, HTMLBRElement, HTMLButtonElement, HTMLCanvasElement, HTMLDirectoryElement,
HTMLDivElement, HTMLDListElement, HTMLFieldSetElement,
HTMLFontElement, HTMLFormElement, HTMLFrameElement, HTMLFrameSetElement,
HTMLHeadElement, HTMLHeadingElement, HTMLHRElement, HTMLHtmlElement,
HTMLIFrameElement, HTMLImageElement, HTMLInputElement, HTMLIsIndexElement,
HTMLLabelElement, HTMLLayerElement, HTMLLegendElement, HTMLLIElement,
HTMLLinkElement, HTMLMapElement, HTMLMenuElement, HTMLMetaElement,
HTMLModElement, HTMLObjectElement, HTMLOListElement, HTMLOptGroupElement,
HTMLOptionElement, HTMLParagraphElement, HTMLParamElement, HTMLPreElement,
HTMLQuoteElement, HTMLScriptElement, HTMLSelectElement, HTMLStyleElement,
HtmlTable, HTMLTableCaptionElement, HTMLTableCellElement, HTMLTableColElement,
HTMLTableElement, HTMLTableRowElement, HTMLTableSectionElement,
HTMLTextAreaElement, HTMLTitleElement, HTMLUListElement, HTMLVideoElement,
Iframe, IframeShim, Image, Int16Array, Int32Array, Int8Array,
Insertion, InputValidator, JSON, Keyboard, Locale, LN10, LN2, LOG10E, LOG2E,
MAX_VALUE, MIN_VALUE, Mask, Math, MenuItem, MessageChannel, MessageEvent, MessagePort,
MoveAnimation, MooTools, Native, NEGATIVE_INFINITY, Number, Object, ObjectRange, Option,
Options, OverText, PI, POSITIVE_INFINITY, PeriodicalExecuter, Point, Position, Prototype,
RangeError, Rectangle, ReferenceError, RegExp, ResizeAnimation, Request, RotateAnimation,
SQRT1_2, SQRT2, ScrollBar, ScriptEngine, ScriptEngineBuildVersion,
ScriptEngineMajorVersion, ScriptEngineMinorVersion, Scriptaculous, Scroller,
Slick, Slider, Selector, SharedWorker, String, Style, SyntaxError, Sortable, Sortables,
SortableObserver, Sound, Spinner, System, Swiff, Text, TextArea, Template,
Timer, Tips, Type, TypeError, Toggle, Try, "use strict", unescape, URI, URIError, URL,
VBArray, WSH, WScript, XDomainRequest, Web, Window, XMLDOM, XMLHttpRequest, XMLSerializer,
XPathEvaluator, XPathException, XPathExpression, XPathNamespace, XPathNSResolver, XPathResult,
"\\", a, addEventListener, address, alert, apply, applicationCache, arguments, arity, asi, atob,
b, basic, basicToken, bitwise, block, blur, boolOptions, boss, browser, btoa, c, call, callee,
caller, cases, charAt, charCodeAt, character, clearInterval, clearTimeout,
close, closed, closure, comment, condition, confirm, console, constructor,
content, couch, create, css, curly, d, data, datalist, dd, debug, decodeURI,
decodeURIComponent, defaultStatus, defineClass, deserialize, devel, document,
dojo, dijit, dojox, define, else, emit, encodeURI, encodeURIComponent,
entityify, eqeqeq, eqnull, errors, es5, escape, esnext, eval, event, evidence, evil,
ex, exception, exec, exps, expr, exports, FileReader, first, floor, focus,
forin, fragment, frames, from, fromCharCode, fud, funcscope, funct, function, functions,
g, gc, getComputedStyle, getRow, getter, getterToken, GLOBAL, global, globals, globalstrict,
hasOwnProperty, help, history, i, id, identifier, immed, implieds, importPackage, include,
indent, indexOf, init, ins, instanceOf, isAlpha, isApplicationRunning, isArray,
isDigit, isFinite, isNaN, iterator, java, join, jshint,
JSHINT, json, jquery, jQuery, keys, label, labelled, last, lastsemic, laxbreak, laxcomma,
latedef, lbp, led, left, length, line, load, loadClass, localStorage, location,
log, loopfunc, m, match, maxerr, maxlen, member,message, meta, module, moveBy,
moveTo, mootools, multistr, name, navigator, new, newcap, noarg, node, noempty, nomen,
nonew, nonstandard, nud, onbeforeunload, onblur, onerror, onevar, onecase, onfocus,
onload, onresize, onunload, open, openDatabase, openURL, opener, opera, options, outer, param,
parent, parseFloat, parseInt, passfail, plusplus, predef, print, process, prompt,
proto, prototype, prototypejs, provides, push, quit, range, raw, reach, reason, regexp,
readFile, readUrl, regexdash, removeEventListener, replace, report, require,
reserved, resizeBy, resizeTo, resolvePath, resumeUpdates, respond, rhino, right,
runCommand, scroll, screen, scripturl, scrollBy, scrollTo, scrollbar, search, seal,
send, serialize, sessionStorage, setInterval, setTimeout, setter, setterToken, shift, slice,
smarttabs, sort, spawn, split, stack, status, start, strict, sub, substr, supernew, shadow,
supplant, sum, sync, test, toLowerCase, toString, toUpperCase, toint32, token, top, trailing,
type, typeOf, Uint16Array, Uint32Array, Uint8Array, undef, undefs, unused, urls, validthis,
value, valueOf, var, version, WebSocket, withstmt, white, window, Worker, wsh*/
/*global exports: false */
// We build the application inside a function so that we produce only a single
// global variable. That function will be invoked immediately, and its return
// value is the JSHINT function itself.
var JSHINT = (function () {
var anonname, // The guessed name for anonymous functions.
// These are operators that should not be used with the ! operator.
bang = {
'<' : true,
'<=' : true,
'==' : true,
'===': true,
'!==': true,
'!=' : true,
'>' : true,
'>=' : true,
'+' : true,
'-' : true,
'*' : true,
'/' : true,
'%' : true
},
// These are the JSHint boolean options.
boolOptions = {
asi : true, // if automatic semicolon insertion should be tolerated
bitwise : true, // if bitwise operators should not be allowed
boss : true, // if advanced usage of assignments should be allowed
browser : true, // if the standard browser globals should be predefined
couch : true, // if CouchDB globals should be predefined
curly : true, // if curly braces around all blocks should be required
debug : true, // if debugger statements should be allowed
devel : true, // if logging globals should be predefined (console,
// alert, etc.)
dojo : true, // if Dojo Toolkit globals should be predefined
eqeqeq : true, // if === should be required
eqnull : true, // if == null comparisons should be tolerated
es5 : true, // if ES5 syntax should be allowed
esnext : true, // if es.next specific syntax should be allowed
evil : true, // if eval should be allowed
expr : true, // if ExpressionStatement should be allowed as Programs
forin : true, // if for in statements must filter
funcscope : true, // if only function scope should be used for scope tests
globalstrict: true, // if global should be allowed (also
// enables 'strict')
immed : true, // if immediate invocations must be wrapped in parens
iterator : true, // if the `__iterator__` property should be allowed
jquery : true, // if jQuery globals should be predefined
lastsemic : true, // if semicolons may be ommitted for the trailing
// statements inside of a one-line blocks.
latedef : true, // if the use before definition should not be tolerated
laxbreak : true, // if line breaks should not be checked
laxcomma : true, // if line breaks should not be checked around commas
loopfunc : true, // if functions should be allowed to be defined within
// loops
mootools : true, // if MooTools globals should be predefined
multistr : true, // allow multiline strings
newcap : true, // if constructor names must be capitalized
noarg : true, // if arguments.caller and arguments.callee should be
// disallowed
node : true, // if the Node.js environment globals should be
// predefined
noempty : true, // if empty blocks should be disallowed
nonew : true, // if using `new` for side-effects should be disallowed
nonstandard : true, // if non-standard (but widely adopted) globals should
// be predefined
nomen : true, // if names should be checked
onevar : true, // if only one var statement per function should be
// allowed
onecase : true, // if one case switch statements should be allowed
passfail : true, // if the scan should stop on first error
plusplus : true, // if increment/decrement should not be allowed
proto : true, // if the `__proto__` property should be allowed
prototypejs : true, // if Prototype and Scriptaculous globals should be
// predefined
regexdash : true, // if unescaped first/last dash (-) inside brackets
// should be tolerated
regexp : true, // if the . should not be allowed in regexp literals
rhino : true, // if the Rhino environment globals should be predefined
undef : true, // if variables should be declared before used
scripturl : true, // if script-targeted URLs should be tolerated
shadow : true, // if variable shadowing should be tolerated
smarttabs : true, // if smarttabs should be tolerated
// (http://www.emacswiki.org/emacs/SmartTabs)
strict : true, // require the pragma
sub : true, // if all forms of subscript notation are tolerated
supernew : true, // if `new function () { ... };` and `new Object;`
// should be tolerated
trailing : true, // if trailing whitespace rules apply
validthis : true, // if 'this' inside a non-constructor function is valid.
// This is a function scoped option only.
withstmt : true, // if with statements should be allowed
white : true, // if strict whitespace rules apply
wsh : true // if the Windows Scripting Host environment globals
// should be predefined
},
// These are the JSHint options that can take any value
// (we use this object to detect invalid options)
valOptions = {
maxlen: false,
indent: false,
maxerr: false,
predef: false
},
// browser contains a set of global names which are commonly provided by a
// web browser environment.
browser = {
ArrayBuffer : false,
ArrayBufferView : false,
Audio : false,
addEventListener : false,
applicationCache : false,
atob : false,
blur : false,
btoa : false,
clearInterval : false,
clearTimeout : false,
close : false,
closed : false,
DataView : false,
DOMParser : false,
defaultStatus : false,
document : false,
event : false,
FileReader : false,
Float32Array : false,
Float64Array : false,
FormData : false,
focus : false,
frames : false,
getComputedStyle : false,
HTMLElement : false,
HTMLAnchorElement : false,
HTMLBaseElement : false,
HTMLBlockquoteElement : false,
HTMLBodyElement : false,
HTMLBRElement : false,
HTMLButtonElement : false,
HTMLCanvasElement : false,
HTMLDirectoryElement : false,
HTMLDivElement : false,
HTMLDListElement : false,
HTMLFieldSetElement : false,
HTMLFontElement : false,
HTMLFormElement : false,
HTMLFrameElement : false,
HTMLFrameSetElement : false,
HTMLHeadElement : false,
HTMLHeadingElement : false,
HTMLHRElement : false,
HTMLHtmlElement : false,
HTMLIFrameElement : false,
HTMLImageElement : false,
HTMLInputElement : false,
HTMLIsIndexElement : false,
HTMLLabelElement : false,
HTMLLayerElement : false,
HTMLLegendElement : false,
HTMLLIElement : false,
HTMLLinkElement : false,
HTMLMapElement : false,
HTMLMenuElement : false,
HTMLMetaElement : false,
HTMLModElement : false,
HTMLObjectElement : false,
HTMLOListElement : false,
HTMLOptGroupElement : false,
HTMLOptionElement : false,
HTMLParagraphElement : false,
HTMLParamElement : false,
HTMLPreElement : false,
HTMLQuoteElement : false,
HTMLScriptElement : false,
HTMLSelectElement : false,
HTMLStyleElement : false,
HTMLTableCaptionElement : false,
HTMLTableCellElement : false,
HTMLTableColElement : false,
HTMLTableElement : false,
HTMLTableRowElement : false,
HTMLTableSectionElement : false,
HTMLTextAreaElement : false,
HTMLTitleElement : false,
HTMLUListElement : false,
HTMLVideoElement : false,
history : false,
Int16Array : false,
Int32Array : false,
Int8Array : false,
Image : false,
length : false,
localStorage : false,
location : false,
MessageChannel : false,
MessageEvent : false,
MessagePort : false,
moveBy : false,
moveTo : false,
name : false,
navigator : false,
onbeforeunload : true,
onblur : true,
onerror : true,
onfocus : true,
onload : true,
onresize : true,
onunload : true,
open : false,
openDatabase : false,
opener : false,
Option : false,
parent : false,
print : false,
removeEventListener : false,
resizeBy : false,
resizeTo : false,
screen : false,
scroll : false,
scrollBy : false,
scrollTo : false,
sessionStorage : false,
setInterval : false,
setTimeout : false,
SharedWorker : false,
status : false,
top : false,
Uint16Array : false,
Uint32Array : false,
Uint8Array : false,
WebSocket : false,
window : false,
Worker : false,
XMLHttpRequest : false,
XMLSerializer : false,
XPathEvaluator : false,
XPathException : false,
XPathExpression : false,
XPathNamespace : false,
XPathNSResolver : false,
XPathResult : false
},
couch = {
"require" : false,
respond : false,
getRow : false,
emit : false,
send : false,
start : false,
sum : false,
log : false,
exports : false,
module : false,
provides : false
},
devel = {
alert : false,
confirm : false,
console : false,
Debug : false,
opera : false,
prompt : false
},
dojo = {
dojo : false,
dijit : false,
dojox : false,
define : false,
"require" : false
},
escapes = {
'\b': '\\b',
'\t': '\\t',
'\n': '\\n',
'\f': '\\f',
'\r': '\\r',
'"' : '\\"',
'/' : '\\/',
'\\': '\\\\'
},
funct, // The current function
functionicity = [
'closure', 'exception', 'global', 'label',
'outer', 'unused', 'var'
],
functions, // All of the functions
global, // The global scope
implied, // Implied globals
inblock,
indent,
jsonmode,
jquery = {
'$' : false,
jQuery : false
},
lines,
lookahead,
member,
membersOnly,
mootools = {
'$' : false,
'$$' : false,
Assets : false,
Browser : false,
Chain : false,
Class : false,
Color : false,
Cookie : false,
Core : false,
Document : false,
DomReady : false,
DOMReady : false,
Drag : false,
Element : false,
Elements : false,
Event : false,
Events : false,
Fx : false,
Group : false,
Hash : false,
HtmlTable : false,
Iframe : false,
IframeShim : false,
InputValidator : false,
instanceOf : false,
Keyboard : false,
Locale : false,
Mask : false,
MooTools : false,
Native : false,
Options : false,
OverText : false,
Request : false,
Scroller : false,
Slick : false,
Slider : false,
Sortables : false,
Spinner : false,
Swiff : false,
Tips : false,
Type : false,
typeOf : false,
URI : false,
Window : false
},
nexttoken,
node = {
__filename : false,
__dirname : false,
Buffer : false,
console : false,
exports : false,
GLOBAL : false,
global : false,
module : false,
process : false,
require : false,
setTimeout : false,
clearTimeout : false,
setInterval : false,
clearInterval : false
},
noreach,
option,
predefined, // Global variables defined by option
prereg,
prevtoken,
prototypejs = {
'$' : false,
'$$' : false,
'$A' : false,
'$F' : false,
'$H' : false,
'$R' : false,
'$break' : false,
'$continue' : false,
'$w' : false,
Abstract : false,
Ajax : false,
Class : false,
Enumerable : false,
Element : false,
Event : false,
Field : false,
Form : false,
Hash : false,
Insertion : false,
ObjectRange : false,
PeriodicalExecuter: false,
Position : false,
Prototype : false,
Selector : false,
Template : false,
Toggle : false,
Try : false,
Autocompleter : false,
Builder : false,
Control : false,
Draggable : false,
Draggables : false,
Droppables : false,
Effect : false,
Sortable : false,
SortableObserver : false,
Sound : false,
Scriptaculous : false
},
rhino = {
defineClass : false,
deserialize : false,
gc : false,
help : false,
importPackage: false,
"java" : false,
load : false,
loadClass : false,
print : false,
quit : false,
readFile : false,
readUrl : false,
runCommand : false,
seal : false,
serialize : false,
spawn : false,
sync : false,
toint32 : false,
version : false
},
scope, // The current scope
stack,
// standard contains the global names that are provided by the
// ECMAScript standard.
standard = {
Array : false,
Boolean : false,
Date : false,
decodeURI : false,
decodeURIComponent : false,
encodeURI : false,
encodeURIComponent : false,
Error : false,
'eval' : false,
EvalError : false,
Function : false,
hasOwnProperty : false,
isFinite : false,
isNaN : false,
JSON : false,
Math : false,
Number : false,
Object : false,
parseInt : false,
parseFloat : false,
RangeError : false,
ReferenceError : false,
RegExp : false,
String : false,
SyntaxError : false,
TypeError : false,
URIError : false
},
// widely adopted global names that are not part of ECMAScript standard
nonstandard = {
escape : false,
unescape : false
},
standard_member = {
E : true,
LN2 : true,
LN10 : true,
LOG2E : true,
LOG10E : true,
MAX_VALUE : true,
MIN_VALUE : true,
NEGATIVE_INFINITY : true,
PI : true,
POSITIVE_INFINITY : true,
SQRT1_2 : true,
SQRT2 : true
},
directive,
syntax = {},
tab,
token,
urls,
useESNextSyntax,
warnings,
wsh = {
ActiveXObject : true,
Enumerator : true,
GetObject : true,
ScriptEngine : true,
ScriptEngineBuildVersion : true,
ScriptEngineMajorVersion : true,
ScriptEngineMinorVersion : true,
VBArray : true,
WSH : true,
WScript : true,
XDomainRequest : true
};
// Regular expressions. Some of these are stupidly long.
var ax, cx, tx, nx, nxg, lx, ix, jx, ft;
(function () {
/*jshint maxlen:300 */
// unsafe comment or string
ax = /@cc|<\/?|script|\]\s*\]|<\s*!|&lt/i;
// unsafe characters that are silently deleted by one or more browsers
cx = /[\u0000-\u001f\u007f-\u009f\u00ad\u0600-\u0604\u070f\u17b4\u17b5\u200c-\u200f\u2028-\u202f\u2060-\u206f\ufeff\ufff0-\uffff]/;
// token
tx = /^\s*([(){}\[.,:;'"~\?\]#@]|==?=?|\/(\*(jshint|jslint|members?|global)?|=|\/)?|\*[\/=]?|\+(?:=|\++)?|-(?:=|-+)?|%=?|&[&=]?|\|[|=]?|>>?>?=?|<([\/=!]|\!(\[|--)?|<=?)?|\^=?|\!=?=?|[a-zA-Z_$][a-zA-Z0-9_$]*|[0-9]+([xX][0-9a-fA-F]+|\.[0-9]*)?([eE][+\-]?[0-9]+)?)/;
// characters in strings that need escapement
nx = /[\u0000-\u001f&<"\/\\\u007f-\u009f\u00ad\u0600-\u0604\u070f\u17b4\u17b5\u200c-\u200f\u2028-\u202f\u2060-\u206f\ufeff\ufff0-\uffff]/;
nxg = /[\u0000-\u001f&<"\/\\\u007f-\u009f\u00ad\u0600-\u0604\u070f\u17b4\u17b5\u200c-\u200f\u2028-\u202f\u2060-\u206f\ufeff\ufff0-\uffff]/g;
// star slash
lx = /\*\/|\/\*/;
// identifier
ix = /^([a-zA-Z_$][a-zA-Z0-9_$]*)$/;
// javascript url
jx = /^(?:javascript|jscript|ecmascript|vbscript|mocha|livescript)\s*:/i;
// catches /* falls through */ comments
ft = /^\s*\/\*\s*falls\sthrough\s*\*\/\s*$/;
}());
function F() {} // Used by Object.create
function is_own(object, name) {
// The object.hasOwnProperty method fails when the property under consideration
// is named 'hasOwnProperty'. So we have to use this more convoluted form.
return Object.prototype.hasOwnProperty.call(object, name);
}
function checkOption(name, t) {
if (valOptions[name] === undefined && boolOptions[name] === undefined) {
warning("Bad option: '" + name + "'.", t);
}
}
// Provide critical ES5 functions to ES3.
if (typeof Array.isArray !== 'function') {
Array.isArray = function (o) {
return Object.prototype.toString.apply(o) === '[object Array]';
};
}
if (typeof Object.create !== 'function') {
Object.create = function (o) {
F.prototype = o;
return new F();
};
}
if (typeof Object.keys !== 'function') {
Object.keys = function (o) {
var a = [], k;
for (k in o) {
if (is_own(o, k)) {
a.push(k);
}
}
return a;
};
}
// Non standard methods
if (typeof String.prototype.entityify !== 'function') {
String.prototype.entityify = function () {
return this
.replace(/&/g, '&amp;')
.replace(/</g, '&lt;')
.replace(/>/g, '&gt;');
};
}
if (typeof String.prototype.isAlpha !== 'function') {
String.prototype.isAlpha = function () {
return (this >= 'a' && this <= 'z\uffff') ||
(this >= 'A' && this <= 'Z\uffff');
};
}
if (typeof String.prototype.isDigit !== 'function') {
String.prototype.isDigit = function () {
return (this >= '0' && this <= '9');
};
}
if (typeof String.prototype.supplant !== 'function') {
String.prototype.supplant = function (o) {
return this.replace(/\{([^{}]*)\}/g, function (a, b) {
var r = o[b];
return typeof r === 'string' || typeof r === 'number' ? r : a;
});
};
}
if (typeof String.prototype.name !== 'function') {
String.prototype.name = function () {
// If the string looks like an identifier, then we can return it as is.
// If the string contains no control characters, no quote characters, and no
// backslash characters, then we can simply slap some quotes around it.
// Otherwise we must also replace the offending characters with safe
// sequences.
if (ix.test(this)) {
return this;
}
if (nx.test(this)) {
return '"' + this.replace(nxg, function (a) {
var c = escapes[a];
if (c) {
return c;
}
return '\\u' + ('0000' + a.charCodeAt().toString(16)).slice(-4);
}) + '"';
}
return '"' + this + '"';
};
}
function combine(t, o) {
var n;
for (n in o) {
if (is_own(o, n)) {
t[n] = o[n];
}
}
}
function assume() {
if (option.couch) {
combine(predefined, couch);
}
if (option.rhino) {
combine(predefined, rhino);
}
if (option.prototypejs) {
combine(predefined, prototypejs);
}
if (option.node) {
combine(predefined, node);
option.globalstrict = true;
}
if (option.devel) {
combine(predefined, devel);
}
if (option.dojo) {
combine(predefined, dojo);
}
if (option.browser) {
combine(predefined, browser);
}
if (option.nonstandard) {
combine(predefined, nonstandard);
}
if (option.jquery) {
combine(predefined, jquery);
}
if (option.mootools) {
combine(predefined, mootools);
}
if (option.wsh) {
combine(predefined, wsh);
}
if (option.esnext) {
useESNextSyntax();
}
if (option.globalstrict && option.strict !== false) {
option.strict = true;
}
}
// Produce an error warning.
function quit(message, line, chr) {
var percentage = Math.floor((line / lines.length) * 100);
throw {
name: 'JSHintError',
line: line,
character: chr,
message: message + " (" + percentage + "% scanned).",
raw: message
};
}
function isundef(scope, m, t, a) {
return JSHINT.undefs.push([scope, m, t, a]);
}
function warning(m, t, a, b, c, d) {
var ch, l, w;
t = t || nexttoken;
if (t.id === '(end)') { // `~
t = token;
}
l = t.line || 0;
ch = t.from || 0;
w = {
id: '(error)',
raw: m,
evidence: lines[l - 1] || '',
line: l,
character: ch,
a: a,
b: b,
c: c,
d: d
};
w.reason = m.supplant(w);
JSHINT.errors.push(w);
if (option.passfail) {
quit('Stopping. ', l, ch);
}
warnings += 1;
if (warnings >= option.maxerr) {
quit("Too many errors.", l, ch);
}
return w;
}
function warningAt(m, l, ch, a, b, c, d) {
return warning(m, {
line: l,
from: ch
}, a, b, c, d);
}
function error(m, t, a, b, c, d) {
var w = warning(m, t, a, b, c, d);
}
function errorAt(m, l, ch, a, b, c, d) {
return error(m, {
line: l,
from: ch
}, a, b, c, d);
}
// lexical analysis and token construction
var lex = (function lex() {
var character, from, line, s;
// Private lex methods
function nextLine() {
var at,
tw; // trailing whitespace check
if (line >= lines.length)
return false;
character = 1;
s = lines[line];
line += 1;
// If smarttabs option is used check for spaces followed by tabs only.
// Otherwise check for any occurence of mixed tabs and spaces.
if (option.smarttabs)
at = s.search(/ \t/);
else
at = s.search(/ \t|\t /);
if (at >= 0)
warningAt("Mixed spaces and tabs.", line, at + 1);
s = s.replace(/\t/g, tab);
at = s.search(cx);
if (at >= 0)
warningAt("Unsafe character.", line, at);
if (option.maxlen && option.maxlen < s.length)
warningAt("Line too long.", line, s.length);
// Check for trailing whitespaces
tw = option.trailing && s.match(/^(.*?)\s+$/);
if (tw && !/^\s+$/.test(s)) {
warningAt("Trailing whitespace.", line, tw[1].length + 1);
}
return true;
}
// Produce a token object. The token inherits from a syntax symbol.
function it(type, value) {
var i, t;
if (type === '(color)' || type === '(range)') {
t = {type: type};
} else if (type === '(punctuator)' ||
(type === '(identifier)' && is_own(syntax, value))) {
t = syntax[value] || syntax['(error)'];
} else {
t = syntax[type];
}
t = Object.create(t);
if (type === '(string)' || type === '(range)') {
if (!option.scripturl && jx.test(value)) {
warningAt("Script URL.", line, from);
}
}
if (type === '(identifier)') {
t.identifier = true;
if (value === '__proto__' && !option.proto) {
warningAt("The '{a}' property is deprecated.",
line, from, value);
} else if (value === '__iterator__' && !option.iterator) {
warningAt("'{a}' is only available in JavaScript 1.7.",
line, from, value);
} else if (option.nomen && (value.charAt(0) === '_' ||
value.charAt(value.length - 1) === '_')) {
if (!option.node || token.id === '.' ||
(value !== '__dirname' && value !== '__filename')) {
warningAt("Unexpected {a} in '{b}'.", line, from, "dangling '_'", value);
}
}
}
t.value = value;
t.line = line;
t.character = character;
t.from = from;
i = t.id;
if (i !== '(endline)') {
prereg = i &&
(('(,=:[!&|?{};'.indexOf(i.charAt(i.length - 1)) >= 0) ||
i === 'return' ||
i === 'case');
}
return t;
}
// Public lex methods
return {
init: function (source) {
if (typeof source === 'string') {
lines = source
.replace(/\r\n/g, '\n')
.replace(/\r/g, '\n')
.split('\n');
} else {
lines = source;
}
// If the first line is a shebang (#!), make it a blank and move on.
// Shebangs are used by Node scripts.
if (lines[0] && lines[0].substr(0, 2) === '#!')
lines[0] = '';
line = 0;
nextLine();
from = 1;
},
range: function (begin, end) {
var c, value = '';
from = character;
if (s.charAt(0) !== begin) {
errorAt("Expected '{a}' and instead saw '{b}'.",
line, character, begin, s.charAt(0));
}
for (;;) {
s = s.slice(1);
character += 1;
c = s.charAt(0);
switch (c) {
case '':
errorAt("Missing '{a}'.", line, character, c);
break;
case end:
s = s.slice(1);
character += 1;
return it('(range)', value);
case '\\':
warningAt("Unexpected '{a}'.", line, character, c);
}
value += c;
}
},
// token -- this is called by advance to get the next token
token: function () {
var b, c, captures, d, depth, high, i, l, low, q, t, isLiteral, isInRange, n;
function match(x) {
var r = x.exec(s), r1;
if (r) {
l = r[0].length;
r1 = r[1];
c = r1.charAt(0);
s = s.substr(l);
from = character + l - r1.length;
character += l;
return r1;
}
}
function string(x) {
var c, j, r = '', allowNewLine = false;
if (jsonmode && x !== '"') {
warningAt("Strings must use doublequote.",
line, character);
}
function esc(n) {
var i = parseInt(s.substr(j + 1, n), 16);
j += n;
if (i >= 32 && i <= 126 &&
i !== 34 && i !== 92 && i !== 39) {
warningAt("Unnecessary escapement.", line, character);
}
character += n;
c = String.fromCharCode(i);
}
j = 0;
unclosedString: for (;;) {
while (j >= s.length) {
j = 0;
var cl = line, cf = from;
if (!nextLine()) {
errorAt("Unclosed string.", cl, cf);
break unclosedString;
}
if (allowNewLine) {
allowNewLine = false;
} else {
warningAt("Unclosed string.", cl, cf);
}
}
c = s.charAt(j);
if (c === x) {
character += 1;
s = s.substr(j + 1);
return it('(string)', r, x);
}
if (c < ' ') {
if (c === '\n' || c === '\r') {
break;
}
warningAt("Control character in string: {a}.",
line, character + j, s.slice(0, j));
} else if (c === '\\') {
j += 1;
character += 1;
c = s.charAt(j);
n = s.charAt(j + 1);
switch (c) {
case '\\':
case '"':
case '/':
break;
case '\'':
if (jsonmode) {
warningAt("Avoid \\'.", line, character);
}
break;
case 'b':
c = '\b';
break;
case 'f':
c = '\f';
break;
case 'n':
c = '\n';
break;
case 'r':
c = '\r';
break;
case 't':
c = '\t';
break;
case '0':
c = '\0';
// Octal literals fail in strict mode
// check if the number is between 00 and 07
// where 'n' is the token next to 'c'
if (n >= 0 && n <= 7 && directive["use strict"]) {
warningAt(
"Octal literals are not allowed in strict mode.",
line, character);
}
break;
case 'u':
esc(4);
break;
case 'v':
if (jsonmode) {
warningAt("Avoid \\v.", line, character);
}
c = '\v';
break;
case 'x':
if (jsonmode) {
warningAt("Avoid \\x-.", line, character);
}
esc(2);
break;
case '':
// last character is escape character
// always allow new line if escaped, but show
// warning if option is not set
allowNewLine = true;
if (option.multistr) {
if (jsonmode) {
warningAt("Avoid EOL escapement.", line, character);
}
c = '';
character -= 1;
break;
}
warningAt("Bad escapement of EOL. Use option multistr if needed.",
line, character);
break;
default:
warningAt("Bad escapement.", line, character);
}
}
r += c;
character += 1;
j += 1;
}
}
for (;;) {
if (!s) {
return it(nextLine() ? '(endline)' : '(end)', '');
}
t = match(tx);
if (!t) {
t = '';
c = '';
while (s && s < '!') {
s = s.substr(1);
}
if (s) {
errorAt("Unexpected '{a}'.", line, character, s.substr(0, 1));
s = '';
}
} else {
// identifier
if (c.isAlpha() || c === '_' || c === '$') {
return it('(identifier)', t);
}
// number
if (c.isDigit()) {
if (!isFinite(Number(t))) {
warningAt("Bad number '{a}'.",
line, character, t);
}
if (s.substr(0, 1).isAlpha()) {
warningAt("Missing space after '{a}'.",
line, character, t);
}
if (c === '0') {
d = t.substr(1, 1);
if (d.isDigit()) {
if (token.id !== '.') {
warningAt("Don't use extra leading zeros '{a}'.",
line, character, t);
}
} else if (jsonmode && (d === 'x' || d === 'X')) {
warningAt("Avoid 0x-. '{a}'.",
line, character, t);
}
}
if (t.substr(t.length - 1) === '.') {
warningAt(
"A trailing decimal point can be confused with a dot '{a}'.", line, character, t);
}
return it('(number)', t);
}
switch (t) {
// string
case '"':
case "'":
return string(t);
// // comment
case '//':
s = '';
token.comment = true;
break;
// /* comment
case '/*':
for (;;) {
i = s.search(lx);
if (i >= 0) {
break;
}
if (!nextLine()) {
errorAt("Unclosed comment.", line, character);
}
}
character += i + 2;
if (s.substr(i, 1) === '/') {
errorAt("Nested comment.", line, character);
}
s = s.substr(i + 2);
token.comment = true;
break;
// /*members /*jshint /*global
case '/*members':
case '/*member':
case '/*jshint':
case '/*jslint':
case '/*global':
case '*/':
return {
value: t,
type: 'special',
line: line,
character: character,
from: from
};
case '':
break;
// /
case '/':
if (token.id === '/=') {
errorAt("A regular expression literal can be confused with '/='.",
line, from);
}
if (prereg) {
depth = 0;
captures = 0;
l = 0;
for (;;) {
b = true;
c = s.charAt(l);
l += 1;
switch (c) {
case '':
errorAt("Unclosed regular expression.", line, from);
return quit('Stopping.', line, from);
case '/':
if (depth > 0) {
warningAt("{a} unterminated regular expression " +
"group(s).", line, from + l, depth);
}
c = s.substr(0, l - 1);
q = {
g: true,
i: true,
m: true
};
while (q[s.charAt(l)] === true) {
q[s.charAt(l)] = false;
l += 1;
}
character += l;
s = s.substr(l);
q = s.charAt(0);
if (q === '/' || q === '*') {
errorAt("Confusing regular expression.",
line, from);
}
return it('(regexp)', c);
case '\\':
c = s.charAt(l);
if (c < ' ') {
warningAt(
"Unexpected control character in regular expression.", line, from + l);
} else if (c === '<') {
warningAt(
"Unexpected escaped character '{a}' in regular expression.", line, from + l, c);
}
l += 1;
break;
case '(':
depth += 1;
b = false;
if (s.charAt(l) === '?') {
l += 1;
switch (s.charAt(l)) {
case ':':
case '=':
case '!':
l += 1;
break;
default:
warningAt(
"Expected '{a}' and instead saw '{b}'.", line, from + l, ':', s.charAt(l));
}
} else {
captures += 1;
}
break;
case '|':
b = false;
break;
case ')':
if (depth === 0) {
warningAt("Unescaped '{a}'.",
line, from + l, ')');
} else {
depth -= 1;
}
break;
case ' ':
q = 1;
while (s.charAt(l) === ' ') {
l += 1;
q += 1;
}
if (q > 1) {
warningAt(
"Spaces are hard to count. Use {{a}}.", line, from + l, q);
}
break;
case '[':
c = s.charAt(l);
if (c === '^') {
l += 1;
if (option.regexp) {
warningAt("Insecure '{a}'.",
line, from + l, c);
} else if (s.charAt(l) === ']') {
errorAt("Unescaped '{a}'.",
line, from + l, '^');
}
}
if (c === ']') {
warningAt("Empty class.", line,
from + l - 1);
}
isLiteral = false;
isInRange = false;
klass: do {
c = s.charAt(l);
l += 1;
switch (c) {
case '[':
case '^':
warningAt("Unescaped '{a}'.",
line, from + l, c);
if (isInRange) {
isInRange = false;
} else {
isLiteral = true;
}
break;
case '-':
if (isLiteral && !isInRange) {
isLiteral = false;
isInRange = true;
} else if (isInRange) {
isInRange = false;
} else if (s.charAt(l) === ']') {
isInRange = true;
} else {
if (option.regexdash !== (l === 2 || (l === 3 &&
s.charAt(1) === '^'))) {
warningAt("Unescaped '{a}'.",
line, from + l - 1, '-');
}
isLiteral = true;
}
break;
case ']':
if (isInRange && !option.regexdash) {
warningAt("Unescaped '{a}'.",
line, from + l - 1, '-');
}
break klass;
case '\\':
c = s.charAt(l);
if (c < ' ') {
warningAt(
"Unexpected control character in regular expression.", line, from + l);
} else if (c === '<') {
warningAt(
"Unexpected escaped character '{a}' in regular expression.", line, from + l, c);
}
l += 1;
// \w, \s and \d are never part of a character range
if (/[wsd]/i.test(c)) {
if (isInRange) {
warningAt("Unescaped '{a}'.",
line, from + l, '-');
isInRange = false;
}
isLiteral = false;
} else if (isInRange) {
isInRange = false;
} else {
isLiteral = true;
}
break;
case '/':
warningAt("Unescaped '{a}'.",
line, from + l - 1, '/');
if (isInRange) {
isInRange = false;
} else {
isLiteral = true;
}
break;
case '<':
if (isInRange) {
isInRange = false;
} else {
isLiteral = true;
}
break;
default:
if (isInRange) {
isInRange = false;
} else {
isLiteral = true;
}
}
} while (c);
break;
case '.':
if (option.regexp) {
warningAt("Insecure '{a}'.", line,
from + l, c);
}
break;
case ']':
case '?':
case '{':
case '}':
case '+':
case '*':
warningAt("Unescaped '{a}'.", line,
from + l, c);
}
if (b) {
switch (s.charAt(l)) {
case '?':
case '+':
case '*':
l += 1;
if (s.charAt(l) === '?') {
l += 1;
}
break;
case '{':
l += 1;
c = s.charAt(l);
if (c < '0' || c > '9') {
warningAt(
"Expected a number and instead saw '{a}'.", line, from + l, c);
}
l += 1;
low = +c;
for (;;) {
c = s.charAt(l);
if (c < '0' || c > '9') {
break;
}
l += 1;
low = +c + (low * 10);
}
high = low;
if (c === ',') {
l += 1;
high = Infinity;
c = s.charAt(l);
if (c >= '0' && c <= '9') {
l += 1;
high = +c;
for (;;) {
c = s.charAt(l);
if (c < '0' || c > '9') {
break;
}
l += 1;
high = +c + (high * 10);
}
}
}
if (s.charAt(l) !== '}') {
warningAt(
"Expected '{a}' and instead saw '{b}'.", line, from + l, '}', c);
} else {
l += 1;
}
if (s.charAt(l) === '?') {
l += 1;
}
if (low > high) {
warningAt(
"'{a}' should not be greater than '{b}'.", line, from + l, low, high);
}
}
}
}
c = s.substr(0, l - 1);
character += l;
s = s.substr(l);
return it('(regexp)', c);
}
return it('(punctuator)', t);
// punctuator
case '#':
return it('(punctuator)', t);
default:
return it('(punctuator)', t);
}
}
}
}
};
}());
function addlabel(t, type) {
if (t === 'hasOwnProperty') {
warning("'hasOwnProperty' is a really bad name.");
}
// Define t in the current function in the current scope.
if (is_own(funct, t) && !funct['(global)']) {
if (funct[t] === true) {
if (option.latedef)
warning("'{a}' was used before it was defined.", nexttoken, t);
} else {
if (!option.shadow && type !== "exception")
warning("'{a}' is already defined.", nexttoken, t);
}
}
funct[t] = type;
if (funct['(global)']) {
global[t] = funct;
if (is_own(implied, t)) {
if (option.latedef)
warning("'{a}' was used before it was defined.", nexttoken, t);
delete implied[t];
}
} else {
scope[t] = funct;
}
}
function doOption() {
var b, obj, filter, o = nexttoken.value, t, v;
switch (o) {
case '*/':
error("Unbegun comment.");
break;
case '/*members':
case '/*member':
o = '/*members';
if (!membersOnly) {
membersOnly = {};
}
obj = membersOnly;
break;
case '/*jshint':
case '/*jslint':
obj = option;
filter = boolOptions;
break;
case '/*global':
obj = predefined;
break;
default:
error("What?");
}
t = lex.token();
loop: for (;;) {
for (;;) {
if (t.type === 'special' && t.value === '*/') {
break loop;
}
if (t.id !== '(endline)' && t.id !== ',') {
break;
}
t = lex.token();
}
if (t.type !== '(string)' && t.type !== '(identifier)' &&
o !== '/*members') {
error("Bad option.", t);
}
v = lex.token();
if (v.id === ':') {
v = lex.token();
if (obj === membersOnly) {
error("Expected '{a}' and instead saw '{b}'.",
t, '*/', ':');
}
if (o === '/*jshint') {
checkOption(t.value, t);
}
if (t.value === 'indent' && (o === '/*jshint' || o === '/*jslint')) {
b = +v.value;
if (typeof b !== 'number' || !isFinite(b) || b <= 0 ||
Math.floor(b) !== b) {
error("Expected a small integer and instead saw '{a}'.",
v, v.value);
}
obj.white = true;
obj.indent = b;
} else if (t.value === 'maxerr' && (o === '/*jshint' || o === '/*jslint')) {
b = +v.value;
if (typeof b !== 'number' || !isFinite(b) || b <= 0 ||
Math.floor(b) !== b) {
error("Expected a small integer and instead saw '{a}'.",
v, v.value);
}
obj.maxerr = b;
} else if (t.value === 'maxlen' && (o === '/*jshint' || o === '/*jslint')) {
b = +v.value;
if (typeof b !== 'number' || !isFinite(b) || b <= 0 ||
Math.floor(b) !== b) {
error("Expected a small integer and instead saw '{a}'.",
v, v.value);
}
obj.maxlen = b;
} else if (t.value === 'validthis') {
if (funct['(global)']) {
error("Option 'validthis' can't be used in a global scope.");
} else {
if (v.value === 'true' || v.value === 'false')
obj[t.value] = v.value === 'true';
else
error("Bad option value.", v);
}
} else if (v.value === 'true') {
obj[t.value] = true;
} else if (v.value === 'false') {
obj[t.value] = false;
} else {
error("Bad option value.", v);
}
t = lex.token();
} else {
if (o === '/*jshint' || o === '/*jslint') {
error("Missing option value.", t);
}
obj[t.value] = false;
t = v;
}
}
if (filter) {
assume();
}
}
// We need a peek function. If it has an argument, it peeks that much farther
// ahead. It is used to distinguish
// for ( var i in ...
// from
// for ( var i = ...
function peek(p) {
var i = p || 0, j = 0, t;
while (j <= i) {
t = lookahead[j];
if (!t) {
t = lookahead[j] = lex.token();
}
j += 1;
}
return t;
}
// Produce the next token. It looks for programming errors.
function advance(id, t) {
switch (token.id) {
case '(number)':
if (nexttoken.id === '.') {
warning("A dot following a number can be confused with a decimal point.", token);
}
break;
case '-':
if (nexttoken.id === '-' || nexttoken.id === '--') {
warning("Confusing minusses.");
}
break;
case '+':
if (nexttoken.id === '+' || nexttoken.id === '++') {
warning("Confusing plusses.");
}
break;
}
if (token.type === '(string)' || token.identifier) {
anonname = token.value;
}
if (id && nexttoken.id !== id) {
if (t) {
if (nexttoken.id === '(end)') {
warning("Unmatched '{a}'.", t, t.id);
} else {
warning("Expected '{a}' to match '{b}' from line {c} and instead saw '{d}'.",
nexttoken, id, t.id, t.line, nexttoken.value);
}
} else if (nexttoken.type !== '(identifier)' ||
nexttoken.value !== id) {
warning("Expected '{a}' and instead saw '{b}'.",
nexttoken, id, nexttoken.value);
}
}
prevtoken = token;
token = nexttoken;
for (;;) {
nexttoken = lookahead.shift() || lex.token();
if (nexttoken.id === '(end)' || nexttoken.id === '(error)') {
return;
}
if (nexttoken.type === 'special') {
doOption();
} else {
if (nexttoken.id !== '(endline)') {
break;
}
}
}
}
// This is the heart of JSHINT, the Pratt parser. In addition to parsing, it
// is looking for ad hoc lint patterns. We add .fud to Pratt's model, which is
// like .nud except that it is only used on the first token of a statement.
// Having .fud makes it much easier to define statement-oriented languages like
// JavaScript. I retained Pratt's nomenclature.
// .nud Null denotation
// .fud First null denotation
// .led Left denotation
// lbp Left binding power
// rbp Right binding power
// They are elements of the parsing method called Top Down Operator Precedence.
function expression(rbp, initial) {
var left, isArray = false, isObject = false;
if (nexttoken.id === '(end)')
error("Unexpected early end of program.", token);
advance();
if (initial) {
anonname = 'anonymous';
funct['(verb)'] = token.value;
}
if (initial === true && token.fud) {
left = token.fud();
} else {
if (token.nud) {
left = token.nud();
} else {
if (nexttoken.type === '(number)' && token.id === '.') {
warning("A leading decimal point can be confused with a dot: '.{a}'.",
token, nexttoken.value);
advance();
return token;
} else {
error("Expected an identifier and instead saw '{a}'.",
token, token.id);
}
}
while (rbp < nexttoken.lbp) {
isArray = token.value === 'Array';
isObject = token.value === 'Object';
advance();
if (isArray && token.id === '(' && nexttoken.id === ')')
warning("Use the array literal notation [].", token);
if (isObject && token.id === '(' && nexttoken.id === ')')
warning("Use the object literal notation {}.", token);
if (token.led) {
left = token.led(left);
} else {
error("Expected an operator and instead saw '{a}'.",
token, token.id);
}
}
}
return left;
}
// Functions for conformance of style.
function adjacent(left, right) {
left = left || token;
right = right || nexttoken;
if (option.white) {
if (left.character !== right.from && left.line === right.line) {
left.from += (left.character - left.from);
warning("Unexpected space after '{a}'.", left, left.value);
}
}
}
function nobreak(left, right) {
left = left || token;
right = right || nexttoken;
if (option.white && (left.character !== right.from || left.line !== right.line)) {
warning("Unexpected space before '{a}'.", right, right.value);
}
}
function nospace(left, right) {
left = left || token;
right = right || nexttoken;
if (option.white && !left.comment) {
if (left.line === right.line) {
adjacent(left, right);
}
}
}
function nonadjacent(left, right) {
if (option.white) {
left = left || token;
right = right || nexttoken;
if (left.line === right.line && left.character === right.from) {
left.from += (left.character - left.from);
warning("Missing space after '{a}'.",
left, left.value);
}
}
}
function nobreaknonadjacent(left, right) {
left = left || token;
right = right || nexttoken;
if (!option.laxbreak && left.line !== right.line) {
warning("Bad line breaking before '{a}'.", right, right.id);
} else if (option.white) {
left = left || token;
right = right || nexttoken;
if (left.character === right.from) {
left.from += (left.character - left.from);
warning("Missing space after '{a}'.",
left, left.value);
}
}
}
function indentation(bias) {
var i;
if (option.white && nexttoken.id !== '(end)') {
i = indent + (bias || 0);
if (nexttoken.from !== i) {
warning(
"Expected '{a}' to have an indentation at {b} instead at {c}.",
nexttoken, nexttoken.value, i, nexttoken.from);
}
}
}
function nolinebreak(t) {
t = t || token;
if (t.line !== nexttoken.line) {
warning("Line breaking error '{a}'.", t, t.value);
}
}
function comma() {
if (token.line !== nexttoken.line) {
if (!option.laxcomma) {
if (comma.first) {
warning("Comma warnings can be turned off with 'laxcomma'");
comma.first = false;
}
warning("Bad line breaking before '{a}'.", token, nexttoken.id);
}
} else if (!token.comment && token.character !== nexttoken.from && option.white) {
token.from += (token.character - token.from);
warning("Unexpected space after '{a}'.", token, token.value);
}
advance(',');
nonadjacent(token, nexttoken);
}
// Functional constructors for making the symbols that will be inherited by
// tokens.
function symbol(s, p) {
var x = syntax[s];
if (!x || typeof x !== 'object') {
syntax[s] = x = {
id: s,
lbp: p,
value: s
};
}
return x;
}
function delim(s) {
return symbol(s, 0);
}
function stmt(s, f) {
var x = delim(s);
x.identifier = x.reserved = true;
x.fud = f;
return x;
}
function blockstmt(s, f) {
var x = stmt(s, f);
x.block = true;
return x;
}
function reserveName(x) {
var c = x.id.charAt(0);
if ((c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z')) {
x.identifier = x.reserved = true;
}
return x;
}
function prefix(s, f) {
var x = symbol(s, 150);
reserveName(x);
x.nud = (typeof f === 'function') ? f : function () {
this.right = expression(150);
this.arity = 'unary';
if (this.id === '++' || this.id === '--') {
if (option.plusplus) {
warning("Unexpected use of '{a}'.", this, this.id);
} else if ((!this.right.identifier || this.right.reserved) &&
this.right.id !== '.' && this.right.id !== '[') {
warning("Bad operand.", this);
}
}
return this;
};
return x;
}
function type(s, f) {
var x = delim(s);
x.type = s;
x.nud = f;
return x;
}
function reserve(s, f) {
var x = type(s, f);
x.identifier = x.reserved = true;
return x;
}
function reservevar(s, v) {
return reserve(s, function () {
if (typeof v === 'function') {
v(this);
}
return this;
});
}
function infix(s, f, p, w) {
var x = symbol(s, p);
reserveName(x);
x.led = function (left) {
if (!w) {
nobreaknonadjacent(prevtoken, token);
nonadjacent(token, nexttoken);
}
if (s === "in" && left.id === "!") {
warning("Confusing use of '{a}'.", left, '!');
}
if (typeof f === 'function') {
return f(left, this);
} else {
this.left = left;
this.right = expression(p);
return this;
}
};
return x;
}
function relation(s, f) {
var x = symbol(s, 100);
x.led = function (left) {
nobreaknonadjacent(prevtoken, token);
nonadjacent(token, nexttoken);
var right = expression(100);
if ((left && left.id === 'NaN') || (right && right.id === 'NaN')) {
warning("Use the isNaN function to compare with NaN.", this);
} else if (f) {
f.apply(this, [left, right]);
}
if (left.id === '!') {
warning("Confusing use of '{a}'.", left, '!');
}
if (right.id === '!') {
warning("Confusing use of '{a}'.", right, '!');
}
this.left = left;
this.right = right;
return this;
};
return x;
}
function isPoorRelation(node) {
return node &&
((node.type === '(number)' && +node.value === 0) ||
(node.type === '(string)' && node.value === '') ||
(node.type === 'null' && !option.eqnull) ||
node.type === 'true' ||
node.type === 'false' ||
node.type === 'undefined');
}
function assignop(s, f) {
symbol(s, 20).exps = true;
return infix(s, function (left, that) {
var l;
that.left = left;
if (predefined[left.value] === false &&
scope[left.value]['(global)'] === true) {
warning("Read only.", left);
} else if (left['function']) {
warning("'{a}' is a function.", left, left.value);
}
if (left) {
if (option.esnext && funct[left.value] === 'const') {
warning("Attempting to override '{a}' which is a constant", left, left.value);
}
if (left.id === '.' || left.id === '[') {
if (!left.left || left.left.value === 'arguments') {
warning('Bad assignment.', that);
}
that.right = expression(19);
return that;
} else if (left.identifier && !left.reserved) {
if (funct[left.value] === 'exception') {
warning("Do not assign to the exception parameter.", left);
}
that.right = expression(19);
return that;
}
if (left === syntax['function']) {
warning(
"Expected an identifier in an assignment and instead saw a function invocation.",
token);
}
}
error("Bad assignment.", that);
}, 20);
}
function bitwise(s, f, p) {
var x = symbol(s, p);
reserveName(x);
x.led = (typeof f === 'function') ? f : function (left) {
if (option.bitwise) {
warning("Unexpected use of '{a}'.", this, this.id);
}
this.left = left;
this.right = expression(p);
return this;
};
return x;
}
function bitwiseassignop(s) {
symbol(s, 20).exps = true;
return infix(s, function (left, that) {
if (option.bitwise) {
warning("Unexpected use of '{a}'.", that, that.id);
}
nonadjacent(prevtoken, token);
nonadjacent(token, nexttoken);
if (left) {
if (left.id === '.' || left.id === '[' ||
(left.identifier && !left.reserved)) {
expression(19);
return that;
}
if (left === syntax['function']) {
warning(
"Expected an identifier in an assignment, and instead saw a function invocation.",
token);
}
return that;
}
error("Bad assignment.", that);
}, 20);
}
function suffix(s, f) {
var x = symbol(s, 150);
x.led = function (left) {
if (option.plusplus) {
warning("Unexpected use of '{a}'.", this, this.id);
} else if ((!left.identifier || left.reserved) &&
left.id !== '.' && left.id !== '[') {
warning("Bad operand.", this);
}
this.left = left;
return this;
};
return x;
}
// fnparam means that this identifier is being defined as a function
// argument (see identifier())
function optionalidentifier(fnparam) {
if (nexttoken.identifier) {
advance();
if (token.reserved && !option.es5) {
// `undefined` as a function param is a common pattern to protect
// against the case when somebody does `undefined = true` and
// help with minification. More info: https://gist.github.com/315916
if (!fnparam || token.value !== 'undefined') {
warning("Expected an identifier and instead saw '{a}' (a reserved word).",
token, token.id);
}
}
return token.value;
}
}
// fnparam means that this identifier is being defined as a function
// argument
function identifier(fnparam) {
var i = optionalidentifier(fnparam);
if (i) {
return i;
}
if (token.id === 'function' && nexttoken.id === '(') {
warning("Missing name in function declaration.");
} else {
error("Expected an identifier and instead saw '{a}'.",
nexttoken, nexttoken.value);
}
}
function reachable(s) {
var i = 0, t;
if (nexttoken.id !== ';' || noreach) {
return;
}
for (;;) {
t = peek(i);
if (t.reach) {
return;
}
if (t.id !== '(endline)') {
if (t.id === 'function') {
if (!option.latedef) {
break;
}
warning(
"Inner functions should be listed at the top of the outer function.", t);
break;
}
warning("Unreachable '{a}' after '{b}'.", t, t.value, s);
break;
}
i += 1;
}
}
function statement(noindent) {
var i = indent, r, s = scope, t = nexttoken;
if (t.id === ";") {
advance(";");
return;
}
// Is this a labelled statement?
if (t.identifier && !t.reserved && peek().id === ':') {
advance();
advance(':');
scope = Object.create(s);
addlabel(t.value, 'label');
if (!nexttoken.labelled) {
warning("Label '{a}' on {b} statement.",
nexttoken, t.value, nexttoken.value);
}
if (jx.test(t.value + ':')) {
warning("Label '{a}' looks like a javascript url.",
t, t.value);
}
nexttoken.label = t.value;
t = nexttoken;
}
// Parse the statement.
if (!noindent) {
indentation();
}
r = expression(0, true);
// Look for the final semicolon.
if (!t.block) {
if (!option.expr && (!r || !r.exps)) {
warning("Expected an assignment or function call and instead saw an expression.",
token);
} else if (option.nonew && r.id === '(' && r.left.id === 'new') {
warning("Do not use 'new' for side effects.");
}
if (nexttoken.id === ',') {
return comma();
}
if (nexttoken.id !== ';') {
if (!option.asi) {
// If this is the last statement in a block that ends on
// the same line *and* option lastsemic is on, ignore the warning.
// Otherwise, complain about missing semicolon.
if (!option.lastsemic || nexttoken.id !== '}' ||
nexttoken.line !== token.line) {
warningAt("Missing semicolon.", token.line, token.character);
}
}
} else {
adjacent(token, nexttoken);
advance(';');
nonadjacent(token, nexttoken);
}
}
// Restore the indentation.
indent = i;
scope = s;
return r;
}
function statements(startLine) {
var a = [], f, p;
while (!nexttoken.reach && nexttoken.id !== '(end)') {
if (nexttoken.id === ';') {
p = peek();
if (!p || p.id !== "(") {
warning("Unnecessary semicolon.");
}
advance(';');
} else {
a.push(statement(startLine === nexttoken.line));
}
}
return a;
}
/*
* read all directives
* recognizes a simple form of asi, but always
* warns, if it is used
*/
function directives() {
var i, p, pn;
for (;;) {
if (nexttoken.id === "(string)") {
p = peek(0);
if (p.id === "(endline)") {
i = 1;
do {
pn = peek(i);
i = i + 1;
} while (pn.id === "(endline)");
if (pn.id !== ";") {
if (pn.id !== "(string)" && pn.id !== "(number)" &&
pn.id !== "(regexp)" && pn.identifier !== true &&
pn.id !== "}") {
break;
}
warning("Missing semicolon.", nexttoken);
} else {
p = pn;
}
} else if (p.id === "}") {
// directive with no other statements, warn about missing semicolon
warning("Missing semicolon.", p);
} else if (p.id !== ";") {
break;
}
indentation();
advance();
if (directive[token.value]) {
warning("Unnecessary directive \"{a}\".", token, token.value);
}
if (token.value === "use strict") {
option.newcap = true;
option.undef = true;
}
// there's no directive negation, so always set to true
directive[token.value] = true;
if (p.id === ";") {
advance(";");
}
continue;
}
break;
}
}
/*
* Parses a single block. A block is a sequence of statements wrapped in
* braces.
*
* ordinary - true for everything but function bodies and try blocks.
* stmt - true if block can be a single statement (e.g. in if/for/while).
* isfunc - true if block is a function body
*/
function block(ordinary, stmt, isfunc) {
var a,
b = inblock,
old_indent = indent,
m,
s = scope,
t,
line,
d;
inblock = ordinary;
if (!ordinary || !option.funcscope) scope = Object.create(scope);
nonadjacent(token, nexttoken);
t = nexttoken;
if (nexttoken.id === '{') {
advance('{');
line = token.line;
if (nexttoken.id !== '}') {
indent += option.indent;
while (!ordinary && nexttoken.from > indent) {
indent += option.indent;
}
if (isfunc) {
m = {};
for (d in directive) {
if (is_own(directive, d)) {
m[d] = directive[d];
}
}
directives();
if (option.strict && funct['(context)']['(global)']) {
if (!m["use strict"] && !directive["use strict"]) {
warning("Missing \"use strict\" statement.");
}
}
}
a = statements(line);
if (isfunc) {
directive = m;
}
indent -= option.indent;
if (line !== nexttoken.line) {
indentation();
}
} else if (line !== nexttoken.line) {
indentation();
}
advance('}', t);
indent = old_indent;
} else if (!ordinary) {
error("Expected '{a}' and instead saw '{b}'.",
nexttoken, '{', nexttoken.value);
} else {
if (!stmt || option.curly)
warning("Expected '{a}' and instead saw '{b}'.",
nexttoken, '{', nexttoken.value);
noreach = true;
indent += option.indent;
// test indentation only if statement is in new line
a = [statement(nexttoken.line === token.line)];
indent -= option.indent;
noreach = false;
}
funct['(verb)'] = null;
if (!ordinary || !option.funcscope) scope = s;
inblock = b;
if (ordinary && option.noempty && (!a || a.length === 0)) {
warning("Empty block.");
}
return a;
}
function countMember(m) {
if (membersOnly && typeof membersOnly[m] !== 'boolean') {
warning("Unexpected /*member '{a}'.", token, m);
}
if (typeof member[m] === 'number') {
member[m] += 1;
} else {
member[m] = 1;
}
}
function note_implied(token) {
var name = token.value, line = token.line, a = implied[name];
if (typeof a === 'function') {
a = false;
}
if (!a) {
a = [line];
implied[name] = a;
} else if (a[a.length - 1] !== line) {
a.push(line);
}
}
// Build the syntax table by declaring the syntactic elements of the language.
type('(number)', function () {
return this;
});
type('(string)', function () {
return this;
});
syntax['(identifier)'] = {
type: '(identifier)',
lbp: 0,
identifier: true,
nud: function () {
var v = this.value,
s = scope[v],
f;
if (typeof s === 'function') {
// Protection against accidental inheritance.
s = undefined;
} else if (typeof s === 'boolean') {
f = funct;
funct = functions[0];
addlabel(v, 'var');
s = funct;
funct = f;
}
// The name is in scope and defined in the current function.
if (funct === s) {
// Change 'unused' to 'var', and reject labels.
switch (funct[v]) {
case 'unused':
funct[v] = 'var';
break;
case 'unction':
funct[v] = 'function';
this['function'] = true;
break;
case 'function':
this['function'] = true;
break;
case 'label':
warning("'{a}' is a statement label.", token, v);
break;
}
} else if (funct['(global)']) {
// The name is not defined in the function. If we are in the global
// scope, then we have an undefined variable.
//
// Operators typeof and delete do not raise runtime errors even if
// the base object of a reference is null so no need to display warning
// if we're inside of typeof or delete.
if (option.undef && typeof predefined[v] !== 'boolean') {
// Attempting to subscript a null reference will throw an
// error, even within the typeof and delete operators
if (!(anonname === 'typeof' || anonname === 'delete') ||
(nexttoken && (nexttoken.value === '.' || nexttoken.value === '['))) {
isundef(funct, "'{a}' is not defined.", token, v);
}
}
note_implied(token);
} else {
// If the name is already defined in the current
// function, but not as outer, then there is a scope error.
switch (funct[v]) {
case 'closure':
case 'function':
case 'var':
case 'unused':
warning("'{a}' used out of scope.", token, v);
break;
case 'label':
warning("'{a}' is a statement label.", token, v);
break;
case 'outer':
case 'global':
break;
default:
// If the name is defined in an outer function, make an outer entry,
// and if it was unused, make it var.
if (s === true) {
funct[v] = true;
} else if (s === null) {
warning("'{a}' is not allowed.", token, v);
note_implied(token);
} else if (typeof s !== 'object') {
// Operators typeof and delete do not raise runtime errors even
// if the base object of a reference is null so no need to
// display warning if we're inside of typeof or delete.
if (option.undef) {
// Attempting to subscript a null reference will throw an
// error, even within the typeof and delete operators
if (!(anonname === 'typeof' || anonname === 'delete') ||
(nexttoken &&
(nexttoken.value === '.' || nexttoken.value === '['))) {
isundef(funct, "'{a}' is not defined.", token, v);
}
}
funct[v] = true;
note_implied(token);
} else {
switch (s[v]) {
case 'function':
case 'unction':
this['function'] = true;
s[v] = 'closure';
funct[v] = s['(global)'] ? 'global' : 'outer';
break;
case 'var':
case 'unused':
s[v] = 'closure';
funct[v] = s['(global)'] ? 'global' : 'outer';
break;
case 'closure':
case 'parameter':
funct[v] = s['(global)'] ? 'global' : 'outer';
break;
case 'label':
warning("'{a}' is a statement label.", token, v);
}
}
}
}
return this;
},
led: function () {
error("Expected an operator and instead saw '{a}'.",
nexttoken, nexttoken.value);
}
};
type('(regexp)', function () {
return this;
});
// ECMAScript parser
delim('(endline)');
delim('(begin)');
delim('(end)').reach = true;
delim('</').reach = true;
delim('<!');
delim('<!--');
delim('-->');
delim('(error)').reach = true;
delim('}').reach = true;
delim(')');
delim(']');
delim('"').reach = true;
delim("'").reach = true;
delim(';');
delim(':').reach = true;
delim(',');
delim('#');
delim('@');
reserve('else');
reserve('case').reach = true;
reserve('catch');
reserve('default').reach = true;
reserve('finally');
reservevar('arguments', function (x) {
if (directive['use strict'] && funct['(global)']) {
warning("Strict violation.", x);
}
});
reservevar('eval');
reservevar('false');
reservevar('Infinity');
reservevar('NaN');
reservevar('null');
reservevar('this', function (x) {
if (directive['use strict'] && !option.validthis && ((funct['(statement)'] &&
funct['(name)'].charAt(0) > 'Z') || funct['(global)'])) {
warning("Possible strict violation.", x);
}
});
reservevar('true');
reservevar('undefined');
assignop('=', 'assign', 20);
assignop('+=', 'assignadd', 20);
assignop('-=', 'assignsub', 20);
assignop('*=', 'assignmult', 20);
assignop('/=', 'assigndiv', 20).nud = function () {
error("A regular expression literal can be confused with '/='.");
};
assignop('%=', 'assignmod', 20);
bitwiseassignop('&=', 'assignbitand', 20);
bitwiseassignop('|=', 'assignbitor', 20);
bitwiseassignop('^=', 'assignbitxor', 20);
bitwiseassignop('<<=', 'assignshiftleft', 20);
bitwiseassignop('>>=', 'assignshiftright', 20);
bitwiseassignop('>>>=', 'assignshiftrightunsigned', 20);
infix('?', function (left, that) {
that.left = left;
that.right = expression(10);
advance(':');
that['else'] = expression(10);
return that;
}, 30);
infix('||', 'or', 40);
infix('&&', 'and', 50);
bitwise('|', 'bitor', 70);
bitwise('^', 'bitxor', 80);
bitwise('&', 'bitand', 90);
relation('==', function (left, right) {
var eqnull = option.eqnull && (left.value === 'null' || right.value === 'null');
if (!eqnull && option.eqeqeq)
warning("Expected '{a}' and instead saw '{b}'.", this, '===', '==');
else if (isPoorRelation(left))
warning("Use '{a}' to compare with '{b}'.", this, '===', left.value);
else if (isPoorRelation(right))
warning("Use '{a}' to compare with '{b}'.", this, '===', right.value);
return this;
});
relation('===');
relation('!=', function (left, right) {
var eqnull = option.eqnull &&
(left.value === 'null' || right.value === 'null');
if (!eqnull && option.eqeqeq) {
warning("Expected '{a}' and instead saw '{b}'.",
this, '!==', '!=');
} else if (isPoorRelation(left)) {
warning("Use '{a}' to compare with '{b}'.",
this, '!==', left.value);
} else if (isPoorRelation(right)) {
warning("Use '{a}' to compare with '{b}'.",
this, '!==', right.value);
}
return this;
});
relation('!==');
relation('<');
relation('>');
relation('<=');
relation('>=');
bitwise('<<', 'shiftleft', 120);
bitwise('>>', 'shiftright', 120);
bitwise('>>>', 'shiftrightunsigned', 120);
infix('in', 'in', 120);
infix('instanceof', 'instanceof', 120);
infix('+', function (left, that) {
var right = expression(130);
if (left && right && left.id === '(string)' && right.id === '(string)') {
left.value += right.value;
left.character = right.character;
if (!option.scripturl && jx.test(left.value)) {
warning("JavaScript URL.", left);
}
return left;
}
that.left = left;
that.right = right;
return that;
}, 130);
prefix('+', 'num');
prefix('+++', function () {
warning("Confusing pluses.");
this.right = expression(150);
this.arity = 'unary';
return this;
});
infix('+++', function (left) {
warning("Confusing pluses.");
this.left = left;
this.right = expression(130);
return this;
}, 130);
infix('-', 'sub', 130);
prefix('-', 'neg');
prefix('---', function () {
warning("Confusing minuses.");
this.right = expression(150);
this.arity = 'unary';
return this;
});
infix('---', function (left) {
warning("Confusing minuses.");
this.left = left;
this.right = expression(130);
return this;
}, 130);
infix('*', 'mult', 140);
infix('/', 'div', 140);
infix('%', 'mod', 140);
suffix('++', 'postinc');
prefix('++', 'preinc');
syntax['++'].exps = true;
suffix('--', 'postdec');
prefix('--', 'predec');
syntax['--'].exps = true;
prefix('delete', function () {
var p = expression(0);
if (!p || (p.id !== '.' && p.id !== '[')) {
warning("Variables should not be deleted.");
}
this.first = p;
return this;
}).exps = true;
prefix('~', function () {
if (option.bitwise) {
warning("Unexpected '{a}'.", this, '~');
}
expression(150);
return this;
});
prefix('!', function () {
this.right = expression(150);
this.arity = 'unary';
if (bang[this.right.id] === true) {
warning("Confusing use of '{a}'.", this, '!');
}
return this;
});
prefix('typeof', 'typeof');
prefix('new', function () {
var c = expression(155), i;
if (c && c.id !== 'function') {
if (c.identifier) {
c['new'] = true;
switch (c.value) {
case 'Number':
case 'String':
case 'Boolean':
case 'Math':
case 'JSON':
warning("Do not use {a} as a constructor.", token, c.value);
break;
case 'Function':
if (!option.evil) {
warning("The Function constructor is eval.");
}
break;
case 'Date':
case 'RegExp':
break;
default:
if (c.id !== 'function') {
i = c.value.substr(0, 1);
if (option.newcap && (i < 'A' || i > 'Z')) {
warning("A constructor name should start with an uppercase letter.",
token);
}
}
}
} else {
if (c.id !== '.' && c.id !== '[' && c.id !== '(') {
warning("Bad constructor.", token);
}
}
} else {
if (!option.supernew)
warning("Weird construction. Delete 'new'.", this);
}
adjacent(token, nexttoken);
if (nexttoken.id !== '(' && !option.supernew) {
warning("Missing '()' invoking a constructor.");
}
this.first = c;
return this;
});
syntax['new'].exps = true;
prefix('void').exps = true;
infix('.', function (left, that) {
adjacent(prevtoken, token);
nobreak();
var m = identifier();
if (typeof m === 'string') {
countMember(m);
}
that.left = left;
that.right = m;
if (left && left.value === 'arguments' && (m === 'callee' || m === 'caller')) {
if (option.noarg)
warning("Avoid arguments.{a}.", left, m);
else if (directive['use strict'])
error('Strict violation.');
} else if (!option.evil && left && left.value === 'document' &&
(m === 'write' || m === 'writeln')) {
warning("document.write can be a form of eval.", left);
}
if (!option.evil && (m === 'eval' || m === 'execScript')) {
warning('eval is evil.');
}
return that;
}, 160, true);
infix('(', function (left, that) {
if (prevtoken.id !== '}' && prevtoken.id !== ')') {
nobreak(prevtoken, token);
}
nospace();
if (option.immed && !left.immed && left.id === 'function') {
warning("Wrap an immediate function invocation in parentheses " +
"to assist the reader in understanding that the expression " +
"is the result of a function, and not the function itself.");
}
var n = 0,
p = [];
if (left) {
if (left.type === '(identifier)') {
if (left.value.match(/^[A-Z]([A-Z0-9_$]*[a-z][A-Za-z0-9_$]*)?$/)) {
if (left.value !== 'Number' && left.value !== 'String' &&
left.value !== 'Boolean' &&
left.value !== 'Date') {
if (left.value === 'Math') {
warning("Math is not a function.", left);
} else if (option.newcap) {
warning(
"Missing 'new' prefix when invoking a constructor.", left);
}
}
}
}
}
if (nexttoken.id !== ')') {
for (;;) {
p[p.length] = expression(10);
n += 1;
if (nexttoken.id !== ',') {
break;
}
comma();
}
}
advance(')');
nospace(prevtoken, token);
if (typeof left === 'object') {
if (left.value === 'parseInt' && n === 1) {
warning("Missing radix parameter.", left);
}
if (!option.evil) {
if (left.value === 'eval' || left.value === 'Function' ||
left.value === 'execScript') {
warning("eval is evil.", left);
} else if (p[0] && p[0].id === '(string)' &&
(left.value === 'setTimeout' ||
left.value === 'setInterval')) {
warning(
"Implied eval is evil. Pass a function instead of a string.", left);
}
}
if (!left.identifier && left.id !== '.' && left.id !== '[' &&
left.id !== '(' && left.id !== '&&' && left.id !== '||' &&
left.id !== '?') {
warning("Bad invocation.", left);
}
}
that.left = left;
return that;
}, 155, true).exps = true;
prefix('(', function () {
nospace();
if (nexttoken.id === 'function') {
nexttoken.immed = true;
}
var v = expression(0);
advance(')', this);
nospace(prevtoken, token);
if (option.immed && v.id === 'function') {
if (nexttoken.id === '(' ||
(nexttoken.id === '.' && (peek().value === 'call' || peek().value === 'apply'))) {
warning(
"Move the invocation into the parens that contain the function.", nexttoken);
} else {
warning(
"Do not wrap function literals in parens unless they are to be immediately invoked.",
this);
}
}
return v;
});
infix('[', function (left, that) {
nobreak(prevtoken, token);
nospace();
var e = expression(0), s;
if (e && e.type === '(string)') {
if (!option.evil && (e.value === 'eval' || e.value === 'execScript')) {
warning("eval is evil.", that);
}
countMember(e.value);
if (!option.sub && ix.test(e.value)) {
s = syntax[e.value];
if (!s || !s.reserved) {
warning("['{a}'] is better written in dot notation.",
e, e.value);
}
}
}
advance(']', that);
nospace(prevtoken, token);
that.left = left;
that.right = e;
return that;
}, 160, true);
prefix('[', function () {
var b = token.line !== nexttoken.line;
this.first = [];
if (b) {
indent += option.indent;
if (nexttoken.from === indent + option.indent) {
indent += option.indent;
}
}
while (nexttoken.id !== '(end)') {
while (nexttoken.id === ',') {
warning("Extra comma.");
advance(',');
}
if (nexttoken.id === ']') {
break;
}
if (b && token.line !== nexttoken.line) {
indentation();
}
this.first.push(expression(10));
if (nexttoken.id === ',') {
comma();
if (nexttoken.id === ']' && !option.es5) {
warning("Extra comma.", token);
break;
}
} else {
break;
}
}
if (b) {
indent -= option.indent;
indentation();
}
advance(']', this);
return this;
}, 160);
function property_name() {
var id = optionalidentifier(true);
if (!id) {
if (nexttoken.id === '(string)') {
id = nexttoken.value;
advance();
} else if (nexttoken.id === '(number)') {
id = nexttoken.value.toString();
advance();
}
}
return id;
}
function functionparams() {
var i, t = nexttoken, p = [];
advance('(');
nospace();
if (nexttoken.id === ')') {
advance(')');
return;
}
for (;;) {
i = identifier(true);
p.push(i);
addlabel(i, 'parameter');
if (nexttoken.id === ',') {
comma();
} else {
advance(')', t);
nospace(prevtoken, token);
return p;
}
}
}
function doFunction(i, statement) {
var f,
oldOption = option,
oldScope = scope;
option = Object.create(option);
scope = Object.create(scope);
funct = {
'(name)' : i || '"' + anonname + '"',
'(line)' : nexttoken.line,
'(context)' : funct,
'(breakage)' : 0,
'(loopage)' : 0,
'(scope)' : scope,
'(statement)': statement
};
f = funct;
token.funct = funct;
functions.push(funct);
if (i) {
addlabel(i, 'function');
}
funct['(params)'] = functionparams();
block(false, false, true);
scope = oldScope;
option = oldOption;
funct['(last)'] = token.line;
funct = funct['(context)'];
return f;
}
(function (x) {
x.nud = function () {
var b, f, i, j, p, t;
var props = {}; // All properties, including accessors
function saveProperty(name, token) {
if (props[name] && is_own(props, name))
warning("Duplicate member '{a}'.", nexttoken, i);
else
props[name] = {};
props[name].basic = true;
props[name].basicToken = token;
}
function saveSetter(name, token) {
if (props[name] && is_own(props, name)) {
if (props[name].basic || props[name].setter)
warning("Duplicate member '{a}'.", nexttoken, i);
} else {
props[name] = {};
}
props[name].setter = true;
props[name].setterToken = token;
}
function saveGetter(name) {
if (props[name] && is_own(props, name)) {
if (props[name].basic || props[name].getter)
warning("Duplicate member '{a}'.", nexttoken, i);
} else {
props[name] = {};
}
props[name].getter = true;
props[name].getterToken = token;
}
b = token.line !== nexttoken.line;
if (b) {
indent += option.indent;
if (nexttoken.from === indent + option.indent) {
indent += option.indent;
}
}
for (;;) {
if (nexttoken.id === '}') {
break;
}
if (b) {
indentation();
}
if (nexttoken.value === 'get' && peek().id !== ':') {
advance('get');
if (!option.es5) {
error("get/set are ES5 features.");
}
i = property_name();
if (!i) {
error("Missing property name.");
}
saveGetter(i);
t = nexttoken;
adjacent(token, nexttoken);
f = doFunction();
p = f['(params)'];
if (p) {
warning("Unexpected parameter '{a}' in get {b} function.", t, p[0], i);
}
adjacent(token, nexttoken);
} else if (nexttoken.value === 'set' && peek().id !== ':') {
advance('set');
if (!option.es5) {
error("get/set are ES5 features.");
}
i = property_name();
if (!i) {
error("Missing property name.");
}
saveSetter(i, nexttoken);
t = nexttoken;
adjacent(token, nexttoken);
f = doFunction();
p = f['(params)'];
if (!p || p.length !== 1) {
warning("Expected a single parameter in set {a} function.", t, i);
}
} else {
i = property_name();
saveProperty(i, nexttoken);
if (typeof i !== 'string') {
break;
}
advance(':');
nonadjacent(token, nexttoken);
expression(10);
}
countMember(i);
if (nexttoken.id === ',') {
comma();
if (nexttoken.id === ',') {
warning("Extra comma.", token);
} else if (nexttoken.id === '}' && !option.es5) {
warning("Extra comma.", token);
}
} else {
break;
}
}
if (b) {
indent -= option.indent;
indentation();
}
advance('}', this);
// Check for lonely setters if in the ES5 mode.
if (option.es5) {
for (var name in props) {
if (is_own(props, name) && props[name].setter && !props[name].getter) {
warning("Setter is defined without getter.", props[name].setterToken);
}
}
}
return this;
};
x.fud = function () {
error("Expected to see a statement and instead saw a block.", token);
};
}(delim('{')));
// This Function is called when esnext option is set to true
// it adds the `const` statement to JSHINT
useESNextSyntax = function () {
var conststatement = stmt('const', function (prefix) {
var id, name, value;
this.first = [];
for (;;) {
nonadjacent(token, nexttoken);
id = identifier();
if (funct[id] === "const") {
warning("const '" + id + "' has already been declared");
}
if (funct['(global)'] && predefined[id] === false) {
warning("Redefinition of '{a}'.", token, id);
}
addlabel(id, 'const');
if (prefix) {
break;
}
name = token;
this.first.push(token);
if (nexttoken.id !== "=") {
warning("const " +
"'{a}' is initialized to 'undefined'.", token, id);
}
if (nexttoken.id === '=') {
nonadjacent(token, nexttoken);
advance('=');
nonadjacent(token, nexttoken);
if (nexttoken.id === 'undefined') {
warning("It is not necessary to initialize " +
"'{a}' to 'undefined'.", token, id);
}
if (peek(0).id === '=' && nexttoken.identifier) {
error("Constant {a} was not declared correctly.",
nexttoken, nexttoken.value);
}
value = expression(0);
name.first = value;
}
if (nexttoken.id !== ',') {
break;
}
comma();
}
return this;
});
conststatement.exps = true;
};
var varstatement = stmt('var', function (prefix) {
// JavaScript does not have block scope. It only has function scope. So,
// declaring a variable in a block can have unexpected consequences.
var id, name, value;
if (funct['(onevar)'] && option.onevar) {
warning("Too many var statements.");
} else if (!funct['(global)']) {
funct['(onevar)'] = true;
}
this.first = [];
for (;;) {
nonadjacent(token, nexttoken);
id = identifier();
if (option.esnext && funct[id] === "const") {
warning("const '" + id + "' has already been declared");
}
if (funct['(global)'] && predefined[id] === false) {
warning("Redefinition of '{a}'.", token, id);
}
addlabel(id, 'unused');
if (prefix) {
break;
}
name = token;
this.first.push(token);
if (nexttoken.id === '=') {
nonadjacent(token, nexttoken);
advance('=');
nonadjacent(token, nexttoken);
if (nexttoken.id === 'undefined') {
warning("It is not necessary to initialize '{a}' to 'undefined'.", token, id);
}
if (peek(0).id === '=' && nexttoken.identifier) {
error("Variable {a} was not declared correctly.",
nexttoken, nexttoken.value);
}
value = expression(0);
name.first = value;
}
if (nexttoken.id !== ',') {
break;
}
comma();
}
return this;
});
varstatement.exps = true;
blockstmt('function', function () {
if (inblock) {
warning("Function declarations should not be placed in blocks. " +
"Use a function expression or move the statement to the top of " +
"the outer function.", token);
}
var i = identifier();
if (option.esnext && funct[i] === "const") {
warning("const '" + i + "' has already been declared");
}
adjacent(token, nexttoken);
addlabel(i, 'unction');
doFunction(i, true);
if (nexttoken.id === '(' && nexttoken.line === token.line) {
error(
"Function declarations are not invocable. Wrap the whole function invocation in parens.");
}
return this;
});
prefix('function', function () {
var i = optionalidentifier();
if (i) {
adjacent(token, nexttoken);
} else {
nonadjacent(token, nexttoken);
}
doFunction(i);
if (!option.loopfunc && funct['(loopage)']) {
warning("Don't make functions within a loop.");
}
return this;
});
blockstmt('if', function () {
var t = nexttoken;
advance('(');
nonadjacent(this, t);
nospace();
expression(20);
if (nexttoken.id === '=') {
if (!option.boss)
warning("Expected a conditional expression and instead saw an assignment.");
advance('=');
expression(20);
}
advance(')', t);
nospace(prevtoken, token);
block(true, true);
if (nexttoken.id === 'else') {
nonadjacent(token, nexttoken);
advance('else');
if (nexttoken.id === 'if' || nexttoken.id === 'switch') {
statement(true);
} else {
block(true, true);
}
}
return this;
});
blockstmt('try', function () {
var b, e, s;
block(false);
if (nexttoken.id === 'catch') {
advance('catch');
nonadjacent(token, nexttoken);
advance('(');
s = scope;
scope = Object.create(s);
e = nexttoken.value;
if (nexttoken.type !== '(identifier)') {
warning("Expected an identifier and instead saw '{a}'.",
nexttoken, e);
} else {
addlabel(e, 'exception');
}
advance();
advance(')');
block(false);
b = true;
scope = s;
}
if (nexttoken.id === 'finally') {
advance('finally');
block(false);
return;
} else if (!b) {
error("Expected '{a}' and instead saw '{b}'.",
nexttoken, 'catch', nexttoken.value);
}
return this;
});
blockstmt('while', function () {
var t = nexttoken;
funct['(breakage)'] += 1;
funct['(loopage)'] += 1;
advance('(');
nonadjacent(this, t);
nospace();
expression(20);
if (nexttoken.id === '=') {
if (!option.boss)
warning("Expected a conditional expression and instead saw an assignment.");
advance('=');
expression(20);
}
advance(')', t);
nospace(prevtoken, token);
block(true, true);
funct['(breakage)'] -= 1;
funct['(loopage)'] -= 1;
return this;
}).labelled = true;
blockstmt('with', function () {
var t = nexttoken;
if (directive['use strict']) {
error("'with' is not allowed in strict mode.", token);
} else if (!option.withstmt) {
warning("Don't use 'with'.", token);
}
advance('(');
nonadjacent(this, t);
nospace();
expression(0);
advance(')', t);
nospace(prevtoken, token);
block(true, true);
return this;
});
blockstmt('switch', function () {
var t = nexttoken,
g = false;
funct['(breakage)'] += 1;
advance('(');
nonadjacent(this, t);
nospace();
this.condition = expression(20);
advance(')', t);
nospace(prevtoken, token);
nonadjacent(token, nexttoken);
t = nexttoken;
advance('{');
nonadjacent(token, nexttoken);
indent += option.indent;
this.cases = [];
for (;;) {
switch (nexttoken.id) {
case 'case':
switch (funct['(verb)']) {
case 'break':
case 'case':
case 'continue':
case 'return':
case 'switch':
case 'throw':
break;
default:
// You can tell JSHint that you don't use break intentionally by
// adding a comment /* falls through */ on a line just before
// the next `case`.
if (!ft.test(lines[nexttoken.line - 2])) {
warning(
"Expected a 'break' statement before 'case'.",
token);
}
}
indentation(-option.indent);
advance('case');
this.cases.push(expression(20));
g = true;
advance(':');
funct['(verb)'] = 'case';
break;
case 'default':
switch (funct['(verb)']) {
case 'break':
case 'continue':
case 'return':
case 'throw':
break;
default:
if (!ft.test(lines[nexttoken.line - 2])) {
warning(
"Expected a 'break' statement before 'default'.",
token);
}
}
indentation(-option.indent);
advance('default');
g = true;
advance(':');
break;
case '}':
indent -= option.indent;
indentation();
advance('}', t);
if (this.cases.length === 1 || this.condition.id === 'true' ||
this.condition.id === 'false') {
if (!option.onecase)
warning("This 'switch' should be an 'if'.", this);
}
funct['(breakage)'] -= 1;
funct['(verb)'] = undefined;
return;
case '(end)':
error("Missing '{a}'.", nexttoken, '}');
return;
default:
if (g) {
switch (token.id) {
case ',':
error("Each value should have its own case label.");
return;
case ':':
g = false;
statements();
break;
default:
error("Missing ':' on a case clause.", token);
return;
}
} else {
if (token.id === ':') {
advance(':');
error("Unexpected '{a}'.", token, ':');
statements();
} else {
error("Expected '{a}' and instead saw '{b}'.",
nexttoken, 'case', nexttoken.value);
return;
}
}
}
}
}).labelled = true;
stmt('debugger', function () {
if (!option.debug) {
warning("All 'debugger' statements should be removed.");
}
return this;
}).exps = true;
(function () {
var x = stmt('do', function () {
funct['(breakage)'] += 1;
funct['(loopage)'] += 1;
this.first = block(true);
advance('while');
var t = nexttoken;
nonadjacent(token, t);
advance('(');
nospace();
expression(20);
if (nexttoken.id === '=') {
if (!option.boss)
warning("Expected a conditional expression and instead saw an assignment.");
advance('=');
expression(20);
}
advance(')', t);
nospace(prevtoken, token);
funct['(breakage)'] -= 1;
funct['(loopage)'] -= 1;
return this;
});
x.labelled = true;
x.exps = true;
}());
blockstmt('for', function () {
var s, t = nexttoken;
funct['(breakage)'] += 1;
funct['(loopage)'] += 1;
advance('(');
nonadjacent(this, t);
nospace();
if (peek(nexttoken.id === 'var' ? 1 : 0).id === 'in') {
if (nexttoken.id === 'var') {
advance('var');
varstatement.fud.call(varstatement, true);
} else {
switch (funct[nexttoken.value]) {
case 'unused':
funct[nexttoken.value] = 'var';
break;
case 'var':
break;
default:
warning("Bad for in variable '{a}'.",
nexttoken, nexttoken.value);
}
advance();
}
advance('in');
expression(20);
advance(')', t);
s = block(true, true);
if (option.forin && s && (s.length > 1 || typeof s[0] !== 'object' ||
s[0].value !== 'if')) {
warning("The body of a for in should be wrapped in an if statement to filter " +
"unwanted properties from the prototype.", this);
}
funct['(breakage)'] -= 1;
funct['(loopage)'] -= 1;
return this;
} else {
if (nexttoken.id !== ';') {
if (nexttoken.id === 'var') {
advance('var');
varstatement.fud.call(varstatement);
} else {
for (;;) {
expression(0, 'for');
if (nexttoken.id !== ',') {
break;
}
comma();
}
}
}
nolinebreak(token);
advance(';');
if (nexttoken.id !== ';') {
expression(20);
if (nexttoken.id === '=') {
if (!option.boss)
warning("Expected a conditional expression and instead saw an assignment.");
advance('=');
expression(20);
}
}
nolinebreak(token);
advance(';');
if (nexttoken.id === ';') {
error("Expected '{a}' and instead saw '{b}'.",
nexttoken, ')', ';');
}
if (nexttoken.id !== ')') {
for (;;) {
expression(0, 'for');
if (nexttoken.id !== ',') {
break;
}
comma();
}
}
advance(')', t);
nospace(prevtoken, token);
block(true, true);
funct['(breakage)'] -= 1;
funct['(loopage)'] -= 1;
return this;
}
}).labelled = true;
stmt('break', function () {
var v = nexttoken.value;
if (funct['(breakage)'] === 0)
warning("Unexpected '{a}'.", nexttoken, this.value);
if (!option.asi)
nolinebreak(this);
if (nexttoken.id !== ';') {
if (token.line === nexttoken.line) {
if (funct[v] !== 'label') {
warning("'{a}' is not a statement label.", nexttoken, v);
} else if (scope[v] !== funct) {
warning("'{a}' is out of scope.", nexttoken, v);
}
this.first = nexttoken;
advance();
}
}
reachable('break');
return this;
}).exps = true;
stmt('continue', function () {
var v = nexttoken.value;
if (funct['(breakage)'] === 0)
warning("Unexpected '{a}'.", nexttoken, this.value);
if (!option.asi)
nolinebreak(this);
if (nexttoken.id !== ';') {
if (token.line === nexttoken.line) {
if (funct[v] !== 'label') {
warning("'{a}' is not a statement label.", nexttoken, v);
} else if (scope[v] !== funct) {
warning("'{a}' is out of scope.", nexttoken, v);
}
this.first = nexttoken;
advance();
}
} else if (!funct['(loopage)']) {
warning("Unexpected '{a}'.", nexttoken, this.value);
}
reachable('continue');
return this;
}).exps = true;
stmt('return', function () {
if (this.line === nexttoken.line) {
if (nexttoken.id === '(regexp)')
warning("Wrap the /regexp/ literal in parens to disambiguate the slash operator.");
if (nexttoken.id !== ';' && !nexttoken.reach) {
nonadjacent(token, nexttoken);
if (peek().value === "=" && !option.boss) {
warningAt("Did you mean to return a conditional instead of an assignment?",
token.line, token.character + 1);
}
this.first = expression(0);
}
} else if (!option.asi) {
nolinebreak(this); // always warn (Line breaking error)
}
reachable('return');
return this;
}).exps = true;
stmt('throw', function () {
nolinebreak(this);
nonadjacent(token, nexttoken);
this.first = expression(20);
reachable('throw');
return this;
}).exps = true;
// Superfluous reserved words
reserve('class');
reserve('const');
reserve('enum');
reserve('export');
reserve('extends');
reserve('import');
reserve('super');
reserve('let');
reserve('yield');
reserve('implements');
reserve('interface');
reserve('package');
reserve('private');
reserve('protected');
reserve('public');
reserve('static');
// Parse JSON
function jsonValue() {
function jsonObject() {
var o = {}, t = nexttoken;
advance('{');
if (nexttoken.id !== '}') {
for (;;) {
if (nexttoken.id === '(end)') {
error("Missing '}' to match '{' from line {a}.",
nexttoken, t.line);
} else if (nexttoken.id === '}') {
warning("Unexpected comma.", token);
break;
} else if (nexttoken.id === ',') {
error("Unexpected comma.", nexttoken);
} else if (nexttoken.id !== '(string)') {
warning("Expected a string and instead saw {a}.",
nexttoken, nexttoken.value);
}
if (o[nexttoken.value] === true) {
warning("Duplicate key '{a}'.",
nexttoken, nexttoken.value);
} else if ((nexttoken.value === '__proto__' &&
!option.proto) || (nexttoken.value === '__iterator__' &&
!option.iterator)) {
warning("The '{a}' key may produce unexpected results.",
nexttoken, nexttoken.value);
} else {
o[nexttoken.value] = true;
}
advance();
advance(':');
jsonValue();
if (nexttoken.id !== ',') {
break;
}
advance(',');
}
}
advance('}');
}
function jsonArray() {
var t = nexttoken;
advance('[');
if (nexttoken.id !== ']') {
for (;;) {
if (nexttoken.id === '(end)') {
error("Missing ']' to match '[' from line {a}.",
nexttoken, t.line);
} else if (nexttoken.id === ']') {
warning("Unexpected comma.", token);
break;
} else if (nexttoken.id === ',') {
error("Unexpected comma.", nexttoken);
}
jsonValue();
if (nexttoken.id !== ',') {
break;
}
advance(',');
}
}
advance(']');
}
switch (nexttoken.id) {
case '{':
jsonObject();
break;
case '[':
jsonArray();
break;
case 'true':
case 'false':
case 'null':
case '(number)':
case '(string)':
advance();
break;
case '-':
advance('-');
if (token.character !== nexttoken.from) {
warning("Unexpected space after '-'.", token);
}
adjacent(token, nexttoken);
advance('(number)');
break;
default:
error("Expected a JSON value.", nexttoken);
}
}
// The actual JSHINT function itself.
var itself = function (s, o, g) {
var a, i, k;
JSHINT.errors = [];
JSHINT.undefs = [];
predefined = Object.create(standard);
combine(predefined, g || {});
if (o) {
a = o.predef;
if (a) {
if (Array.isArray(a)) {
for (i = 0; i < a.length; i += 1) {
predefined[a[i]] = true;
}
} else if (typeof a === 'object') {
k = Object.keys(a);
for (i = 0; i < k.length; i += 1) {
predefined[k[i]] = !!a[k[i]];
}
}
}
option = o;
} else {
option = {};
}
option.indent = option.indent || 4;
option.maxerr = option.maxerr || 50;
tab = '';
for (i = 0; i < option.indent; i += 1) {
tab += ' ';
}
indent = 1;
global = Object.create(predefined);
scope = global;
funct = {
'(global)': true,
'(name)': '(global)',
'(scope)': scope,
'(breakage)': 0,
'(loopage)': 0
};
functions = [funct];
urls = [];
stack = null;
member = {};
membersOnly = null;
implied = {};
inblock = false;
lookahead = [];
jsonmode = false;
warnings = 0;
lex.init(s);
prereg = true;
directive = {};
prevtoken = token = nexttoken = syntax['(begin)'];
// Check options
for (var name in o) {
if (is_own(o, name)) {
checkOption(name, token);
}
}
assume();
// combine the passed globals after we've assumed all our options
combine(predefined, g || {});
//reset values
comma.first = true;
try {
advance();
switch (nexttoken.id) {
case '{':
case '[':
option.laxbreak = true;
jsonmode = true;
jsonValue();
break;
default:
directives();
if (directive["use strict"] && !option.globalstrict) {
warning("Use the function form of \"use strict\".", prevtoken);
}
statements();
}
advance('(end)');
var markDefined = function (name, context) {
do {
if (typeof context[name] === 'string') {
// JSHINT marks unused variables as 'unused' and
// unused function declaration as 'unction'. This
// code changes such instances back 'var' and
// 'closure' so that the code in JSHINT.data()
// doesn't think they're unused.
if (context[name] === 'unused')
context[name] = 'var';
else if (context[name] === 'unction')
context[name] = 'closure';
return true;
}
context = context['(context)'];
} while (context);
return false;
};
var clearImplied = function (name, line) {
if (!implied[name])
return;
var newImplied = [];
for (var i = 0; i < implied[name].length; i += 1) {
if (implied[name][i] !== line)
newImplied.push(implied[name][i]);
}
if (newImplied.length === 0)
delete implied[name];
else
implied[name] = newImplied;
};
// Check queued 'x is not defined' instances to see if they're still undefined.
for (i = 0; i < JSHINT.undefs.length; i += 1) {
k = JSHINT.undefs[i].slice(0);
if (markDefined(k[2].value, k[0])) {
clearImplied(k[2].value, k[2].line);
} else {
warning.apply(warning, k.slice(1));
}
}
} catch (e) {
if (e) {
var nt = nexttoken || {};
JSHINT.errors.push({
raw : e.raw,
reason : e.message,
line : e.line || nt.line,
character : e.character || nt.from
}, null);
}
}
return JSHINT.errors.length === 0;
};
// Data summary.
itself.data = function () {
var data = { functions: [], options: option }, fu, globals, implieds = [], f, i, j,
members = [], n, unused = [], v;
if (itself.errors.length) {
data.errors = itself.errors;
}
if (jsonmode) {
data.json = true;
}
for (n in implied) {
if (is_own(implied, n)) {
implieds.push({
name: n,
line: implied[n]
});
}
}
if (implieds.length > 0) {
data.implieds = implieds;
}
if (urls.length > 0) {
data.urls = urls;
}
globals = Object.keys(scope);
if (globals.length > 0) {
data.globals = globals;
}
for (i = 1; i < functions.length; i += 1) {
f = functions[i];
fu = {};
for (j = 0; j < functionicity.length; j += 1) {
fu[functionicity[j]] = [];
}
for (n in f) {
if (is_own(f, n) && n.charAt(0) !== '(') {
v = f[n];
if (v === 'unction') {
v = 'unused';
}
if (Array.isArray(fu[v])) {
fu[v].push(n);
if (v === 'unused') {
unused.push({
name: n,
line: f['(line)'],
'function': f['(name)']
});
}
}
}
}
for (j = 0; j < functionicity.length; j += 1) {
if (fu[functionicity[j]].length === 0) {
delete fu[functionicity[j]];
}
}
fu.name = f['(name)'];
fu.param = f['(params)'];
fu.line = f['(line)'];
fu.last = f['(last)'];
data.functions.push(fu);
}
if (unused.length > 0) {
data.unused = unused;
}
members = [];
for (n in member) {
if (typeof member[n] === 'number') {
data.member = member;
break;
}
}
return data;
};
itself.report = function (option) {
var data = itself.data();
var a = [], c, e, err, f, i, k, l, m = '', n, o = [], s;
function detail(h, array) {
var b, i, singularity;
if (array) {
o.push('<div><i>' + h + '</i> ');
array = array.sort();
for (i = 0; i < array.length; i += 1) {
if (array[i] !== singularity) {
singularity = array[i];
o.push((b ? ', ' : '') + singularity);
b = true;
}
}
o.push('</div>');
}
}
if (data.errors || data.implieds || data.unused) {
err = true;
o.push('<div id=errors><i>Error:</i>');
if (data.errors) {
for (i = 0; i < data.errors.length; i += 1) {
c = data.errors[i];
if (c) {
e = c.evidence || '';
o.push('<p>Problem' + (isFinite(c.line) ? ' at line ' +
c.line + ' character ' + c.character : '') +
': ' + c.reason.entityify() +
'</p><p class=evidence>' +
(e && (e.length > 80 ? e.slice(0, 77) + '...' :
e).entityify()) + '</p>');
}
}
}
if (data.implieds) {
s = [];
for (i = 0; i < data.implieds.length; i += 1) {
s[i] = '<code>' + data.implieds[i].name + '</code>&nbsp;<i>' +
data.implieds[i].line + '</i>';
}
o.push('<p><i>Implied global:</i> ' + s.join(', ') + '</p>');
}
if (data.unused) {
s = [];
for (i = 0; i < data.unused.length; i += 1) {
s[i] = '<code><u>' + data.unused[i].name + '</u></code>&nbsp;<i>' +
data.unused[i].line + '</i> <code>' +
data.unused[i]['function'] + '</code>';
}
o.push('<p><i>Unused variable:</i> ' + s.join(', ') + '</p>');
}
if (data.json) {
o.push('<p>JSON: bad.</p>');
}
o.push('</div>');
}
if (!option) {
o.push('<br><div id=functions>');
if (data.urls) {
detail("URLs<br>", data.urls, '<br>');
}
if (data.json && !err) {
o.push('<p>JSON: good.</p>');
} else if (data.globals) {
o.push('<div><i>Global</i> ' +
data.globals.sort().join(', ') + '</div>');
} else {
o.push('<div><i>No new global variables introduced.</i></div>');
}
for (i = 0; i < data.functions.length; i += 1) {
f = data.functions[i];
o.push('<br><div class=function><i>' + f.line + '-' +
f.last + '</i> ' + (f.name || '') + '(' +
(f.param ? f.param.join(', ') : '') + ')</div>');
detail('<big><b>Unused</b></big>', f.unused);
detail('Closure', f.closure);
detail('Variable', f['var']);
detail('Exception', f.exception);
detail('Outer', f.outer);
detail('Global', f.global);
detail('Label', f.label);
}
if (data.member) {
a = Object.keys(data.member);
if (a.length) {
a = a.sort();
m = '<br><pre id=members>/*members ';
l = 10;
for (i = 0; i < a.length; i += 1) {
k = a[i];
n = k.name();
if (l + n.length > 72) {
o.push(m + '<br>');
m = ' ';
l = 1;
}
l += n.length + 2;
if (data.member[k] === 1) {
n = '<i>' + n + '</i>';
}
if (i < a.length - 1) {
n += ', ';
}
m += n;
}
o.push(m + '<br>*/</pre>');
}
o.push('</div>');
}
}
return o.join('');
};
itself.jshint = itself;
return itself;
}());
// Make JSHINT a Node module, if possible.
if (typeof exports === 'object' && exports)
exports.JSHINT = JSHINT;
});
/*
* Narcissus - JS implemented in JS.
*
* Parser.
*/
define('ace/narcissus/parser', ['require', 'exports', 'module' , 'ace/narcissus/lexer', 'ace/narcissus/definitions', 'ace/narcissus/options'], function(require, exports, module) {
var lexer = require('./lexer');
var definitions = require('./definitions');
var options = require('./options');
var Tokenizer = lexer.Tokenizer;
var Dict = definitions.Dict;
var Stack = definitions.Stack;
// Set constants in the local scope.
eval(definitions.consts);
function pushDestructuringVarDecls(n, s) {
for (var i in n) {
var sub = n[i];
if (sub.type === IDENTIFIER) {
s.varDecls.push(sub);
} else {
pushDestructuringVarDecls(sub, s);
}
}
}
function Parser(tokenizer) {
tokenizer.parser = this;
this.t = tokenizer;
this.x = null;
this.unexpectedEOF = false;
options.mozillaMode && (this.mozillaMode = true);
options.parenFreeMode && (this.parenFreeMode = true);
}
function StaticContext(parentScript, parentBlock, inModule, inFunction, strictMode) {
this.parentScript = parentScript;
this.parentBlock = parentBlock || parentScript;
this.inModule = inModule || false;
this.inFunction = inFunction || false;
this.inForLoopInit = false;
this.topLevel = true;
this.allLabels = new Stack();
this.currentLabels = new Stack();
this.labeledTargets = new Stack();
this.defaultLoopTarget = null;
this.defaultTarget = null;
this.strictMode = strictMode;
}
StaticContext.prototype = {
// non-destructive update via prototype extension
update: function(ext) {
var desc = {};
for (var key in ext) {
desc[key] = {
value: ext[key],
writable: true,
enumerable: true,
configurable: true
}
}
return Object.create(this, desc);
},
pushLabel: function(label) {
return this.update({ currentLabels: this.currentLabels.push(label),
allLabels: this.allLabels.push(label) });
},
pushTarget: function(target) {
var isDefaultLoopTarget = target.isLoop;
var isDefaultTarget = isDefaultLoopTarget || target.type === SWITCH;
if (this.currentLabels.isEmpty()) {
if (isDefaultLoopTarget) this.update({ defaultLoopTarget: target });
if (isDefaultTarget) this.update({ defaultTarget: target });
return this;
}
target.labels = new Dict();
this.currentLabels.forEach(function(label) {
target.labels.set(label, true);
});
return this.update({ currentLabels: new Stack(),
labeledTargets: this.labeledTargets.push(target),
defaultLoopTarget: isDefaultLoopTarget
? target
: this.defaultLoopTarget,
defaultTarget: isDefaultTarget
? target
: this.defaultTarget });
},
nest: function() {
return this.topLevel ? this.update({ topLevel: false }) : this;
},
canImport: function() {
return this.topLevel && !this.inFunction;
},
canExport: function() {
return this.inModule && this.topLevel && !this.inFunction;
},
banWith: function() {
return this.strictMode || this.inModule;
},
modulesAllowed: function() {
return this.topLevel && !this.inFunction;
}
};
var Pp = Parser.prototype;
Pp.mozillaMode = false;
Pp.parenFreeMode = false;
Pp.withContext = function(x, f) {
var x0 = this.x;
this.x = x;
var result = f.call(this);
// NB: we don't bother with finally, since exceptions trash the parser
this.x = x0;
return result;
};
Pp.newNode = function newNode(opts) {
return new Node(this.t, opts);
};
Pp.fail = function fail(msg) {
throw this.t.newSyntaxError(msg);
};
Pp.match = function match(tt, scanOperand, keywordIsName) {
return this.t.match(tt, scanOperand, keywordIsName);
};
Pp.mustMatch = function mustMatch(tt, keywordIsName) {
return this.t.mustMatch(tt, keywordIsName);
};
Pp.peek = function peek(scanOperand) {
return this.t.peek(scanOperand);
};
Pp.peekOnSameLine = function peekOnSameLine(scanOperand) {
return this.t.peekOnSameLine(scanOperand);
};
Pp.done = function done() {
return this.t.done;
};
Pp.Script = function Script(inModule, inFunction, expectEnd) {
var node = this.newNode(scriptInit());
var x2 = new StaticContext(node, node, inModule, inFunction);
this.withContext(x2, function() {
this.Statements(node, true);
});
if (expectEnd && !this.done())
this.fail("expected end of input");
return node;
};
function Pragma(n) {
if (n.type === SEMICOLON) {
var e = n.expression;
if (e.type === STRING && e.value === "use strict") {
n.pragma = "strict";
return true;
}
}
return false;
}
/*
* Node :: (tokenizer, optional init object) -> node
*/
function Node(t, init) {
var token = t.token;
if (token) {
// If init.type exists it will override token.type.
this.type = token.type;
this.value = token.value;
this.lineno = token.lineno;
// Start and end are file positions for error handling.
this.start = token.start;
this.end = token.end;
} else {
this.lineno = t.lineno;
}
this.filename = t.filename;
this.children = [];
for (var prop in init)
this[prop] = init[prop];
}
/*
* SyntheticNode :: (optional init object) -> node
*/
function SyntheticNode(init) {
this.children = [];
for (var prop in init)
this[prop] = init[prop];
this.synthetic = true;
}
var Np = Node.prototype = SyntheticNode.prototype = {};
Np.constructor = Node;
var TO_SOURCE_SKIP = {
type: true,
value: true,
lineno: true,
start: true,
end: true,
tokenizer: true,
assignOp: true
};
function unevalableConst(code) {
var token = definitions.tokens[code];
var constName = definitions.opTypeNames.hasOwnProperty(token)
? definitions.opTypeNames[token]
: token in definitions.keywords
? token.toUpperCase()
: token;
return { toSource: function() { return constName } };
}
Np.toSource = function toSource() {
var mock = {};
var self = this;
mock.type = unevalableConst(this.type);
// avoid infinite recursion in case of back-links
if (this.generatingSource)
return mock.toSource();
this.generatingSource = true;
if ("value" in this)
mock.value = this.value;
if ("lineno" in this)
mock.lineno = this.lineno;
if ("start" in this)
mock.start = this.start;
if ("end" in this)
mock.end = this.end;
if (this.assignOp)
mock.assignOp = unevalableConst(this.assignOp);
for (var key in this) {
if (this.hasOwnProperty(key) && !(key in TO_SOURCE_SKIP))
mock[key] = this[key];
}
try {
return mock.toSource();
} finally {
delete this.generatingSource;
}
};
// Always use push to add operands to an expression, to update start and end.
Np.push = function (kid) {
// kid can be null e.g. [1, , 2].
if (kid !== null) {
if (kid.start < this.start)
this.start = kid.start;
if (this.end < kid.end)
this.end = kid.end;
}
return this.children.push(kid);
}
Node.indentLevel = 0;
function tokenString(tt) {
var t = definitions.tokens[tt];
return /^\W/.test(t) ? definitions.opTypeNames[t] : t.toUpperCase();
}
Np.toString = function () {
var a = [];
for (var i in this) {
if (this.hasOwnProperty(i) && i !== 'type' && i !== 'target')
a.push({id: i, value: this[i]});
}
a.sort(function (a,b) { return (a.id < b.id) ? -1 : 1; });
var INDENTATION = " ";
var n = ++Node.indentLevel;
var s = "{\n" + INDENTATION.repeat(n) + "type: " + tokenString(this.type);
for (i = 0; i < a.length; i++)
s += ",\n" + INDENTATION.repeat(n) + a[i].id + ": " + a[i].value;
n = --Node.indentLevel;
s += "\n" + INDENTATION.repeat(n) + "}";
return s;
}
Np.synth = function(init) {
var node = new SyntheticNode(init);
node.filename = this.filename;
node.lineno = this.lineno;
node.start = this.start;
node.end = this.end;
return node;
};
var LOOP_INIT = { isLoop: true };
function blockInit() {
return { type: BLOCK, varDecls: [] };
}
function scriptInit() {
return { type: SCRIPT,
funDecls: [],
varDecls: [],
modDefns: new Dict(),
modAssns: new Dict(),
modDecls: new Dict(),
modLoads: new Dict(),
impDecls: [],
expDecls: [],
exports: new Dict(),
hasEmptyReturn: false,
hasReturnWithValue: false,
hasYield: false };
}
definitions.defineGetter(Np, "length",
function() {
throw new Error("Node.prototype.length is gone; " +
"use n.children.length instead");
});
definitions.defineProperty(String.prototype, "repeat",
function(n) {
var s = "", t = this + s;
while (--n >= 0)
s += t;
return s;
}, false, false, true);
Pp.MaybeLeftParen = function MaybeLeftParen() {
if (this.parenFreeMode)
return this.match(LEFT_PAREN) ? LEFT_PAREN : END;
return this.mustMatch(LEFT_PAREN).type;
};
Pp.MaybeRightParen = function MaybeRightParen(p) {
if (p === LEFT_PAREN)
this.mustMatch(RIGHT_PAREN);
}
/*
* Statements :: (node[, boolean]) -> void
*
* Parses a sequence of Statements.
*/
Pp.Statements = function Statements(n, topLevel) {
var prologue = !!topLevel;
try {
while (!this.done() && this.peek(true) !== RIGHT_CURLY) {
var n2 = this.Statement();
n.push(n2);
if (prologue && Pragma(n2)) {
this.x.strictMode = true;
n.strict = true;
} else {
prologue = false;
}
}
} catch (e) {
try {
if (this.done())
this.unexpectedEOF = true;
} catch(e) {}
throw e;
}
}
Pp.Block = function Block() {
this.mustMatch(LEFT_CURLY);
var n = this.newNode(blockInit());
var x2 = this.x.update({ parentBlock: n }).pushTarget(n);
this.withContext(x2, function() {
this.Statements(n);
});
this.mustMatch(RIGHT_CURLY);
return n;
}
var DECLARED_FORM = 0, EXPRESSED_FORM = 1, STATEMENT_FORM = 2;
function Export(node, isDefinition) {
this.node = node; // the AST node declaring this individual export
this.isDefinition = isDefinition; // is the node an 'export'-annotated definition?
this.resolved = null; // resolved pointer to the target of this export
}
/*
* registerExport :: (Dict, EXPORT node) -> void
*/
function registerExport(exports, decl) {
function register(name, exp) {
if (exports.has(name))
throw new SyntaxError("multiple exports of " + name);
exports.set(name, exp);
}
switch (decl.type) {
case MODULE:
case FUNCTION:
register(decl.name, new Export(decl, true));
break;
case VAR:
for (var i = 0; i < decl.children.length; i++)
register(decl.children[i].name, new Export(decl.children[i], true));
break;
case LET:
case CONST:
throw new Error("NYI: " + definitions.tokens[decl.type]);
case EXPORT:
for (var i = 0; i < decl.pathList.length; i++) {
var path = decl.pathList[i];
switch (path.type) {
case OBJECT_INIT:
for (var j = 0; j < path.children.length; j++) {
// init :: IDENTIFIER | PROPERTY_INIT
var init = path.children[j];
if (init.type === IDENTIFIER)
register(init.value, new Export(init, false));
else
register(init.children[0].value, new Export(init.children[1], false));
}
break;
case DOT:
register(path.children[1].value, new Export(path, false));
break;
case IDENTIFIER:
register(path.value, new Export(path, false));
break;
default:
throw new Error("unexpected export path: " + definitions.tokens[path.type]);
}
}
break;
default:
throw new Error("unexpected export decl: " + definitions.tokens[exp.type]);
}
}
/*
* Module :: (node) -> Module
*
* Static semantic representation of a module.
*/
function Module(node) {
var exports = node.body.exports;
var modDefns = node.body.modDefns;
var exportedModules = new Dict();
exports.forEach(function(name, exp) {
var node = exp.node;
if (node.type === MODULE) {
exportedModules.set(name, node);
} else if (!exp.isDefinition && node.type === IDENTIFIER && modDefns.has(node.value)) {
var mod = modDefns.get(node.value);
exportedModules.set(name, mod);
}
});
this.node = node;
this.exports = exports;
this.exportedModules = exportedModules;
}
/*
* Statement :: () -> node
*
* Parses a Statement.
*/
Pp.Statement = function Statement() {
var i, label, n, n2, p, c, ss, tt = this.t.get(true), tt2, x0, x2, x3;
var comments = this.t.blockComments;
// Cases for statements ending in a right curly return early, avoiding the
// common semicolon insertion magic after this switch.
switch (tt) {
case IMPORT:
if (!this.x.canImport())
this.fail("illegal context for import statement");
n = this.newNode();
n.pathList = this.ImportPathList();
this.x.parentScript.impDecls.push(n);
break;
case EXPORT:
if (!this.x.canExport())
this.fail("export statement not in module top level");
switch (this.peek()) {
case MODULE:
case FUNCTION:
case LET:
case VAR:
case CONST:
n = this.Statement();
n.blockComments = comments;
n.exported = true;
this.x.parentScript.expDecls.push(n);
registerExport(this.x.parentScript.exports, n);
return n;
}
n = this.newNode();
n.pathList = this.ExportPathList();
this.x.parentScript.expDecls.push(n);
registerExport(this.x.parentScript.exports, n);
break;
case FUNCTION:
// DECLARED_FORM extends funDecls of x, STATEMENT_FORM doesn't.
return this.FunctionDefinition(true, this.x.topLevel ? DECLARED_FORM : STATEMENT_FORM, comments);
case LEFT_CURLY:
n = this.newNode(blockInit());
x2 = this.x.update({ parentBlock: n }).pushTarget(n).nest();
this.withContext(x2, function() {
this.Statements(n);
});
this.mustMatch(RIGHT_CURLY);
return n;
case IF:
n = this.newNode();
n.condition = this.HeadExpression();
x2 = this.x.pushTarget(n).nest();
this.withContext(x2, function() {
n.thenPart = this.Statement();
n.elsePart = this.match(ELSE, true) ? this.Statement() : null;
});
return n;
case SWITCH:
// This allows CASEs after a DEFAULT, which is in the standard.
n = this.newNode({ cases: [], defaultIndex: -1 });
n.discriminant = this.HeadExpression();
x2 = this.x.pushTarget(n).nest();
this.withContext(x2, function() {
this.mustMatch(LEFT_CURLY);
while ((tt = this.t.get()) !== RIGHT_CURLY) {
switch (tt) {
case DEFAULT:
if (n.defaultIndex >= 0)
this.fail("More than one switch default");
// FALL THROUGH
case CASE:
n2 = this.newNode();
if (tt === DEFAULT)
n.defaultIndex = n.cases.length;
else
n2.caseLabel = this.Expression(COLON);
break;
default:
this.fail("Invalid switch case");
}
this.mustMatch(COLON);
n2.statements = this.newNode(blockInit());
while ((tt=this.peek(true)) !== CASE && tt !== DEFAULT &&
tt !== RIGHT_CURLY)
n2.statements.push(this.Statement());
n.cases.push(n2);
}
});
return n;
case FOR:
n = this.newNode(LOOP_INIT);
n.blockComments = comments;
if (this.match(IDENTIFIER)) {
if (this.t.token.value === "each")
n.isEach = true;
else
this.t.unget();
}
if (!this.parenFreeMode)
this.mustMatch(LEFT_PAREN);
x2 = this.x.pushTarget(n).nest();
x3 = this.x.update({ inForLoopInit: true });
n2 = null;
if ((tt = this.peek(true)) !== SEMICOLON) {
this.withContext(x3, function() {
if (tt === VAR || tt === CONST) {
this.t.get();
n2 = this.Variables();
} else if (tt === LET) {
this.t.get();
if (this.peek() === LEFT_PAREN) {
n2 = this.LetBlock(false);
} else {
// Let in for head, we need to add an implicit block
// around the rest of the for.
this.x.parentBlock = n;
n.varDecls = [];
n2 = this.Variables();
}
} else {
n2 = this.Expression();
}
});
}
if (n2 && this.match(IN)) {
n.type = FOR_IN;
this.withContext(x3, function() {
n.object = this.Expression();
if (n2.type === VAR || n2.type === LET) {
c = n2.children;
// Destructuring turns one decl into multiples, so either
// there must be only one destructuring or only one
// decl.
if (c.length !== 1 && n2.destructurings.length !== 1) {
// FIXME: this.fail ?
throw new SyntaxError("Invalid for..in left-hand side",
this.filename, n2.lineno);
}
if (n2.destructurings.length > 0) {
n.iterator = n2.destructurings[0];
} else {
n.iterator = c[0];
}
n.varDecl = n2;
} else {
if (n2.type === ARRAY_INIT || n2.type === OBJECT_INIT) {
n2.destructuredNames = this.checkDestructuring(n2);
}
n.iterator = n2;
}
});
} else {
x3.inForLoopInit = false;
n.setup = n2;
this.mustMatch(SEMICOLON);
if (n.isEach)
this.fail("Invalid for each..in loop");
this.withContext(x3, function() {
n.condition = (this.peek(true) === SEMICOLON)
? null
: this.Expression();
this.mustMatch(SEMICOLON);
tt2 = this.peek(true);
n.update = (this.parenFreeMode
? tt2 === LEFT_CURLY || definitions.isStatementStartCode[tt2]
: tt2 === RIGHT_PAREN)
? null
: this.Expression();
});
}
if (!this.parenFreeMode)
this.mustMatch(RIGHT_PAREN);
this.withContext(x2, function() {
n.body = this.Statement();
});
return n;
case WHILE:
n = this.newNode({ isLoop: true });
n.blockComments = comments;
n.condition = this.HeadExpression();
x2 = this.x.pushTarget(n).nest();
this.withContext(x2, function() {
n.body = this.Statement();
});
return n;
case DO:
n = this.newNode({ isLoop: true });
n.blockComments = comments;
x2 = this.x.pushTarget(n).next();
this.withContext(x2, function() {
n.body = this.Statement();
});
this.mustMatch(WHILE);
n.condition = this.HeadExpression();
// <script language="JavaScript"> (without version hints) may need
// automatic semicolon insertion without a newline after do-while.
// See http://bugzilla.mozilla.org/show_bug.cgi?id=238945.
this.match(SEMICOLON);
return n;
case BREAK:
case CONTINUE:
n = this.newNode();
n.blockComments = comments;
// handle the |foo: break foo;| corner case
x2 = this.x.pushTarget(n);
if (this.peekOnSameLine() === IDENTIFIER) {
this.t.get();
n.label = this.t.token.value;
}
if (n.label) {
n.target = x2.labeledTargets.find(function(target) {
return target.labels.has(n.label)
});
} else if (tt === CONTINUE) {
n.target = x2.defaultLoopTarget;
} else {
n.target = x2.defaultTarget;
}
if (!n.target)
this.fail("Invalid " + ((tt === BREAK) ? "break" : "continue"));
if (!n.target.isLoop && tt === CONTINUE)
this.fail("Invalid continue");
break;
case TRY:
n = this.newNode({ catchClauses: [] });
n.blockComments = comments;
n.tryBlock = this.Block();
while (this.match(CATCH)) {
n2 = this.newNode();
p = this.MaybeLeftParen();
switch (this.t.get()) {
case LEFT_BRACKET:
case LEFT_CURLY:
// Destructured catch identifiers.
this.t.unget();
n2.varName = this.DestructuringExpression(true);
break;
case IDENTIFIER:
n2.varName = this.t.token.value;
break;
default:
this.fail("missing identifier in catch");
break;
}
if (this.match(IF)) {
if (!this.mozillaMode)
this.fail("Illegal catch guard");
if (n.catchClauses.length && !n.catchClauses.top().guard)
this.fail("Guarded catch after unguarded");
n2.guard = this.Expression();
}
this.MaybeRightParen(p);
n2.block = this.Block();
n.catchClauses.push(n2);
}
if (this.match(FINALLY))
n.finallyBlock = this.Block();
if (!n.catchClauses.length && !n.finallyBlock)
this.fail("Invalid try statement");
return n;
case CATCH:
case FINALLY:
this.fail(definitions.tokens[tt] + " without preceding try");
case THROW:
n = this.newNode();
n.exception = this.Expression();
break;
case RETURN:
n = this.ReturnOrYield();
break;
case WITH:
if (this.x.banWith())
this.fail("with statements not allowed in strict code or modules");
n = this.newNode();
n.blockComments = comments;
n.object = this.HeadExpression();
x2 = this.x.pushTarget(n).next();
this.withContext(x2, function() {
n.body = this.Statement();
});
return n;
case VAR:
case CONST:
n = this.Variables();
break;
case LET:
if (this.peek() === LEFT_PAREN) {
n = this.LetBlock(true);
return n;
}
n = this.Variables();
break;
case DEBUGGER:
n = this.newNode();
break;
case NEWLINE:
case SEMICOLON:
n = this.newNode({ type: SEMICOLON });
n.blockComments = comments;
n.expression = null;
return n;
case IDENTIFIER:
case USE:
case MODULE:
switch (this.t.token.value) {
case "use":
if (!isPragmaToken(this.peekOnSameLine())) {
this.t.unget();
break;
}
return this.newNode({ type: USE, params: this.Pragmas() });
case "module":
if (!this.x.modulesAllowed())
this.fail("module declaration not at top level");
this.x.parentScript.hasModules = true;
tt = this.peekOnSameLine();
if (tt !== IDENTIFIER && tt !== LEFT_CURLY) {
this.t.unget();
break;
}
n = this.newNode({ type: MODULE });
n.blockComments = comments;
this.mustMatch(IDENTIFIER);
label = this.t.token.value;
if (this.match(LEFT_CURLY)) {
n.name = label;
n.body = this.Script(true, false);
n.module = new Module(n);
this.mustMatch(RIGHT_CURLY);
this.x.parentScript.modDefns.set(n.name, n);
return n;
}
this.t.unget();
this.ModuleVariables(n);
return n;
default:
tt = this.peek();
// Labeled statement.
if (tt === COLON) {
label = this.t.token.value;
if (this.x.allLabels.has(label))
this.fail("Duplicate label: " + label);
this.t.get();
n = this.newNode({ type: LABEL, label: label });
n.blockComments = comments;
x2 = this.x.pushLabel(label).nest();
this.withContext(x2, function() {
n.statement = this.Statement();
});
n.target = (n.statement.type === LABEL) ? n.statement.target : n.statement;
return n;
}
// FALL THROUGH
}
// FALL THROUGH
default:
// Expression statement.
// We unget the current token to parse the expression as a whole.
n = this.newNode({ type: SEMICOLON });
this.t.unget();
n.blockComments = comments;
n.expression = this.Expression();
n.end = n.expression.end;
break;
}
n.blockComments = comments;
this.MagicalSemicolon();
return n;
}
/*
* isPragmaToken :: (number) -> boolean
*/
function isPragmaToken(tt) {
switch (tt) {
case IDENTIFIER:
case STRING:
case NUMBER:
case NULL:
case TRUE:
case FALSE:
return true;
}
return false;
}
/*
* Pragmas :: () -> Array[Array[token]]
*/
Pp.Pragmas = function Pragmas() {
var pragmas = [];
do {
pragmas.push(this.Pragma());
} while (this.match(COMMA));
this.MagicalSemicolon();
return pragmas;
}
/*
* Pragmas :: () -> Array[token]
*/
Pp.Pragma = function Pragma() {
var items = [];
var tt;
do {
tt = this.t.get(true);
items.push(this.t.token);
} while (isPragmaToken(this.peek()));
return items;
}
/*
* MagicalSemicolon :: () -> void
*/
Pp.MagicalSemicolon = function MagicalSemicolon() {
var tt;
if (this.t.lineno === this.t.token.lineno) {
tt = this.peekOnSameLine();
if (tt !== END && tt !== NEWLINE && tt !== SEMICOLON && tt !== RIGHT_CURLY)
this.fail("missing ; before statement");
}
this.match(SEMICOLON);
}
/*
* ReturnOrYield :: () -> (RETURN | YIELD) node
*/
Pp.ReturnOrYield = function ReturnOrYield() {
var n, b, tt = this.t.token.type, tt2;
var parentScript = this.x.parentScript;
if (tt === RETURN) {
if (!this.x.inFunction)
this.fail("Return not in function");
} else /* if (tt === YIELD) */ {
if (!this.x.inFunction)
this.fail("Yield not in function");
parentScript.hasYield = true;
}
n = this.newNode({ value: undefined });
tt2 = (tt === RETURN) ? this.peekOnSameLine(true) : this.peek(true);
if (tt2 !== END && tt2 !== NEWLINE &&
tt2 !== SEMICOLON && tt2 !== RIGHT_CURLY
&& (tt !== YIELD ||
(tt2 !== tt && tt2 !== RIGHT_BRACKET && tt2 !== RIGHT_PAREN &&
tt2 !== COLON && tt2 !== COMMA))) {
if (tt === RETURN) {
n.value = this.Expression();
parentScript.hasReturnWithValue = true;
} else {
n.value = this.AssignExpression();
}
} else if (tt === RETURN) {
parentScript.hasEmptyReturn = true;
}
return n;
}
/*
* ModuleExpression :: () -> (STRING | IDENTIFIER | DOT) node
*/
Pp.ModuleExpression = function ModuleExpression() {
return this.match(STRING) ? this.newNode() : this.QualifiedPath();
}
/*
* ImportPathList :: () -> Array[DOT node]
*/
Pp.ImportPathList = function ImportPathList() {
var a = [];
do {
a.push(this.ImportPath());
} while (this.match(COMMA));
return a;
}
/*
* ImportPath :: () -> DOT node
*/
Pp.ImportPath = function ImportPath() {
var n = this.QualifiedPath();
if (!this.match(DOT)) {
if (n.type === IDENTIFIER)
this.fail("cannot import local variable");
return n;
}
var n2 = this.newNode();
n2.push(n);
n2.push(this.ImportSpecifierSet());
return n2;
}
/*
* ExplicitSpecifierSet :: (() -> node) -> OBJECT_INIT node
*/
Pp.ExplicitSpecifierSet = function ExplicitSpecifierSet(SpecifierRHS) {
var n, n2, id, tt;
n = this.newNode({ type: OBJECT_INIT });
this.mustMatch(LEFT_CURLY);
if (!this.match(RIGHT_CURLY)) {
do {
id = this.Identifier();
if (this.match(COLON)) {
n2 = this.newNode({ type: PROPERTY_INIT });
n2.push(id);
n2.push(SpecifierRHS());
n.push(n2);
} else {
n.push(id);
}
} while (!this.match(RIGHT_CURLY) && this.mustMatch(COMMA));
}
return n;
}
/*
* ImportSpecifierSet :: () -> (IDENTIFIER | OBJECT_INIT) node
*/
Pp.ImportSpecifierSet = function ImportSpecifierSet() {
var self = this;
return this.match(MUL)
? this.newNode({ type: IDENTIFIER, name: "*" })
: ExplicitSpecifierSet(function() { return self.Identifier() });
}
/*
* Identifier :: () -> IDENTIFIER node
*/
Pp.Identifier = function Identifier() {
this.mustMatch(IDENTIFIER);
return this.newNode({ type: IDENTIFIER });
}
/*
* IdentifierName :: () -> IDENTIFIER node
*/
Pp.IdentifierName = function IdentifierName() {
this.mustMatch(IDENTIFIER, true);
return this.newNode({ type: IDENTIFIER });
}
/*
* QualifiedPath :: () -> (IDENTIFIER | DOT) node
*/
Pp.QualifiedPath = function QualifiedPath() {
var n, n2;
n = this.Identifier();
while (this.match(DOT)) {
if (this.peek() !== IDENTIFIER) {
// Unget the '.' token, which isn't part of the QualifiedPath.
this.t.unget();
break;
}
n2 = this.newNode();
n2.push(n);
n2.push(this.Identifier());
n = n2;
}
return n;
}
/*
* ExportPath :: () -> (IDENTIFIER | DOT | OBJECT_INIT) node
*/
Pp.ExportPath = function ExportPath() {
var self = this;
if (this.peek() === LEFT_CURLY)
return this.ExplicitSpecifierSet(function() { return self.QualifiedPath() });
return this.QualifiedPath();
}
/*
* ExportPathList :: () -> Array[(IDENTIFIER | DOT | OBJECT_INIT) node]
*/
Pp.ExportPathList = function ExportPathList() {
var a = [];
do {
a.push(this.ExportPath());
} while (this.match(COMMA));
return a;
}
/*
* FunctionDefinition :: (boolean,
* DECLARED_FORM or EXPRESSED_FORM or STATEMENT_FORM,
* [string] or null or undefined)
* -> node
*/
Pp.FunctionDefinition = function FunctionDefinition(requireName, functionForm, comments) {
var tt;
var f = this.newNode({ params: [], paramComments: [] });
if (typeof comments === "undefined")
comments = null;
f.blockComments = comments;
if (f.type !== FUNCTION)
f.type = (f.value === "get") ? GETTER : SETTER;
if (this.match(MUL))
f.isExplicitGenerator = true;
if (this.match(IDENTIFIER, false, true))
f.name = this.t.token.value;
else if (requireName)
this.fail("missing function identifier");
var inModule = this.x.inModule;
x2 = new StaticContext(null, null, inModule, true, this.x.strictMode);
this.withContext(x2, function() {
this.mustMatch(LEFT_PAREN);
if (!this.match(RIGHT_PAREN)) {
do {
tt = this.t.get();
f.paramComments.push(this.t.lastBlockComment());
switch (tt) {
case LEFT_BRACKET:
case LEFT_CURLY:
// Destructured formal parameters.
this.t.unget();
f.params.push(this.DestructuringExpression());
break;
case IDENTIFIER:
f.params.push(this.t.token.value);
break;
default:
this.fail("missing formal parameter");
}
} while (this.match(COMMA));
this.mustMatch(RIGHT_PAREN);
}
// Do we have an expression closure or a normal body?
tt = this.t.get(true);
if (tt !== LEFT_CURLY)
this.t.unget();
if (tt !== LEFT_CURLY) {
f.body = this.AssignExpression();
} else {
f.body = this.Script(inModule, true);
}
});
if (tt === LEFT_CURLY)
this.mustMatch(RIGHT_CURLY);
f.end = this.t.token.end;
f.functionForm = functionForm;
if (functionForm === DECLARED_FORM)
this.x.parentScript.funDecls.push(f);
if (this.x.inModule && !f.isExplicitGenerator && f.body.hasYield)
this.fail("yield in non-generator function");
if (f.isExplicitGenerator || f.body.hasYield)
f.body = this.newNode({ type: GENERATOR, body: f.body });
return f;
}
/*
* ModuleVariables :: (MODULE node) -> void
*
* Parses a comma-separated list of module declarations (and maybe
* initializations).
*/
Pp.ModuleVariables = function ModuleVariables(n) {
var n1, n2;
do {
n1 = this.Identifier();
if (this.match(ASSIGN)) {
n2 = this.ModuleExpression();
n1.initializer = n2;
if (n2.type === STRING)
this.x.parentScript.modLoads.set(n1.value, n2.value);
else
this.x.parentScript.modAssns.set(n1.value, n1);
}
n.push(n1);
} while (this.match(COMMA));
}
/*
* Variables :: () -> node
*
* Parses a comma-separated list of var declarations (and maybe
* initializations).
*/
Pp.Variables = function Variables(letBlock) {
var n, n2, ss, i, s, tt;
tt = this.t.token.type;
switch (tt) {
case VAR:
case CONST:
s = this.x.parentScript;
break;
case LET:
s = this.x.parentBlock;
break;
case LEFT_PAREN:
tt = LET;
s = letBlock;
break;
}
n = this.newNode({ type: tt, destructurings: [] });
do {
tt = this.t.get();
if (tt === LEFT_BRACKET || tt === LEFT_CURLY) {
// Need to unget to parse the full destructured expression.
this.t.unget();
var dexp = this.DestructuringExpression(true);
n2 = this.newNode({ type: IDENTIFIER,
name: dexp,
readOnly: n.type === CONST });
n.push(n2);
pushDestructuringVarDecls(n2.name.destructuredNames, s);
n.destructurings.push({ exp: dexp, decl: n2 });
if (this.x.inForLoopInit && this.peek() === IN) {
continue;
}
this.mustMatch(ASSIGN);
if (this.t.token.assignOp)
this.fail("Invalid variable initialization");
n2.blockComment = this.t.lastBlockComment();
n2.initializer = this.AssignExpression();
continue;
}
if (tt !== IDENTIFIER)
this.fail("missing variable name");
n2 = this.newNode({ type: IDENTIFIER,
name: this.t.token.value,
readOnly: n.type === CONST });
n.push(n2);
s.varDecls.push(n2);
if (this.match(ASSIGN)) {
var comment = this.t.lastBlockComment();
if (this.t.token.assignOp)
this.fail("Invalid variable initialization");
n2.initializer = this.AssignExpression();
} else {
var comment = this.t.lastBlockComment();
}
n2.blockComment = comment;
} while (this.match(COMMA));
return n;
}
/*
* LetBlock :: (boolean) -> node
*
* Does not handle let inside of for loop init.
*/
Pp.LetBlock = function LetBlock(isStatement) {
var n, n2;
// t.token.type must be LET
n = this.newNode({ type: LET_BLOCK, varDecls: [] });
this.mustMatch(LEFT_PAREN);
n.variables = this.Variables(n);
this.mustMatch(RIGHT_PAREN);
if (isStatement && this.peek() !== LEFT_CURLY) {
/*
* If this is really an expression in let statement guise, then we
* need to wrap the LET_BLOCK node in a SEMICOLON node so that we pop
* the return value of the expression.
*/
n2 = this.newNode({ type: SEMICOLON, expression: n });
isStatement = false;
}
if (isStatement)
n.block = this.Block();
else
n.expression = this.AssignExpression();
return n;
}
Pp.checkDestructuring = function checkDestructuring(n, simpleNamesOnly) {
if (n.type === ARRAY_COMP)
this.fail("Invalid array comprehension left-hand side");
if (n.type !== ARRAY_INIT && n.type !== OBJECT_INIT)
return;
var lhss = {};
var nn, n2, idx, sub, cc, c = n.children;
for (var i = 0, j = c.length; i < j; i++) {
if (!(nn = c[i]))
continue;
if (nn.type === PROPERTY_INIT) {
cc = nn.children;
sub = cc[1];
idx = cc[0].value;
} else if (n.type === OBJECT_INIT) {
// Do we have destructuring shorthand {foo, bar}?
sub = nn;
idx = nn.value;
} else {
sub = nn;
idx = i;
}
if (sub.type === ARRAY_INIT || sub.type === OBJECT_INIT) {
lhss[idx] = this.checkDestructuring(sub, simpleNamesOnly);
} else {
if (simpleNamesOnly && sub.type !== IDENTIFIER) {
// In declarations, lhs must be simple names
this.fail("missing name in pattern");
}
lhss[idx] = sub;
}
}
return lhss;
}
Pp.DestructuringExpression = function DestructuringExpression(simpleNamesOnly) {
var n = this.PrimaryExpression();
// Keep the list of lefthand sides for varDecls
n.destructuredNames = this.checkDestructuring(n, simpleNamesOnly);
return n;
}
Pp.GeneratorExpression = function GeneratorExpression(e) {
return this.newNode({ type: GENERATOR,
expression: e,
tail: this.ComprehensionTail() });
}
Pp.ComprehensionTail = function ComprehensionTail() {
var body, n, n2, n3, p;
// t.token.type must be FOR
body = this.newNode({ type: COMP_TAIL });
do {
// Comprehension tails are always for..in loops.
n = this.newNode({ type: FOR_IN, isLoop: true });
if (this.match(IDENTIFIER)) {
// But sometimes they're for each..in.
if (this.mozillaMode && this.t.token.value === "each")
n.isEach = true;
else
this.t.unget();
}
p = this.MaybeLeftParen();
switch(this.t.get()) {
case LEFT_BRACKET:
case LEFT_CURLY:
this.t.unget();
// Destructured left side of for in comprehension tails.
n.iterator = this.DestructuringExpression();
break;
case IDENTIFIER:
n.iterator = n3 = this.newNode({ type: IDENTIFIER });
n3.name = n3.value;
n.varDecl = n2 = this.newNode({ type: VAR });
n2.push(n3);
this.x.parentScript.varDecls.push(n3);
// Don't add to varDecls since the semantics of comprehensions is
// such that the variables are in their own function when
// desugared.
break;
default:
this.fail("missing identifier");
}
this.mustMatch(IN);
n.object = this.Expression();
this.MaybeRightParen(p);
body.push(n);
} while (this.match(FOR));
// Optional guard.
if (this.match(IF))
body.guard = this.HeadExpression();
return body;
}
Pp.HeadExpression = function HeadExpression() {
var p = this.MaybeLeftParen();
var n = this.ParenExpression();
this.MaybeRightParen(p);
if (p === END && !n.parenthesized) {
var tt = this.peek();
if (tt !== LEFT_CURLY && !definitions.isStatementStartCode[tt])
this.fail("Unparenthesized head followed by unbraced body");
}
return n;
}
Pp.ParenExpression = function ParenExpression() {
// Always accept the 'in' operator in a parenthesized expression,
// where it's unambiguous, even if we might be parsing the init of a
// for statement.
var x2 = this.x.update({
inForLoopInit: this.x.inForLoopInit && (this.t.token.type === LEFT_PAREN)
});
var n = this.withContext(x2, function() {
return this.Expression();
});
if (this.match(FOR)) {
if (n.type === YIELD && !n.parenthesized)
this.fail("Yield expression must be parenthesized");
if (n.type === COMMA && !n.parenthesized)
this.fail("Generator expression must be parenthesized");
n = this.GeneratorExpression(n);
}
return n;
}
/*
* Expression :: () -> node
*
* Top-down expression parser matched against SpiderMonkey.
*/
Pp.Expression = function Expression() {
var n, n2;
n = this.AssignExpression();
if (this.match(COMMA)) {
n2 = this.newNode({ type: COMMA });
n2.push(n);
n = n2;
do {
n2 = n.children[n.children.length-1];
if (n2.type === YIELD && !n2.parenthesized)
this.fail("Yield expression must be parenthesized");
n.push(this.AssignExpression());
} while (this.match(COMMA));
}
return n;
}
Pp.AssignExpression = function AssignExpression() {
var n, lhs;
// Have to treat yield like an operand because it could be the leftmost
// operand of the expression.
if (this.match(YIELD, true))
return this.ReturnOrYield();
n = this.newNode({ type: ASSIGN });
lhs = this.ConditionalExpression();
if (!this.match(ASSIGN)) {
return lhs;
}
n.blockComment = this.t.lastBlockComment();
switch (lhs.type) {
case OBJECT_INIT:
case ARRAY_INIT:
lhs.destructuredNames = this.checkDestructuring(lhs);
// FALL THROUGH
case IDENTIFIER: case DOT: case INDEX: case CALL:
break;
default:
this.fail("Bad left-hand side of assignment");
break;
}
n.assignOp = lhs.assignOp = this.t.token.assignOp;
n.push(lhs);
n.push(this.AssignExpression());
return n;
}
Pp.ConditionalExpression = function ConditionalExpression() {
var n, n2;
n = this.OrExpression();
if (this.match(HOOK)) {
n2 = n;
n = this.newNode({ type: HOOK });
n.push(n2);
var x2 = this.x.update({ inForLoopInit: false });
this.withContext(x2, function() {
n.push(this.AssignExpression());
});
if (!this.match(COLON))
this.fail("missing : after ?");
n.push(this.AssignExpression());
}
return n;
}
Pp.OrExpression = function OrExpression() {
var n, n2;
n = this.AndExpression();
while (this.match(OR)) {
n2 = this.newNode();
n2.push(n);
n2.push(this.AndExpression());
n = n2;
}
return n;
}
Pp.AndExpression = function AndExpression() {
var n, n2;
n = this.BitwiseOrExpression();
while (this.match(AND)) {
n2 = this.newNode();
n2.push(n);
n2.push(this.BitwiseOrExpression());
n = n2;
}
return n;
}
Pp.BitwiseOrExpression = function BitwiseOrExpression() {
var n, n2;
n = this.BitwiseXorExpression();
while (this.match(BITWISE_OR)) {
n2 = this.newNode();
n2.push(n);
n2.push(this.BitwiseXorExpression());
n = n2;
}
return n;
}
Pp.BitwiseXorExpression = function BitwiseXorExpression() {
var n, n2;
n = this.BitwiseAndExpression();
while (this.match(BITWISE_XOR)) {
n2 = this.newNode();
n2.push(n);
n2.push(this.BitwiseAndExpression());
n = n2;
}
return n;
}
Pp.BitwiseAndExpression = function BitwiseAndExpression() {
var n, n2;
n = this.EqualityExpression();
while (this.match(BITWISE_AND)) {
n2 = this.newNode();
n2.push(n);
n2.push(this.EqualityExpression());
n = n2;
}
return n;
}
Pp.EqualityExpression = function EqualityExpression() {
var n, n2;
n = this.RelationalExpression();
while (this.match(EQ) || this.match(NE) ||
this.match(STRICT_EQ) || this.match(STRICT_NE)) {
n2 = this.newNode();
n2.push(n);
n2.push(this.RelationalExpression());
n = n2;
}
return n;
}
Pp.RelationalExpression = function RelationalExpression() {
var n, n2;
var x2 = this.x.update({ inForLoopInit: false });
this.withContext(x2, function() {
n = this.ShiftExpression();
while ((this.match(LT) || this.match(LE) || this.match(GE) || this.match(GT) ||
(!this.x.inForLoopInit && this.match(IN)) ||
this.match(INSTANCEOF))) {
n2 = this.newNode();
n2.push(n);
n2.push(this.ShiftExpression());
n = n2;
}
});
return n;
}
Pp.ShiftExpression = function ShiftExpression() {
var n, n2;
n = this.AddExpression();
while (this.match(LSH) || this.match(RSH) || this.match(URSH)) {
n2 = this.newNode();
n2.push(n);
n2.push(this.AddExpression());
n = n2;
}
return n;
}
Pp.AddExpression = function AddExpression() {
var n, n2;
n = this.MultiplyExpression();
while (this.match(PLUS) || this.match(MINUS)) {
n2 = this.newNode();
n2.push(n);
n2.push(this.MultiplyExpression());
n = n2;
}
return n;
}
Pp.MultiplyExpression = function MultiplyExpression() {
var n, n2;
n = this.UnaryExpression();
while (this.match(MUL) || this.match(DIV) || this.match(MOD)) {
n2 = this.newNode();
n2.push(n);
n2.push(this.UnaryExpression());
n = n2;
}
return n;
}
Pp.UnaryExpression = function UnaryExpression() {
var n, n2, tt;
switch (tt = this.t.get(true)) {
case DELETE: case VOID: case TYPEOF:
case NOT: case BITWISE_NOT: case PLUS: case MINUS:
if (tt === PLUS)
n = this.newNode({ type: UNARY_PLUS });
else if (tt === MINUS)
n = this.newNode({ type: UNARY_MINUS });
else
n = this.newNode();
n.push(this.UnaryExpression());
break;
case INCREMENT:
case DECREMENT:
// Prefix increment/decrement.
n = this.newNode();
n.push(this.MemberExpression(true));
break;
default:
this.t.unget();
n = this.MemberExpression(true);
// Don't look across a newline boundary for a postfix {in,de}crement.
if (this.t.tokens[(this.t.tokenIndex + this.t.lookahead - 1) & 3].lineno ===
this.t.lineno) {
if (this.match(INCREMENT) || this.match(DECREMENT)) {
n2 = this.newNode({ postfix: true });
n2.push(n);
n = n2;
}
}
break;
}
return n;
}
Pp.MemberExpression = function MemberExpression(allowCallSyntax) {
var n, n2, name, tt;
if (this.match(NEW)) {
n = this.newNode();
n.push(this.MemberExpression(false));
if (this.match(LEFT_PAREN)) {
n.type = NEW_WITH_ARGS;
n.push(this.ArgumentList());
}
} else {
n = this.PrimaryExpression();
}
while ((tt = this.t.get()) !== END) {
switch (tt) {
case DOT:
n2 = this.newNode();
n2.push(n);
n2.push(this.IdentifierName());
break;
case LEFT_BRACKET:
n2 = this.newNode({ type: INDEX });
n2.push(n);
n2.push(this.Expression());
this.mustMatch(RIGHT_BRACKET);
break;
case LEFT_PAREN:
if (allowCallSyntax) {
n2 = this.newNode({ type: CALL });
n2.push(n);
n2.push(this.ArgumentList());
break;
}
// FALL THROUGH
default:
this.t.unget();
return n;
}
n = n2;
}
return n;
}
Pp.ArgumentList = function ArgumentList() {
var n, n2;
n = this.newNode({ type: LIST });
if (this.match(RIGHT_PAREN, true))
return n;
do {
n2 = this.AssignExpression();
if (n2.type === YIELD && !n2.parenthesized && this.peek() === COMMA)
this.fail("Yield expression must be parenthesized");
if (this.match(FOR)) {
n2 = this.GeneratorExpression(n2);
if (n.children.length > 1 || this.peek(true) === COMMA)
this.fail("Generator expression must be parenthesized");
}
n.push(n2);
} while (this.match(COMMA));
this.mustMatch(RIGHT_PAREN);
return n;
}
Pp.PrimaryExpression = function PrimaryExpression() {
var n, n2, tt = this.t.get(true);
switch (tt) {
case FUNCTION:
n = this.FunctionDefinition(false, EXPRESSED_FORM);
break;
case LEFT_BRACKET:
n = this.newNode({ type: ARRAY_INIT });
while ((tt = this.peek(true)) !== RIGHT_BRACKET) {
if (tt === COMMA) {
this.t.get();
n.push(null);
continue;
}
n.push(this.AssignExpression());
if (tt !== COMMA && !this.match(COMMA))
break;
}
// If we matched exactly one element and got a FOR, we have an
// array comprehension.
if (n.children.length === 1 && this.match(FOR)) {
n2 = this.newNode({ type: ARRAY_COMP,
expression: n.children[0],
tail: this.ComprehensionTail() });
n = n2;
}
this.mustMatch(RIGHT_BRACKET);
break;
case LEFT_CURLY:
var id, fd;
n = this.newNode({ type: OBJECT_INIT });
object_init:
if (!this.match(RIGHT_CURLY)) {
do {
tt = this.t.get();
if ((this.t.token.value === "get" || this.t.token.value === "set") &&
this.peek() === IDENTIFIER) {
n.push(this.FunctionDefinition(true, EXPRESSED_FORM));
} else {
var comments = this.t.blockComments;
switch (tt) {
case IDENTIFIER: case NUMBER: case STRING:
id = this.newNode({ type: IDENTIFIER });
break;
case RIGHT_CURLY:
break object_init;
default:
if (this.t.token.value in definitions.keywords) {
id = this.newNode({ type: IDENTIFIER });
break;
}
this.fail("Invalid property name");
}
if (this.match(COLON)) {
n2 = this.newNode({ type: PROPERTY_INIT });
n2.push(id);
n2.push(this.AssignExpression());
n2.blockComments = comments;
n.push(n2);
} else {
// Support, e.g., |var {x, y} = o| as destructuring shorthand
// for |var {x: x, y: y} = o|, per proposed JS2/ES4 for JS1.8.
if (this.peek() !== COMMA && this.peek() !== RIGHT_CURLY)
this.fail("missing : after property");
n.push(id);
}
}
} while (this.match(COMMA));
this.mustMatch(RIGHT_CURLY);
}
break;
case LEFT_PAREN:
n = this.ParenExpression();
this.mustMatch(RIGHT_PAREN);
n.parenthesized = true;
break;
case LET:
n = this.LetBlock(false);
break;
case NULL: case THIS: case TRUE: case FALSE:
case IDENTIFIER: case NUMBER: case STRING: case REGEXP:
n = this.newNode();
break;
default:
this.fail("missing operand; found " + definitions.tokens[tt]);
break;
}
return n;
}
/*
* parse :: (source, filename, line number) -> node
*/
function parse(s, f, l) {
var t = new Tokenizer(s, f, l, options.allowHTMLComments);
var p = new Parser(t);
return p.Script(false, false, true);
}
/*
* parseFunction :: (source, boolean,
* DECLARED_FORM or EXPRESSED_FORM or STATEMENT_FORM,
* filename, line number)
* -> node
*/
function parseFunction(s, requireName, form, f, l) {
var t = new Tokenizer(s, f, l);
var p = new Parser(t);
p.x = new StaticContext(null, null, false, false, false);
return p.FunctionDefinition(requireName, form);
}
/*
* parseStdin :: (source, {line number}, string, (string) -> boolean) -> program node
*/
function parseStdin(s, ln, prefix, isCommand) {
// the special .begin command is only recognized at the beginning
if (s.match(/^[\s]*\.begin[\s]*$/)) {
++ln.value;
return parseMultiline(ln, prefix);
}
// commands at the beginning are treated as the entire input
if (isCommand(s.trim()))
s = "";
for (;;) {
try {
var t = new Tokenizer(s, "stdin", ln.value, false);
var p = new Parser(t);
var n = p.Script(false, false);
ln.value = t.lineno;
return n;
} catch (e) {
if (!p.unexpectedEOF)
throw e;
// commands in the middle are not treated as part of the input
var more;
do {
if (prefix)
putstr(prefix);
more = readline();
if (!more)
throw e;
} while (isCommand(more.trim()));
s += "\n" + more;
}
}
}
/*
* parseMultiline :: ({line number}, string | null) -> program node
*/
function parseMultiline(ln, prefix) {
var s = "";
for (;;) {
if (prefix)
putstr(prefix);
var more = readline();
if (more === null)
return null;
// the only command recognized in multiline mode is .end
if (more.match(/^[\s]*\.end[\s]*$/))
break;
s += "\n" + more;
}
var t = new Tokenizer(s, "stdin", ln.value, false);
var p = new Parser(t);
var n = p.Script(false, false);
ln.value = t.lineno;
return n;
}
exports.parse = parse;
exports.parseStdin = parseStdin;
exports.parseFunction = parseFunction;
exports.Node = Node;
exports.DECLARED_FORM = DECLARED_FORM;
exports.EXPRESSED_FORM = EXPRESSED_FORM;
exports.STATEMENT_FORM = STATEMENT_FORM;
exports.Tokenizer = Tokenizer;
exports.Parser = Parser;
exports.Module = Module;
exports.Export = Export;
});
/*
* Narcissus - JS implemented in JS.
*
* Lexical scanner.
*/
define('ace/narcissus/lexer', ['require', 'exports', 'module' , 'ace/narcissus/definitions'], function(require, exports, module) {
var definitions = require('./definitions');
// Set constants in the local scope.
eval(definitions.consts);
// Build up a trie of operator tokens.
var opTokens = {};
for (var op in definitions.opTypeNames) {
if (op === '\n' || op === '.')
continue;
var node = opTokens;
for (var i = 0; i < op.length; i++) {
var ch = op[i];
if (!(ch in node))
node[ch] = {};
node = node[ch];
node.op = op;
}
}
/*
* Since JavaScript provides no convenient way to determine if a
* character is in a particular Unicode category, we use
* metacircularity to accomplish this (oh yeaaaah!)
*/
function isValidIdentifierChar(ch, first) {
// check directly for ASCII
if (ch <= "\u007F") {
if ((ch >= 'a' && ch <= 'z') || (ch >= 'A' && ch <= 'Z') || ch === '$' || ch === '_' ||
(!first && (ch >= '0' && ch <= '9'))) {
return true;
}
return false;
}
// create an object to test this in
var x = {};
x["x"+ch] = true;
x[ch] = true;
// then use eval to determine if it's a valid character
var valid = false;
try {
valid = (Function("x", "return (x." + (first?"":"x") + ch + ");")(x) === true);
} catch (ex) {}
return valid;
}
function isIdentifier(str) {
if (typeof str !== "string")
return false;
if (str.length === 0)
return false;
if (!isValidIdentifierChar(str[0], true))
return false;
for (var i = 1; i < str.length; i++) {
if (!isValidIdentifierChar(str[i], false))
return false;
}
return true;
}
/*
* Tokenizer :: (source, filename, line number, boolean) -> Tokenizer
*/
function Tokenizer(s, f, l, allowHTMLComments) {
this.cursor = 0;
this.source = String(s);
this.tokens = [];
this.tokenIndex = 0;
this.lookahead = 0;
this.scanNewlines = false;
this.filename = f || "";
this.lineno = l || 1;
this.allowHTMLComments = allowHTMLComments;
this.blockComments = null;
}
Tokenizer.prototype = {
get done() {
// We need to set scanOperand to true here because the first thing
// might be a regexp.
return this.peek(true) === END;
},
get token() {
return this.tokens[this.tokenIndex];
},
match: function (tt, scanOperand, keywordIsName) {
return this.get(scanOperand, keywordIsName) === tt || this.unget();
},
mustMatch: function (tt, keywordIsName) {
if (!this.match(tt, false, keywordIsName)) {
throw this.newSyntaxError("Missing " +
definitions.tokens[tt].toLowerCase());
}
return this.token;
},
peek: function (scanOperand) {
var tt, next;
if (this.lookahead) {
next = this.tokens[(this.tokenIndex + this.lookahead) & 3];
tt = (this.scanNewlines && next.lineno !== this.lineno)
? NEWLINE
: next.type;
} else {
tt = this.get(scanOperand);
this.unget();
}
return tt;
},
peekOnSameLine: function (scanOperand) {
this.scanNewlines = true;
var tt = this.peek(scanOperand);
this.scanNewlines = false;
return tt;
},
lastBlockComment: function() {
var length = this.blockComments.length;
return length ? this.blockComments[length - 1] : null;
},
// Eat comments and whitespace.
skip: function () {
var input = this.source;
this.blockComments = [];
for (;;) {
var ch = input[this.cursor++];
var next = input[this.cursor];
// handle \r, \r\n and (always preferable) \n
if (ch === '\r') {
// if the next character is \n, we don't care about this at all
if (next === '\n') continue;
// otherwise, we want to consider this as a newline
ch = '\n';
}
if (ch === '\n' && !this.scanNewlines) {
this.lineno++;
} else if (ch === '/' && next === '*') {
var commentStart = ++this.cursor;
for (;;) {
ch = input[this.cursor++];
if (ch === undefined)
throw this.newSyntaxError("Unterminated comment");
if (ch === '*') {
next = input[this.cursor];
if (next === '/') {
var commentEnd = this.cursor - 1;
this.cursor++;
break;
}
} else if (ch === '\n') {
this.lineno++;
}
}
this.blockComments.push(input.substring(commentStart, commentEnd));
} else if ((ch === '/' && next === '/') ||
(this.allowHTMLComments && ch === '<' && next === '!' &&
input[this.cursor + 1] === '-' && input[this.cursor + 2] === '-' &&
(this.cursor += 2))) {
this.cursor++;
for (;;) {
ch = input[this.cursor++];
next = input[this.cursor];
if (ch === undefined)
return;
if (ch === '\r') {
// check for \r\n
if (next !== '\n') ch = '\n';
}
if (ch === '\n') {
if (this.scanNewlines) {
this.cursor--;
} else {
this.lineno++;
}
break;
}
}
} else if (!(ch in definitions.whitespace)) {
this.cursor--;
return;
}
}
},
// Lex the exponential part of a number, if present. Return true iff an
// exponential part was found.
lexExponent: function() {
var input = this.source;
var next = input[this.cursor];
if (next === 'e' || next === 'E') {
this.cursor++;
ch = input[this.cursor++];
if (ch === '+' || ch === '-')
ch = input[this.cursor++];
if (ch < '0' || ch > '9')
throw this.newSyntaxError("Missing exponent");
do {
ch = input[this.cursor++];
} while (ch >= '0' && ch <= '9');
this.cursor--;
return true;
}
return false;
},
lexZeroNumber: function (ch) {
var token = this.token, input = this.source;
token.type = NUMBER;
ch = input[this.cursor++];
if (ch === '.') {
do {
ch = input[this.cursor++];
} while (ch >= '0' && ch <= '9');
this.cursor--;
this.lexExponent();
token.value = parseFloat(
input.substring(token.start, this.cursor));
} else if (ch === 'x' || ch === 'X') {
do {
ch = input[this.cursor++];
} while ((ch >= '0' && ch <= '9') || (ch >= 'a' && ch <= 'f') ||
(ch >= 'A' && ch <= 'F'));
this.cursor--;
token.value = parseInt(input.substring(token.start, this.cursor));
} else if (ch >= '0' && ch <= '7') {
do {
ch = input[this.cursor++];
} while (ch >= '0' && ch <= '7');
this.cursor--;
token.value = parseInt(input.substring(token.start, this.cursor));
} else {
this.cursor--;
this.lexExponent(); // 0E1, &c.
token.value = 0;
}
},
lexNumber: function (ch) {
var token = this.token, input = this.source;
token.type = NUMBER;
var floating = false;
do {
ch = input[this.cursor++];
if (ch === '.' && !floating) {
floating = true;
ch = input[this.cursor++];
}
} while (ch >= '0' && ch <= '9');
this.cursor--;
var exponent = this.lexExponent();
floating = floating || exponent;
var str = input.substring(token.start, this.cursor);
token.value = floating ? parseFloat(str) : parseInt(str);
},
lexDot: function (ch) {
var token = this.token, input = this.source;
var next = input[this.cursor];
if (next >= '0' && next <= '9') {
do {
ch = input[this.cursor++];
} while (ch >= '0' && ch <= '9');
this.cursor--;
this.lexExponent();
token.type = NUMBER;
token.value = parseFloat(
input.substring(token.start, this.cursor));
} else {
token.type = DOT;
token.assignOp = null;
token.value = '.';
}
},
lexString: function (ch) {
var token = this.token, input = this.source;
token.type = STRING;
var hasEscapes = false;
var delim = ch;
if (input.length <= this.cursor)
throw this.newSyntaxError("Unterminated string literal");
while ((ch = input[this.cursor++]) !== delim) {
if (ch == '\n' || ch == '\r')
throw this.newSyntaxError("Unterminated string literal");
if (this.cursor == input.length)
throw this.newSyntaxError("Unterminated string literal");
if (ch === '\\') {
hasEscapes = true;
if (++this.cursor == input.length)
throw this.newSyntaxError("Unterminated string literal");
}
}
token.value = hasEscapes
? eval(input.substring(token.start, this.cursor))
: input.substring(token.start + 1, this.cursor - 1);
},
lexRegExp: function (ch) {
var token = this.token, input = this.source;
token.type = REGEXP;
do {
ch = input[this.cursor++];
if (ch === '\\') {
this.cursor++;
} else if (ch === '[') {
do {
if (ch === undefined)
throw this.newSyntaxError("Unterminated character class");
if (ch === '\\')
this.cursor++;
ch = input[this.cursor++];
} while (ch !== ']');
} else if (ch === undefined) {
throw this.newSyntaxError("Unterminated regex");
}
} while (ch !== '/');
do {
ch = input[this.cursor++];
} while (ch >= 'a' && ch <= 'z');
this.cursor--;
token.value = eval(input.substring(token.start, this.cursor));
},
lexOp: function (ch) {
var token = this.token, input = this.source;
// A bit ugly, but it seems wasteful to write a trie lookup routine
// for only 3 characters...
var node = opTokens[ch];
var next = input[this.cursor];
if (next in node) {
node = node[next];
this.cursor++;
next = input[this.cursor];
if (next in node) {
node = node[next];
this.cursor++;
next = input[this.cursor];
}
}
var op = node.op;
if (definitions.assignOps[op] && input[this.cursor] === '=') {
this.cursor++;
token.type = ASSIGN;
token.assignOp = definitions.tokenIds[definitions.opTypeNames[op]];
op += '=';
} else {
token.type = definitions.tokenIds[definitions.opTypeNames[op]];
token.assignOp = null;
}
token.value = op;
},
// FIXME: Unicode escape sequences
lexIdent: function (ch, keywordIsName) {
var token = this.token;
var id = ch;
while ((ch = this.getValidIdentifierChar(false)) !== null) {
id += ch;
}
token.type = IDENTIFIER;
token.value = id;
if (keywordIsName)
return;
var kw;
if (this.parser.mozillaMode) {
kw = definitions.mozillaKeywords[id];
if (kw) {
token.type = kw;
return;
}
}
if (this.parser.x.strictMode) {
kw = definitions.strictKeywords[id];
if (kw) {
token.type = kw;
return;
}
}
kw = definitions.keywords[id];
if (kw)
token.type = kw;
},
/*
* Tokenizer.get :: ([boolean[, boolean]]) -> token type
*
* Consume input *only* if there is no lookahead.
* Dispatch to the appropriate lexing function depending on the input.
*/
get: function (scanOperand, keywordIsName) {
var token;
while (this.lookahead) {
--this.lookahead;
this.tokenIndex = (this.tokenIndex + 1) & 3;
token = this.tokens[this.tokenIndex];
if (token.type !== NEWLINE || this.scanNewlines)
return token.type;
}
this.skip();
this.tokenIndex = (this.tokenIndex + 1) & 3;
token = this.tokens[this.tokenIndex];
if (!token)
this.tokens[this.tokenIndex] = token = {};
var input = this.source;
if (this.cursor >= input.length)
return token.type = END;
token.start = this.cursor;
token.lineno = this.lineno;
var ich = this.getValidIdentifierChar(true);
var ch = (ich === null) ? input[this.cursor++] : null;
if (ich !== null) {
this.lexIdent(ich, keywordIsName);
} else if (scanOperand && ch === '/') {
this.lexRegExp(ch);
} else if (ch in opTokens) {
this.lexOp(ch);
} else if (ch === '.') {
this.lexDot(ch);
} else if (ch >= '1' && ch <= '9') {
this.lexNumber(ch);
} else if (ch === '0') {
this.lexZeroNumber(ch);
} else if (ch === '"' || ch === "'") {
this.lexString(ch);
} else if (this.scanNewlines && (ch === '\n' || ch === '\r')) {
// if this was a \r, look for \r\n
if (ch === '\r' && input[this.cursor] === '\n') this.cursor++;
token.type = NEWLINE;
token.value = '\n';
this.lineno++;
} else {
throw this.newSyntaxError("Illegal token");
}
token.end = this.cursor;
return token.type;
},
/*
* Tokenizer.unget :: void -> undefined
*
* Match depends on unget returning undefined.
*/
unget: function () {
if (++this.lookahead === 4) throw "PANIC: too much lookahead!";
this.tokenIndex = (this.tokenIndex - 1) & 3;
},
newSyntaxError: function (m) {
m = (this.filename ? this.filename + ":" : "") + this.lineno + ": " + m;
var e = new SyntaxError(m, this.filename, this.lineno);
e.source = this.source;
e.cursor = this.lookahead
? this.tokens[(this.tokenIndex + this.lookahead) & 3].start
: this.cursor;
return e;
},
/* Gets a single valid identifier char from the input stream, or null
* if there is none.
*/
getValidIdentifierChar: function(first) {
var input = this.source;
if (this.cursor >= input.length) return null;
var ch = input[this.cursor];
// first check for \u escapes
if (ch === '\\' && input[this.cursor+1] === 'u') {
// get the character value
try {
ch = String.fromCharCode(parseInt(
input.substring(this.cursor + 2, this.cursor + 6),
16));
} catch (ex) {
return null;
}
this.cursor += 5;
}
var valid = isValidIdentifierChar(ch, first);
if (valid) this.cursor++;
return (valid ? ch : null);
},
};
exports.isIdentifier = isIdentifier;
exports.Tokenizer = Tokenizer;
});
/*
* Narcissus - JS implemented in JS.
*
* Well-known constants and lookup tables. Many consts are generated from the
* tokens table via eval to minimize redundancy, so consumers must be compiled
* separately to take advantage of the simple switch-case constant propagation
* done by SpiderMonkey.
*/
define('ace/narcissus/definitions', ['require', 'exports', 'module' ], function(require, exports, module) {
var tokens = [
// End of source.
"END",
// Operators and punctuators. Some pair-wise order matters, e.g. (+, -)
// and (UNARY_PLUS, UNARY_MINUS).
"\n", ";",
",",
"=",
"?", ":", "CONDITIONAL",
"||",
"&&",
"|",
"^",
"&",
"==", "!=", "===", "!==",
"<", "<=", ">=", ">",
"<<", ">>", ">>>",
"+", "-",
"*", "/", "%",
"!", "~", "UNARY_PLUS", "UNARY_MINUS",
"++", "--",
".",
"[", "]",
"{", "}",
"(", ")",
// Nonterminal tree node type codes.
"SCRIPT", "BLOCK", "LABEL", "FOR_IN", "CALL", "NEW_WITH_ARGS", "INDEX",
"ARRAY_INIT", "OBJECT_INIT", "PROPERTY_INIT", "GETTER", "SETTER",
"GROUP", "LIST", "LET_BLOCK", "ARRAY_COMP", "GENERATOR", "COMP_TAIL",
// Contextual keywords.
"IMPLEMENTS", "INTERFACE", "LET", "MODULE", "PACKAGE", "PRIVATE",
"PROTECTED", "PUBLIC", "STATIC", "USE", "YIELD",
// Terminals.
"IDENTIFIER", "NUMBER", "STRING", "REGEXP",
// Keywords.
"break",
"case", "catch", "const", "continue",
"debugger", "default", "delete", "do",
"else", "export",
"false", "finally", "for", "function",
"if", "import", "in", "instanceof",
"new", "null",
"return",
"switch",
"this", "throw", "true", "try", "typeof",
"var", "void",
"while", "with",
];
var strictKeywords = {
__proto__: null,
"implements": true,
"interface": true,
"let": true,
//"module": true,
"package": true,
"private": true,
"protected": true,
"public": true,
"static": true,
"use": true,
"yield": true
};
var statementStartTokens = [
"break",
"const", "continue",
"debugger", "do",
"for",
"if",
"let",
"return",
"switch",
"throw", "try",
"var",
"yield",
"while", "with",
];
// Whitespace characters (see ECMA-262 7.2)
var whitespaceChars = [
// normal whitespace:
"\u0009", "\u000B", "\u000C", "\u0020", "\u00A0", "\uFEFF",
// high-Unicode whitespace:
"\u1680", "\u180E",
"\u2000", "\u2001", "\u2002", "\u2003", "\u2004", "\u2005", "\u2006",
"\u2007", "\u2008", "\u2009", "\u200A",
"\u202F", "\u205F", "\u3000"
];
var whitespace = {};
for (var i = 0; i < whitespaceChars.length; i++) {
whitespace[whitespaceChars[i]] = true;
}
// Operator and punctuator mapping from token to tree node type name.
// NB: because the lexer doesn't backtrack, all token prefixes must themselves
// be valid tokens (e.g. !== is acceptable because its prefixes are the valid
// tokens != and !).
var opTypeNames = {
'\n': "NEWLINE",
';': "SEMICOLON",
',': "COMMA",
'?': "HOOK",
':': "COLON",
'||': "OR",
'&&': "AND",
'|': "BITWISE_OR",
'^': "BITWISE_XOR",
'&': "BITWISE_AND",
'===': "STRICT_EQ",
'==': "EQ",
'=': "ASSIGN",
'!==': "STRICT_NE",
'!=': "NE",
'<<': "LSH",
'<=': "LE",
'<': "LT",
'>>>': "URSH",
'>>': "RSH",
'>=': "GE",
'>': "GT",
'++': "INCREMENT",
'--': "DECREMENT",
'+': "PLUS",
'-': "MINUS",
'*': "MUL",
'/': "DIV",
'%': "MOD",
'!': "NOT",
'~': "BITWISE_NOT",
'.': "DOT",
'[': "LEFT_BRACKET",
']': "RIGHT_BRACKET",
'{': "LEFT_CURLY",
'}': "RIGHT_CURLY",
'(': "LEFT_PAREN",
')': "RIGHT_PAREN"
};
// Hash of keyword identifier to tokens index. NB: we must null __proto__ to
// avoid toString, etc. namespace pollution.
var keywords = {__proto__: null};
var mozillaKeywords = {__proto__: null};
// Define const END, etc., based on the token names. Also map name to index.
var tokenIds = {};
var hostSupportsEvalConst = (function() {
try {
return eval("(function(s) { eval(s); return x })('const x = true;')");
} catch (e) {
return false;
}
})();
// Building up a string to be eval'd in different contexts.
var consts = hostSupportsEvalConst ? "const " : "var ";
for (var i = 0, j = tokens.length; i < j; i++) {
if (i > 0)
consts += ", ";
var t = tokens[i];
var name;
if (/^[a-z]/.test(t)) {
name = t.toUpperCase();
if (name === "LET" || name === "YIELD")
mozillaKeywords[name] = i;
if (strictKeywords[name])
strictKeywords[name] = i;
keywords[t] = i;
} else {
name = (/^\W/.test(t) ? opTypeNames[t] : t);
}
consts += name + " = " + i;
tokenIds[name] = i;
tokens[t] = i;
}
consts += ";";
var isStatementStartCode = {__proto__: null};
for (i = 0, j = statementStartTokens.length; i < j; i++)
isStatementStartCode[keywords[statementStartTokens[i]]] = true;
// Map assignment operators to their indexes in the tokens array.
var assignOps = ['|', '^', '&', '<<', '>>', '>>>', '+', '-', '*', '/', '%'];
for (i = 0, j = assignOps.length; i < j; i++) {
t = assignOps[i];
assignOps[t] = tokens[t];
}
function defineGetter(obj, prop, fn, dontDelete, dontEnum) {
Object.defineProperty(obj, prop,
{ get: fn, configurable: !dontDelete, enumerable: !dontEnum });
}
function defineGetterSetter(obj, prop, getter, setter, dontDelete, dontEnum) {
Object.defineProperty(obj, prop, {
get: getter,
set: setter,
configurable: !dontDelete,
enumerable: !dontEnum
});
}
function defineMemoGetter(obj, prop, fn, dontDelete, dontEnum) {
Object.defineProperty(obj, prop, {
get: function() {
var val = fn();
defineProperty(obj, prop, val, dontDelete, true, dontEnum);
return val;
},
configurable: true,
enumerable: !dontEnum
});
}
function defineProperty(obj, prop, val, dontDelete, readOnly, dontEnum) {
Object.defineProperty(obj, prop,
{ value: val, writable: !readOnly, configurable: !dontDelete,
enumerable: !dontEnum });
}
// Returns true if fn is a native function. (Note: SpiderMonkey specific.)
function isNativeCode(fn) {
// Relies on the toString method to identify native code.
return ((typeof fn) === "function") && fn.toString().match(/\[native code\]/);
}
var Fpapply = Function.prototype.apply;
function apply(f, o, a) {
return Fpapply.call(f, [o].concat(a));
}
var applyNew;
// ES5's bind is a simpler way to implement applyNew
if (Function.prototype.bind) {
applyNew = function applyNew(f, a) {
return new (f.bind.apply(f, [,].concat(Array.prototype.slice.call(a))))();
};
} else {
applyNew = function applyNew(f, a) {
switch (a.length) {
case 0:
return new f();
case 1:
return new f(a[0]);
case 2:
return new f(a[0], a[1]);
case 3:
return new f(a[0], a[1], a[2]);
default:
var argStr = "a[0]";
for (var i = 1, n = a.length; i < n; i++)
argStr += ",a[" + i + "]";
return eval("new f(" + argStr + ")");
}
};
}
function getPropertyDescriptor(obj, name) {
while (obj) {
if (({}).hasOwnProperty.call(obj, name))
return Object.getOwnPropertyDescriptor(obj, name);
obj = Object.getPrototypeOf(obj);
}
}
function getPropertyNames(obj) {
var table = Object.create(null, {});
while (obj) {
var names = Object.getOwnPropertyNames(obj);
for (var i = 0, n = names.length; i < n; i++)
table[names[i]] = true;
obj = Object.getPrototypeOf(obj);
}
return Object.keys(table);
}
function getOwnProperties(obj) {
var map = {};
for (var name in Object.getOwnPropertyNames(obj))
map[name] = Object.getOwnPropertyDescriptor(obj, name);
return map;
}
function blacklistHandler(target, blacklist) {
var mask = Object.create(null, {});
var redirect = Dict.create(blacklist).mapObject(function(name) { return mask; });
return mixinHandler(redirect, target);
}
function whitelistHandler(target, whitelist) {
var catchall = Object.create(null, {});
var redirect = Dict.create(whitelist).mapObject(function(name) { return target; });
return mixinHandler(redirect, catchall);
}
/*
* Mixin proxies break the single-inheritance model of prototypes, so
* the handler treats all properties as own-properties:
*
* X
* |
* +------------+------------+
* | O |
* | | |
* | O O O |
* | | | | |
* | O O O O |
* | | | | | |
* | O O O O O |
* | | | | | | |
* +-(*)--(w)--(x)--(y)--(z)-+
*/
function mixinHandler(redirect, catchall) {
function targetFor(name) {
return hasOwn(redirect, name) ? redirect[name] : catchall;
}
function getMuxPropertyDescriptor(name) {
var desc = getPropertyDescriptor(targetFor(name), name);
if (desc)
desc.configurable = true;
return desc;
}
function getMuxPropertyNames() {
var names1 = Object.getOwnPropertyNames(redirect).filter(function(name) {
return name in redirect[name];
});
var names2 = getPropertyNames(catchall).filter(function(name) {
return !hasOwn(redirect, name);
});
return names1.concat(names2);
}
function enumerateMux() {
var result = Object.getOwnPropertyNames(redirect).filter(function(name) {
return name in redirect[name];
});
for (name in catchall) {
if (!hasOwn(redirect, name))
result.push(name);
};
return result;
}
function hasMux(name) {
return name in targetFor(name);
}
return {
getOwnPropertyDescriptor: getMuxPropertyDescriptor,
getPropertyDescriptor: getMuxPropertyDescriptor,
getOwnPropertyNames: getMuxPropertyNames,
defineProperty: function(name, desc) {
Object.defineProperty(targetFor(name), name, desc);
},
"delete": function(name) {
var target = targetFor(name);
return delete target[name];
},
// FIXME: ha ha ha
fix: function() { },
has: hasMux,
hasOwn: hasMux,
get: function(receiver, name) {
var target = targetFor(name);
return target[name];
},
set: function(receiver, name, val) {
var target = targetFor(name);
target[name] = val;
return true;
},
enumerate: enumerateMux,
keys: enumerateMux
};
}
function makePassthruHandler(obj) {
// Handler copied from
// http://wiki.ecmascript.org/doku.php?id=harmony:proxies&s=proxy%20object#examplea_no-op_forwarding_proxy
return {
getOwnPropertyDescriptor: function(name) {
var desc = Object.getOwnPropertyDescriptor(obj, name);
// a trapping proxy's properties must always be configurable
desc.configurable = true;
return desc;
},
getPropertyDescriptor: function(name) {
var desc = getPropertyDescriptor(obj, name);
// a trapping proxy's properties must always be configurable
desc.configurable = true;
return desc;
},
getOwnPropertyNames: function() {
return Object.getOwnPropertyNames(obj);
},
defineProperty: function(name, desc) {
Object.defineProperty(obj, name, desc);
},
"delete": function(name) { return delete obj[name]; },
fix: function() {
if (Object.isFrozen(obj)) {
return getOwnProperties(obj);
}
// As long as obj is not frozen, the proxy won't allow itself to be fixed.
return undefined; // will cause a TypeError to be thrown
},
has: function(name) { return name in obj; },
hasOwn: function(name) { return ({}).hasOwnProperty.call(obj, name); },
get: function(receiver, name) { return obj[name]; },
// bad behavior when set fails in non-strict mode
set: function(receiver, name, val) { obj[name] = val; return true; },
enumerate: function() {
var result = [];
for (name in obj) { result.push(name); };
return result;
},
keys: function() { return Object.keys(obj); }
};
}
var hasOwnProperty = ({}).hasOwnProperty;
function hasOwn(obj, name) {
return hasOwnProperty.call(obj, name);
}
function Dict(table, size) {
this.table = table || Object.create(null, {});
this.size = size || 0;
}
Dict.create = function(table) {
var init = Object.create(null, {});
var size = 0;
var names = Object.getOwnPropertyNames(table);
for (var i = 0, n = names.length; i < n; i++) {
var name = names[i];
init[name] = table[name];
size++;
}
return new Dict(init, size);
};
Dict.prototype = {
has: function(x) { return hasOwnProperty.call(this.table, x); },
set: function(x, v) {
if (!hasOwnProperty.call(this.table, x))
this.size++;
this.table[x] = v;
},
get: function(x) { return this.table[x]; },
getDef: function(x, thunk) {
if (!hasOwnProperty.call(this.table, x)) {
this.size++;
this.table[x] = thunk();
}
return this.table[x];
},
forEach: function(f) {
var table = this.table;
for (var key in table)
f.call(this, key, table[key]);
},
map: function(f) {
var table1 = this.table;
var table2 = Object.create(null, {});
this.forEach(function(key, val) {
table2[key] = f.call(this, val, key);
});
return new Dict(table2, this.size);
},
mapObject: function(f) {
var table1 = this.table;
var table2 = Object.create(null, {});
this.forEach(function(key, val) {
table2[key] = f.call(this, val, key);
});
return table2;
},
toObject: function() {
return this.mapObject(function(val) { return val; });
},
choose: function() {
return Object.getOwnPropertyNames(this.table)[0];
},
remove: function(x) {
if (hasOwnProperty.call(this.table, x)) {
this.size--;
delete this.table[x];
}
},
copy: function() {
var table = Object.create(null, {});
for (var key in this.table)
table[key] = this.table[key];
return new Dict(table, this.size);
},
keys: function() {
return Object.keys(this.table);
},
toString: function() { return "[object Dict]" }
};
var _WeakMap = typeof WeakMap === "function" ? WeakMap : (function() {
// shim for ES6 WeakMap with poor asymptotics
function WeakMap(array) {
this.array = array || [];
}
function searchMap(map, key, found, notFound) {
var a = map.array;
for (var i = 0, n = a.length; i < n; i++) {
var pair = a[i];
if (pair.key === key)
return found(pair, i);
}
return notFound();
}
WeakMap.prototype = {
has: function(x) {
return searchMap(this, x, function() { return true }, function() { return false });
},
set: function(x, v) {
var a = this.array;
searchMap(this, x,
function(pair) { pair.value = v },
function() { a.push({ key: x, value: v }) });
},
get: function(x) {
return searchMap(this, x,
function(pair) { return pair.value },
function() { return null });
},
"delete": function(x) {
var a = this.array;
searchMap(this, x,
function(pair, i) { a.splice(i, 1) },
function() { });
},
toString: function() { return "[object WeakMap]" }
};
return WeakMap;
})();
// non-destructive stack
function Stack(elts) {
this.elts = elts || null;
}
Stack.prototype = {
push: function(x) {
return new Stack({ top: x, rest: this.elts });
},
top: function() {
if (!this.elts)
throw new Error("empty stack");
return this.elts.top;
},
isEmpty: function() {
return this.top === null;
},
find: function(test) {
for (var elts = this.elts; elts; elts = elts.rest) {
if (test(elts.top))
return elts.top;
}
return null;
},
has: function(x) {
return Boolean(this.find(function(elt) { return elt === x }));
},
forEach: function(f) {
for (var elts = this.elts; elts; elts = elts.rest) {
f(elts.top);
}
}
};
if (!Array.prototype.copy) {
defineProperty(Array.prototype, "copy",
function() {
var result = [];
for (var i = 0, n = this.length; i < n; i++)
result[i] = this[i];
return result;
}, false, false, true);
}
if (!Array.prototype.top) {
defineProperty(Array.prototype, "top",
function() {
return this.length && this[this.length-1];
}, false, false, true);
}
exports.tokens = tokens;
exports.whitespace = whitespace;
exports.opTypeNames = opTypeNames;
exports.keywords = keywords;
exports.mozillaKeywords = mozillaKeywords;
exports.strictKeywords = strictKeywords;
exports.isStatementStartCode = isStatementStartCode;
exports.tokenIds = tokenIds;
exports.consts = consts;
exports.assignOps = assignOps;
exports.defineGetter = defineGetter;
exports.defineGetterSetter = defineGetterSetter;
exports.defineMemoGetter = defineMemoGetter;
exports.defineProperty = defineProperty;
exports.isNativeCode = isNativeCode;
exports.apply = apply;
exports.applyNew = applyNew;
exports.mixinHandler = mixinHandler;
exports.whitelistHandler = whitelistHandler;
exports.blacklistHandler = blacklistHandler;
exports.makePassthruHandler = makePassthruHandler;
exports.Dict = Dict;
exports.WeakMap = _WeakMap;
exports.Stack = Stack;
});
define('ace/narcissus/options', ['require', 'exports', 'module' ], function(require, exports, module) {
// Global variables to hide from the interpreter
exports.hiddenHostGlobals = { Narcissus: true };
// Desugar SpiderMonkey language extensions?
exports.desugarExtensions = false;
// Allow HTML comments?
exports.allowHTMLComments = false;
// Allow non-standard Mozilla extensions?
exports.mozillaMode = true;
// Allow experimental paren-free mode?
exports.parenFreeMode = false;
});