"no use strict"; var console = { log: function(msg) { postMessage({type: "log", data: msg}); } }; 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) { var id = normalizeModule(parentId, id); var module = require.modules[id]; if (module) { if (!module.initialized) { module.exports = module.factory().exports; module.initialized = true; } 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; } 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 // 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; e = e || {}; 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= 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.$split(text); var firstLine = lines.splice(0, 1)[0]; var lastLine = lines.length == 0 ? null : lines.splice(lines.length - 1, 1)[0]; position = this.insertInLine(position, firstLine); if (lastLine !== null) { position = this.insertNewLine(position); // terminate first line position = this.insertLines(position.row, lines); position = this.insertInLine(position, lastLine || ""); } return position; }; this.insertLines = function(row, lines) { if (lines.length == 0) return {row: row, column: 0}; // apply doesn't work for big arrays (smallest threshold is on safari 0xFFFF) // to circumvent that we have to break huge inserts into smaller chunks here if (lines.length > 0xFFFF) { var end = this.insertLines(row, lines.slice(0xFFFF)); lines = lines.slice(0, 0xFFFF); } var args = [row, 0]; args.push.apply(args, lines); this.$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=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:
* * `0` if the two points are exactly equal
* * `-1` if `p.row` is less then the calling range
* * `1` if `p.row` is greater than the calling range
*
* If the starting row of the calling range is equal to `p.row`, and:
* * `p.column` is greater than or equal to the calling range's starting column, this returns `0`
* * Otherwise, it returns -1
*
* If the ending row of the calling range is equal to `p.row`, and:
* * `p.column` is less than or equal to the calling range's ending column, this returns `0`
* * Otherwise, it returns 1
* * 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:
* * `0` if the two points are exactly equal
* * `-1` if `p.row` is less then the calling range
* * `1` if `p.row` is greater than the calling range
*
* If the starting row of the calling range is equal to `p.row`, and:
* * `p.column` is greater than or equal to the calling range's starting column, this returns `0`
* * Otherwise, it returns -1
*
* If the ending row of the calling range is equal to `p.row`, and:
* * `p.column` is less than or equal to the calling range's ending column, this returns `0`
* * 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:
* * `0` if the two points are exactly equal
* * `-1` if `p.row` is less then the calling range
* * `1` if `p.row` is greater than the calling range, or if `isEnd` is `true.
*
* If the starting row of the calling range is equal to `p.row`, and:
* * `p.column` is greater than or equal to the calling range's starting column, this returns `0`
* * Otherwise, it returns -1
*
* If the ending row of the calling range is equal to `p.row`, and:
* * `p.column` is less than or equal to the calling range's ending column, this returns `0`
* * 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:
* * `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`
* * `-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`
*
* 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= 0 && this._ltIndex < this._lt.length){ i++; this._token = this._lt[this._ltIndex++]; info = tokenInfo[this._token.type]; //obey channels logic while((info.channel !== undefined && channel !== info.channel) && this._ltIndex < this._lt.length){ this._token = this._lt[this._ltIndex++]; info = tokenInfo[this._token.type]; i++; } //here be dragons if ((info.channel === undefined || channel === info.channel) && this._ltIndex <= this._lt.length){ this._ltIndexCache.push(i); return this._token.type; } } //call token retriever method token = this._getToken(); //if it should be hidden, don't save a token if (token.type > -1 && !tokenInfo[token.type].hide){ //apply token channel token.channel = tokenInfo[token.type].channel; //save for later this._token = token; this._lt.push(token); //save space that will be moved (must be done before array is truncated) this._ltIndexCache.push(this._lt.length - this._ltIndex + i); //keep the buffer under 5 items if (this._lt.length > 5){ this._lt.shift(); } //also keep the shift buffer under 5 items if (this._ltIndexCache.length > 5){ this._ltIndexCache.shift(); } //update lookahead index this._ltIndex = this._lt.length; } /* * Skip to the next token if: * 1. The token type is marked as hidden. * 2. The token type has a channel specified and it isn't the current channel. */ info = tokenInfo[token.type]; if (info && (info.hide || (info.channel !== undefined && channel !== info.channel))){ return this.get(channel); } else { //return just the type return token.type; } }, /** * Looks ahead a certain number of tokens and returns the token type at * that position. This will throw an error if you lookahead past the * end of input, past the size of the lookahead buffer, or back past * the first token in the lookahead buffer. * @param {int} The index of the token type to retrieve. 0 for the * current token, 1 for the next, -1 for the previous, etc. * @return {int} The token type of the token in the given position. * @method LA */ LA: function(index){ var total = index, tt; if (index > 0){ //TODO: Store 5 somewhere if (index > 5){ throw new Error("Too much lookahead."); } //get all those tokens while(total){ tt = this.get(); total--; } //unget all those tokens while(total < index){ this.unget(); total++; } } else if (index < 0){ if(this._lt[this._ltIndex+index]){ tt = this._lt[this._ltIndex+index].type; } else { throw new Error("Too much lookbehind."); } } else { tt = this._token.type; } return tt; }, /** * Looks ahead a certain number of tokens and returns the token at * that position. This will throw an error if you lookahead past the * end of input, past the size of the lookahead buffer, or back past * the first token in the lookahead buffer. * @param {int} The index of the token type to retrieve. 0 for the * current token, 1 for the next, -1 for the previous, etc. * @return {Object} The token of the token in the given position. * @method LA */ LT: function(index){ //lookahead first to prime the token buffer this.LA(index); //now find the token, subtract one because _ltIndex is already at the next index return this._lt[this._ltIndex+index-1]; }, /** * Returns the token type for the next token in the stream without * consuming it. * @return {int} The token type of the next token in the stream. * @method peek */ peek: function(){ return this.LA(1); }, /** * Returns the actual token object for the last consumed token. * @return {Token} The token object for the last consumed token. * @method token */ token: function(){ return this._token; }, /** * Returns the name of the token for the given token type. * @param {int} tokenType The type of token to get the name of. * @return {String} The name of the token or "UNKNOWN_TOKEN" for any * invalid token type. * @method tokenName */ tokenName: function(tokenType){ if (tokenType < 0 || tokenType > this._tokenData.length){ return "UNKNOWN_TOKEN"; } else { return this._tokenData[tokenType].name; } }, /** * Returns the token type value for the given token name. * @param {String} tokenName The name of the token whose value should be returned. * @return {int} The token type value for the given token name or -1 * for an unknown token. * @method tokenName */ tokenType: function(tokenName){ return this._tokenData[tokenName] || -1; }, /** * Returns the last consumed token to the token stream. * @method unget */ unget: function(){ //if (this._ltIndex > -1){ if (this._ltIndexCache.length){ this._ltIndex -= this._ltIndexCache.pop();//--; this._token = this._lt[this._ltIndex - 1]; } else { throw new Error("Too much lookahead."); } } }; parserlib.util = { StringReader: StringReader, SyntaxError : SyntaxError, SyntaxUnit : SyntaxUnit, EventTarget : EventTarget, TokenStreamBase : TokenStreamBase }; })(); /* Version v0.1.6, Build time: 2-March-2012 02:44:32 */ (function(){ var EventTarget = parserlib.util.EventTarget, TokenStreamBase = parserlib.util.TokenStreamBase, StringReader = parserlib.util.StringReader, SyntaxError = parserlib.util.SyntaxError, SyntaxUnit = parserlib.util.SyntaxUnit; var Colors = { aliceblue :"#f0f8ff", antiquewhite :"#faebd7", aqua :"#00ffff", aquamarine :"#7fffd4", azure :"#f0ffff", beige :"#f5f5dc", bisque :"#ffe4c4", black :"#000000", blanchedalmond :"#ffebcd", blue :"#0000ff", blueviolet :"#8a2be2", brown :"#a52a2a", burlywood :"#deb887", cadetblue :"#5f9ea0", chartreuse :"#7fff00", chocolate :"#d2691e", coral :"#ff7f50", cornflowerblue :"#6495ed", cornsilk :"#fff8dc", crimson :"#dc143c", cyan :"#00ffff", darkblue :"#00008b", darkcyan :"#008b8b", darkgoldenrod :"#b8860b", darkgray :"#a9a9a9", darkgreen :"#006400", darkkhaki :"#bdb76b", darkmagenta :"#8b008b", darkolivegreen :"#556b2f", darkorange :"#ff8c00", darkorchid :"#9932cc", darkred :"#8b0000", darksalmon :"#e9967a", darkseagreen :"#8fbc8f", darkslateblue :"#483d8b", darkslategray :"#2f4f4f", darkturquoise :"#00ced1", darkviolet :"#9400d3", deeppink :"#ff1493", deepskyblue :"#00bfff", dimgray :"#696969", dodgerblue :"#1e90ff", firebrick :"#b22222", floralwhite :"#fffaf0", forestgreen :"#228b22", fuchsia :"#ff00ff", gainsboro :"#dcdcdc", ghostwhite :"#f8f8ff", gold :"#ffd700", goldenrod :"#daa520", gray :"#808080", green :"#008000", greenyellow :"#adff2f", honeydew :"#f0fff0", hotpink :"#ff69b4", indianred :"#cd5c5c", indigo :"#4b0082", ivory :"#fffff0", khaki :"#f0e68c", lavender :"#e6e6fa", lavenderblush :"#fff0f5", lawngreen :"#7cfc00", lemonchiffon :"#fffacd", lightblue :"#add8e6", lightcoral :"#f08080", lightcyan :"#e0ffff", lightgoldenrodyellow :"#fafad2", lightgray :"#d3d3d3", lightgreen :"#90ee90", lightpink :"#ffb6c1", lightsalmon :"#ffa07a", lightseagreen :"#20b2aa", lightskyblue :"#87cefa", lightslategray :"#778899", lightsteelblue :"#b0c4de", lightyellow :"#ffffe0", lime :"#00ff00", limegreen :"#32cd32", linen :"#faf0e6", magenta :"#ff00ff", maroon :"#800000", mediumaquamarine:"#66cdaa", mediumblue :"#0000cd", mediumorchid :"#ba55d3", mediumpurple :"#9370d8", mediumseagreen :"#3cb371", mediumslateblue :"#7b68ee", mediumspringgreen :"#00fa9a", mediumturquoise :"#48d1cc", mediumvioletred :"#c71585", midnightblue :"#191970", mintcream :"#f5fffa", mistyrose :"#ffe4e1", moccasin :"#ffe4b5", navajowhite :"#ffdead", navy :"#000080", oldlace :"#fdf5e6", olive :"#808000", olivedrab :"#6b8e23", orange :"#ffa500", orangered :"#ff4500", orchid :"#da70d6", palegoldenrod :"#eee8aa", palegreen :"#98fb98", paleturquoise :"#afeeee", palevioletred :"#d87093", papayawhip :"#ffefd5", peachpuff :"#ffdab9", peru :"#cd853f", pink :"#ffc0cb", plum :"#dda0dd", powderblue :"#b0e0e6", purple :"#800080", red :"#ff0000", rosybrown :"#bc8f8f", royalblue :"#4169e1", saddlebrown :"#8b4513", salmon :"#fa8072", sandybrown :"#f4a460", seagreen :"#2e8b57", seashell :"#fff5ee", sienna :"#a0522d", silver :"#c0c0c0", skyblue :"#87ceeb", slateblue :"#6a5acd", slategray :"#708090", snow :"#fffafa", springgreen :"#00ff7f", steelblue :"#4682b4", tan :"#d2b48c", teal :"#008080", thistle :"#d8bfd8", tomato :"#ff6347", turquoise :"#40e0d0", violet :"#ee82ee", wheat :"#f5deb3", white :"#ffffff", whitesmoke :"#f5f5f5", yellow :"#ffff00", yellowgreen :"#9acd32" }; /** * Represents a selector combinator (whitespace, +, >). * @namespace parserlib.css * @class Combinator * @extends parserlib.util.SyntaxUnit * @constructor * @param {String} text The text representation of the unit. * @param {int} line The line of text on which the unit resides. * @param {int} col The column of text on which the unit resides. */ function Combinator(text, line, col){ SyntaxUnit.call(this, text, line, col, Parser.COMBINATOR_TYPE); this.type = "unknown"; //pretty simple if (/^\s+$/.test(text)){ this.type = "descendant"; } else if (text == ">"){ this.type = "child"; } else if (text == "+"){ this.type = "adjacent-sibling"; } else if (text == "~"){ this.type = "sibling"; } } Combinator.prototype = new SyntaxUnit(); Combinator.prototype.constructor = Combinator; /** * Represents a media feature, such as max-width:500. * @namespace parserlib.css * @class MediaFeature * @extends parserlib.util.SyntaxUnit * @constructor * @param {SyntaxUnit} name The name of the feature. * @param {SyntaxUnit} value The value of the feature or null if none. */ function MediaFeature(name, value){ SyntaxUnit.call(this, "(" + name + (value !== null ? ":" + value : "") + ")", name.startLine, name.startCol, Parser.MEDIA_FEATURE_TYPE); this.name = name; this.value = value; } MediaFeature.prototype = new SyntaxUnit(); MediaFeature.prototype.constructor = MediaFeature; /** * Represents an individual media query. * @namespace parserlib.css * @class MediaQuery * @extends parserlib.util.SyntaxUnit * @constructor * @param {String} modifier The modifier "not" or "only" (or null). * @param {String} mediaType The type of media (i.e., "print"). * @param {Array} parts Array of selectors parts making up this selector. * @param {int} line The line of text on which the unit resides. * @param {int} col The column of text on which the unit resides. */ function MediaQuery(modifier, mediaType, features, line, col){ SyntaxUnit.call(this, (modifier ? modifier + " ": "") + (mediaType ? mediaType + " " : "") + features.join(" and "), line, col, Parser.MEDIA_QUERY_TYPE); this.modifier = modifier; this.mediaType = mediaType; this.features = features; } MediaQuery.prototype = new SyntaxUnit(); MediaQuery.prototype.constructor = MediaQuery; /** * A CSS3 parser. * @namespace parserlib.css * @class Parser * @constructor * @param {Object} options (Optional) Various options for the parser: * starHack (true|false) to allow IE6 star hack as valid, * underscoreHack (true|false) to interpret leading underscores * as IE6-7 targeting for known properties, ieFilters (true|false) * to indicate that IE < 8 filters should be accepted and not throw * syntax errors. */ function Parser(options){ //inherit event functionality EventTarget.call(this); this.options = options || {}; this._tokenStream = null; } //Static constants Parser.DEFAULT_TYPE = 0; Parser.COMBINATOR_TYPE = 1; Parser.MEDIA_FEATURE_TYPE = 2; Parser.MEDIA_QUERY_TYPE = 3; Parser.PROPERTY_NAME_TYPE = 4; Parser.PROPERTY_VALUE_TYPE = 5; Parser.PROPERTY_VALUE_PART_TYPE = 6; Parser.SELECTOR_TYPE = 7; Parser.SELECTOR_PART_TYPE = 8; Parser.SELECTOR_SUB_PART_TYPE = 9; Parser.prototype = function(){ var proto = new EventTarget(), //new prototype prop, additions = { //restore constructor constructor: Parser, //instance constants - yuck DEFAULT_TYPE : 0, COMBINATOR_TYPE : 1, MEDIA_FEATURE_TYPE : 2, MEDIA_QUERY_TYPE : 3, PROPERTY_NAME_TYPE : 4, PROPERTY_VALUE_TYPE : 5, PROPERTY_VALUE_PART_TYPE : 6, SELECTOR_TYPE : 7, SELECTOR_PART_TYPE : 8, SELECTOR_SUB_PART_TYPE : 9, //----------------------------------------------------------------- // Grammar //----------------------------------------------------------------- _stylesheet: function(){ /* * stylesheet * : [ CHARSET_SYM S* STRING S* ';' ]? * [S|CDO|CDC]* [ import [S|CDO|CDC]* ]* * [ namespace [S|CDO|CDC]* ]* * [ [ ruleset | media | page | font_face | keyframes ] [S|CDO|CDC]* ]* * ; */ var tokenStream = this._tokenStream, charset = null, count, token, tt; this.fire("startstylesheet"); //try to read character set this._charset(); this._skipCruft(); //try to read imports - may be more than one while (tokenStream.peek() == Tokens.IMPORT_SYM){ this._import(); this._skipCruft(); } //try to read namespaces - may be more than one while (tokenStream.peek() == Tokens.NAMESPACE_SYM){ this._namespace(); this._skipCruft(); } //get the next token tt = tokenStream.peek(); //try to read the rest while(tt > Tokens.EOF){ try { switch(tt){ case Tokens.MEDIA_SYM: this._media(); this._skipCruft(); break; case Tokens.PAGE_SYM: this._page(); this._skipCruft(); break; case Tokens.FONT_FACE_SYM: this._font_face(); this._skipCruft(); break; case Tokens.KEYFRAMES_SYM: this._keyframes(); this._skipCruft(); break; case Tokens.UNKNOWN_SYM: //unknown @ rule tokenStream.get(); if (!this.options.strict){ //fire error event this.fire({ type: "error", error: null, message: "Unknown @ rule: " + tokenStream.LT(0).value + ".", line: tokenStream.LT(0).startLine, col: tokenStream.LT(0).startCol }); //skip braces count=0; while (tokenStream.advance([Tokens.LBRACE, Tokens.RBRACE]) == Tokens.LBRACE){ count++; //keep track of nesting depth } while(count){ tokenStream.advance([Tokens.RBRACE]); count--; } } else { //not a syntax error, rethrow it throw new SyntaxError("Unknown @ rule.", tokenStream.LT(0).startLine, tokenStream.LT(0).startCol); } break; case Tokens.S: this._readWhitespace(); break; default: if(!this._ruleset()){ //error handling for known issues switch(tt){ case Tokens.CHARSET_SYM: token = tokenStream.LT(1); this._charset(false); throw new SyntaxError("@charset not allowed here.", token.startLine, token.startCol); case Tokens.IMPORT_SYM: token = tokenStream.LT(1); this._import(false); throw new SyntaxError("@import not allowed here.", token.startLine, token.startCol); case Tokens.NAMESPACE_SYM: token = tokenStream.LT(1); this._namespace(false); throw new SyntaxError("@namespace not allowed here.", token.startLine, token.startCol); default: tokenStream.get(); //get the last token this._unexpectedToken(tokenStream.token()); } } } } catch(ex) { if (ex instanceof SyntaxError && !this.options.strict){ this.fire({ type: "error", error: ex, message: ex.message, line: ex.line, col: ex.col }); } else { throw ex; } } tt = tokenStream.peek(); } if (tt != Tokens.EOF){ this._unexpectedToken(tokenStream.token()); } this.fire("endstylesheet"); }, _charset: function(emit){ var tokenStream = this._tokenStream, charset, token, line, col; if (tokenStream.match(Tokens.CHARSET_SYM)){ line = tokenStream.token().startLine; col = tokenStream.token().startCol; this._readWhitespace(); tokenStream.mustMatch(Tokens.STRING); token = tokenStream.token(); charset = token.value; this._readWhitespace(); tokenStream.mustMatch(Tokens.SEMICOLON); if (emit !== false){ this.fire({ type: "charset", charset:charset, line: line, col: col }); } } }, _import: function(emit){ /* * import * : IMPORT_SYM S* * [STRING|URI] S* media_query_list? ';' S* */ var tokenStream = this._tokenStream, tt, uri, importToken, mediaList = []; //read import symbol tokenStream.mustMatch(Tokens.IMPORT_SYM); importToken = tokenStream.token(); this._readWhitespace(); tokenStream.mustMatch([Tokens.STRING, Tokens.URI]); //grab the URI value uri = tokenStream.token().value.replace(/(?:url\()?["']([^"']+)["']\)?/, "$1"); this._readWhitespace(); mediaList = this._media_query_list(); //must end with a semicolon tokenStream.mustMatch(Tokens.SEMICOLON); this._readWhitespace(); if (emit !== false){ this.fire({ type: "import", uri: uri, media: mediaList, line: importToken.startLine, col: importToken.startCol }); } }, _namespace: function(emit){ /* * namespace * : NAMESPACE_SYM S* [namespace_prefix S*]? [STRING|URI] S* ';' S* */ var tokenStream = this._tokenStream, line, col, prefix, uri; //read import symbol tokenStream.mustMatch(Tokens.NAMESPACE_SYM); line = tokenStream.token().startLine; col = tokenStream.token().startCol; this._readWhitespace(); //it's a namespace prefix - no _namespace_prefix() method because it's just an IDENT if (tokenStream.match(Tokens.IDENT)){ prefix = tokenStream.token().value; this._readWhitespace(); } tokenStream.mustMatch([Tokens.STRING, Tokens.URI]); //grab the URI value uri = tokenStream.token().value.replace(/(?:url\()?["']([^"']+)["']\)?/, "$1"); this._readWhitespace(); //must end with a semicolon tokenStream.mustMatch(Tokens.SEMICOLON); this._readWhitespace(); if (emit !== false){ this.fire({ type: "namespace", prefix: prefix, uri: uri, line: line, col: col }); } }, _media: function(){ /* * media * : MEDIA_SYM S* media_query_list S* '{' S* ruleset* '}' S* * ; */ var tokenStream = this._tokenStream, line, col, mediaList;// = []; //look for @media tokenStream.mustMatch(Tokens.MEDIA_SYM); line = tokenStream.token().startLine; col = tokenStream.token().startCol; this._readWhitespace(); mediaList = this._media_query_list(); tokenStream.mustMatch(Tokens.LBRACE); this._readWhitespace(); this.fire({ type: "startmedia", media: mediaList, line: line, col: col }); while(true) { if (tokenStream.peek() == Tokens.PAGE_SYM){ this._page(); } else if (!this._ruleset()){ break; } } tokenStream.mustMatch(Tokens.RBRACE); this._readWhitespace(); this.fire({ type: "endmedia", media: mediaList, line: line, col: col }); }, //CSS3 Media Queries _media_query_list: function(){ /* * media_query_list * : S* [media_query [ ',' S* media_query ]* ]? * ; */ var tokenStream = this._tokenStream, mediaList = []; this._readWhitespace(); if (tokenStream.peek() == Tokens.IDENT || tokenStream.peek() == Tokens.LPAREN){ mediaList.push(this._media_query()); } while(tokenStream.match(Tokens.COMMA)){ this._readWhitespace(); mediaList.push(this._media_query()); } return mediaList; }, /* * Note: "expression" in the grammar maps to the _media_expression * method. */ _media_query: function(){ /* * media_query * : [ONLY | NOT]? S* media_type S* [ AND S* expression ]* * | expression [ AND S* expression ]* * ; */ var tokenStream = this._tokenStream, type = null, ident = null, token = null, expressions = []; if (tokenStream.match(Tokens.IDENT)){ ident = tokenStream.token().value.toLowerCase(); //since there's no custom tokens for these, need to manually check if (ident != "only" && ident != "not"){ tokenStream.unget(); ident = null; } else { token = tokenStream.token(); } } this._readWhitespace(); if (tokenStream.peek() == Tokens.IDENT){ type = this._media_type(); if (token === null){ token = tokenStream.token(); } } else if (tokenStream.peek() == Tokens.LPAREN){ if (token === null){ token = tokenStream.LT(1); } expressions.push(this._media_expression()); } if (type === null && expressions.length === 0){ return null; } else { this._readWhitespace(); while (tokenStream.match(Tokens.IDENT)){ if (tokenStream.token().value.toLowerCase() != "and"){ this._unexpectedToken(tokenStream.token()); } this._readWhitespace(); expressions.push(this._media_expression()); } } return new MediaQuery(ident, type, expressions, token.startLine, token.startCol); }, //CSS3 Media Queries _media_type: function(){ /* * media_type * : IDENT * ; */ return this._media_feature(); }, /** * Note: in CSS3 Media Queries, this is called "expression". * Renamed here to avoid conflict with CSS3 Selectors * definition of "expression". Also note that "expr" in the * grammar now maps to "expression" from CSS3 selectors. * @method _media_expression * @private */ _media_expression: function(){ /* * expression * : '(' S* media_feature S* [ ':' S* expr ]? ')' S* * ; */ var tokenStream = this._tokenStream, feature = null, token, expression = null; tokenStream.mustMatch(Tokens.LPAREN); feature = this._media_feature(); this._readWhitespace(); if (tokenStream.match(Tokens.COLON)){ this._readWhitespace(); token = tokenStream.LT(1); expression = this._expression(); } tokenStream.mustMatch(Tokens.RPAREN); this._readWhitespace(); return new MediaFeature(feature, (expression ? new SyntaxUnit(expression, token.startLine, token.startCol) : null)); }, //CSS3 Media Queries _media_feature: function(){ /* * media_feature * : IDENT * ; */ var tokenStream = this._tokenStream; tokenStream.mustMatch(Tokens.IDENT); return SyntaxUnit.fromToken(tokenStream.token()); }, //CSS3 Paged Media _page: function(){ /* * page: * PAGE_SYM S* IDENT? pseudo_page? S* * '{' S* [ declaration | margin ]? [ ';' S* [ declaration | margin ]? ]* '}' S* * ; */ var tokenStream = this._tokenStream, line, col, identifier = null, pseudoPage = null; //look for @page tokenStream.mustMatch(Tokens.PAGE_SYM); line = tokenStream.token().startLine; col = tokenStream.token().startCol; this._readWhitespace(); if (tokenStream.match(Tokens.IDENT)){ identifier = tokenStream.token().value; //The value 'auto' may not be used as a page name and MUST be treated as a syntax error. if (identifier.toLowerCase() === "auto"){ this._unexpectedToken(tokenStream.token()); } } //see if there's a colon upcoming if (tokenStream.peek() == Tokens.COLON){ pseudoPage = this._pseudo_page(); } this._readWhitespace(); this.fire({ type: "startpage", id: identifier, pseudo: pseudoPage, line: line, col: col }); this._readDeclarations(true, true); this.fire({ type: "endpage", id: identifier, pseudo: pseudoPage, line: line, col: col }); }, //CSS3 Paged Media _margin: function(){ /* * margin : * margin_sym S* '{' declaration [ ';' S* declaration? ]* '}' S* * ; */ var tokenStream = this._tokenStream, line, col, marginSym = this._margin_sym(); if (marginSym){ line = tokenStream.token().startLine; col = tokenStream.token().startCol; this.fire({ type: "startpagemargin", margin: marginSym, line: line, col: col }); this._readDeclarations(true); this.fire({ type: "endpagemargin", margin: marginSym, line: line, col: col }); return true; } else { return false; } }, //CSS3 Paged Media _margin_sym: function(){ /* * margin_sym : * TOPLEFTCORNER_SYM | * TOPLEFT_SYM | * TOPCENTER_SYM | * TOPRIGHT_SYM | * TOPRIGHTCORNER_SYM | * BOTTOMLEFTCORNER_SYM | * BOTTOMLEFT_SYM | * BOTTOMCENTER_SYM | * BOTTOMRIGHT_SYM | * BOTTOMRIGHTCORNER_SYM | * LEFTTOP_SYM | * LEFTMIDDLE_SYM | * LEFTBOTTOM_SYM | * RIGHTTOP_SYM | * RIGHTMIDDLE_SYM | * RIGHTBOTTOM_SYM * ; */ var tokenStream = this._tokenStream; if(tokenStream.match([Tokens.TOPLEFTCORNER_SYM, Tokens.TOPLEFT_SYM, Tokens.TOPCENTER_SYM, Tokens.TOPRIGHT_SYM, Tokens.TOPRIGHTCORNER_SYM, Tokens.BOTTOMLEFTCORNER_SYM, Tokens.BOTTOMLEFT_SYM, Tokens.BOTTOMCENTER_SYM, Tokens.BOTTOMRIGHT_SYM, Tokens.BOTTOMRIGHTCORNER_SYM, Tokens.LEFTTOP_SYM, Tokens.LEFTMIDDLE_SYM, Tokens.LEFTBOTTOM_SYM, Tokens.RIGHTTOP_SYM, Tokens.RIGHTMIDDLE_SYM, Tokens.RIGHTBOTTOM_SYM])) { return SyntaxUnit.fromToken(tokenStream.token()); } else { return null; } }, _pseudo_page: function(){ /* * pseudo_page * : ':' IDENT * ; */ var tokenStream = this._tokenStream; tokenStream.mustMatch(Tokens.COLON); tokenStream.mustMatch(Tokens.IDENT); //TODO: CSS3 Paged Media says only "left", "center", and "right" are allowed return tokenStream.token().value; }, _font_face: function(){ /* * font_face * : FONT_FACE_SYM S* * '{' S* declaration [ ';' S* declaration ]* '}' S* * ; */ var tokenStream = this._tokenStream, line, col; //look for @page tokenStream.mustMatch(Tokens.FONT_FACE_SYM); line = tokenStream.token().startLine; col = tokenStream.token().startCol; this._readWhitespace(); this.fire({ type: "startfontface", line: line, col: col }); this._readDeclarations(true); this.fire({ type: "endfontface", line: line, col: col }); }, _operator: function(){ /* * operator * : '/' S* | ',' S* | /( empty )/ * ; */ var tokenStream = this._tokenStream, token = null; if (tokenStream.match([Tokens.SLASH, Tokens.COMMA])){ token = tokenStream.token(); this._readWhitespace(); } return token ? PropertyValuePart.fromToken(token) : null; }, _combinator: function(){ /* * combinator * : PLUS S* | GREATER S* | TILDE S* | S+ * ; */ var tokenStream = this._tokenStream, value = null, token; if(tokenStream.match([Tokens.PLUS, Tokens.GREATER, Tokens.TILDE])){ token = tokenStream.token(); value = new Combinator(token.value, token.startLine, token.startCol); this._readWhitespace(); } return value; }, _unary_operator: function(){ /* * unary_operator * : '-' | '+' * ; */ var tokenStream = this._tokenStream; if (tokenStream.match([Tokens.MINUS, Tokens.PLUS])){ return tokenStream.token().value; } else { return null; } }, _property: function(){ /* * property * : IDENT S* * ; */ var tokenStream = this._tokenStream, value = null, hack = null, tokenValue, token, line, col; //check for star hack - throws error if not allowed if (tokenStream.peek() == Tokens.STAR && this.options.starHack){ tokenStream.get(); token = tokenStream.token(); hack = token.value; line = token.startLine; col = token.startCol; } if(tokenStream.match(Tokens.IDENT)){ token = tokenStream.token(); tokenValue = token.value; //check for underscore hack - no error if not allowed because it's valid CSS syntax if (tokenValue.charAt(0) == "_" && this.options.underscoreHack){ hack = "_"; tokenValue = tokenValue.substring(1); } value = new PropertyName(tokenValue, hack, (line||token.startLine), (col||token.startCol)); this._readWhitespace(); } return value; }, //Augmented with CSS3 Selectors _ruleset: function(){ /* * ruleset * : selectors_group * '{' S* declaration? [ ';' S* declaration? ]* '}' S* * ; */ var tokenStream = this._tokenStream, tt, selectors; try { selectors = this._selectors_group(); } catch (ex){ if (ex instanceof SyntaxError && !this.options.strict){ //fire error event this.fire({ type: "error", error: ex, message: ex.message, line: ex.line, col: ex.col }); //skip over everything until closing brace tt = tokenStream.advance([Tokens.RBRACE]); if (tt == Tokens.RBRACE){ //if there's a right brace, the rule is finished so don't do anything } else { //otherwise, rethrow the error because it wasn't handled properly throw ex; } } else { //not a syntax error, rethrow it throw ex; } //trigger parser to continue return true; } //if it got here, all selectors parsed if (selectors){ this.fire({ type: "startrule", selectors: selectors, line: selectors[0].line, col: selectors[0].col }); this._readDeclarations(true); this.fire({ type: "endrule", selectors: selectors, line: selectors[0].line, col: selectors[0].col }); } return selectors; }, //CSS3 Selectors _selectors_group: function(){ /* * selectors_group * : selector [ COMMA S* selector ]* * ; */ var tokenStream = this._tokenStream, selectors = [], selector; selector = this._selector(); if (selector !== null){ selectors.push(selector); while(tokenStream.match(Tokens.COMMA)){ this._readWhitespace(); selector = this._selector(); if (selector !== null){ selectors.push(selector); } else { this._unexpectedToken(tokenStream.LT(1)); } } } return selectors.length ? selectors : null; }, //CSS3 Selectors _selector: function(){ /* * selector * : simple_selector_sequence [ combinator simple_selector_sequence ]* * ; */ var tokenStream = this._tokenStream, selector = [], nextSelector = null, combinator = null, ws = null; //if there's no simple selector, then there's no selector nextSelector = this._simple_selector_sequence(); if (nextSelector === null){ return null; } selector.push(nextSelector); do { //look for a combinator combinator = this._combinator(); if (combinator !== null){ selector.push(combinator); nextSelector = this._simple_selector_sequence(); //there must be a next selector if (nextSelector === null){ this._unexpectedToken(this.LT(1)); } else { //nextSelector is an instance of SelectorPart selector.push(nextSelector); } } else { //if there's not whitespace, we're done if (this._readWhitespace()){ //add whitespace separator ws = new Combinator(tokenStream.token().value, tokenStream.token().startLine, tokenStream.token().startCol); //combinator is not required combinator = this._combinator(); //selector is required if there's a combinator nextSelector = this._simple_selector_sequence(); if (nextSelector === null){ if (combinator !== null){ this._unexpectedToken(tokenStream.LT(1)); } } else { if (combinator !== null){ selector.push(combinator); } else { selector.push(ws); } selector.push(nextSelector); } } else { break; } } } while(true); return new Selector(selector, selector[0].line, selector[0].col); }, //CSS3 Selectors _simple_selector_sequence: function(){ /* * simple_selector_sequence * : [ type_selector | universal ] * [ HASH | class | attrib | pseudo | negation ]* * | [ HASH | class | attrib | pseudo | negation ]+ * ; */ var tokenStream = this._tokenStream, //parts of a simple selector elementName = null, modifiers = [], //complete selector text selectorText= "", //the different parts after the element name to search for components = [ //HASH function(){ return tokenStream.match(Tokens.HASH) ? new SelectorSubPart(tokenStream.token().value, "id", tokenStream.token().startLine, tokenStream.token().startCol) : null; }, this._class, this._attrib, this._pseudo, this._negation ], i = 0, len = components.length, component = null, found = false, line, col; //get starting line and column for the selector line = tokenStream.LT(1).startLine; col = tokenStream.LT(1).startCol; elementName = this._type_selector(); if (!elementName){ elementName = this._universal(); } if (elementName !== null){ selectorText += elementName; } while(true){ //whitespace means we're done if (tokenStream.peek() === Tokens.S){ break; } //check for each component while(i < len && component === null){ component = components[i++].call(this); } if (component === null){ //we don't have a selector if (selectorText === ""){ return null; } else { break; } } else { i = 0; modifiers.push(component); selectorText += component.toString(); component = null; } } return selectorText !== "" ? new SelectorPart(elementName, modifiers, selectorText, line, col) : null; }, //CSS3 Selectors _type_selector: function(){ /* * type_selector * : [ namespace_prefix ]? element_name * ; */ var tokenStream = this._tokenStream, ns = this._namespace_prefix(), elementName = this._element_name(); if (!elementName){ /* * Need to back out the namespace that was read due to both * type_selector and universal reading namespace_prefix * first. Kind of hacky, but only way I can figure out * right now how to not change the grammar. */ if (ns){ tokenStream.unget(); if (ns.length > 1){ tokenStream.unget(); } } return null; } else { if (ns){ elementName.text = ns + elementName.text; elementName.col -= ns.length; } return elementName; } }, //CSS3 Selectors _class: function(){ /* * class * : '.' IDENT * ; */ var tokenStream = this._tokenStream, token; if (tokenStream.match(Tokens.DOT)){ tokenStream.mustMatch(Tokens.IDENT); token = tokenStream.token(); return new SelectorSubPart("." + token.value, "class", token.startLine, token.startCol - 1); } else { return null; } }, //CSS3 Selectors _element_name: function(){ /* * element_name * : IDENT * ; */ var tokenStream = this._tokenStream, token; if (tokenStream.match(Tokens.IDENT)){ token = tokenStream.token(); return new SelectorSubPart(token.value, "elementName", token.startLine, token.startCol); } else { return null; } }, //CSS3 Selectors _namespace_prefix: function(){ /* * namespace_prefix * : [ IDENT | '*' ]? '|' * ; */ var tokenStream = this._tokenStream, value = ""; //verify that this is a namespace prefix if (tokenStream.LA(1) === Tokens.PIPE || tokenStream.LA(2) === Tokens.PIPE){ if(tokenStream.match([Tokens.IDENT, Tokens.STAR])){ value += tokenStream.token().value; } tokenStream.mustMatch(Tokens.PIPE); value += "|"; } return value.length ? value : null; }, //CSS3 Selectors _universal: function(){ /* * universal * : [ namespace_prefix ]? '*' * ; */ var tokenStream = this._tokenStream, value = "", ns; ns = this._namespace_prefix(); if(ns){ value += ns; } if(tokenStream.match(Tokens.STAR)){ value += "*"; } return value.length ? value : null; }, //CSS3 Selectors _attrib: function(){ /* * attrib * : '[' S* [ namespace_prefix ]? IDENT S* * [ [ PREFIXMATCH | * SUFFIXMATCH | * SUBSTRINGMATCH | * '=' | * INCLUDES | * DASHMATCH ] S* [ IDENT | STRING ] S* * ]? ']' * ; */ var tokenStream = this._tokenStream, value = null, ns, token; if (tokenStream.match(Tokens.LBRACKET)){ token = tokenStream.token(); value = token.value; value += this._readWhitespace(); ns = this._namespace_prefix(); if (ns){ value += ns; } tokenStream.mustMatch(Tokens.IDENT); value += tokenStream.token().value; value += this._readWhitespace(); if(tokenStream.match([Tokens.PREFIXMATCH, Tokens.SUFFIXMATCH, Tokens.SUBSTRINGMATCH, Tokens.EQUALS, Tokens.INCLUDES, Tokens.DASHMATCH])){ value += tokenStream.token().value; value += this._readWhitespace(); tokenStream.mustMatch([Tokens.IDENT, Tokens.STRING]); value += tokenStream.token().value; value += this._readWhitespace(); } tokenStream.mustMatch(Tokens.RBRACKET); return new SelectorSubPart(value + "]", "attribute", token.startLine, token.startCol); } else { return null; } }, //CSS3 Selectors _pseudo: function(){ /* * pseudo * : ':' ':'? [ IDENT | functional_pseudo ] * ; */ var tokenStream = this._tokenStream, pseudo = null, colons = ":", line, col; if (tokenStream.match(Tokens.COLON)){ if (tokenStream.match(Tokens.COLON)){ colons += ":"; } if (tokenStream.match(Tokens.IDENT)){ pseudo = tokenStream.token().value; line = tokenStream.token().startLine; col = tokenStream.token().startCol - colons.length; } else if (tokenStream.peek() == Tokens.FUNCTION){ line = tokenStream.LT(1).startLine; col = tokenStream.LT(1).startCol - colons.length; pseudo = this._functional_pseudo(); } if (pseudo){ pseudo = new SelectorSubPart(colons + pseudo, "pseudo", line, col); } } return pseudo; }, //CSS3 Selectors _functional_pseudo: function(){ /* * functional_pseudo * : FUNCTION S* expression ')' * ; */ var tokenStream = this._tokenStream, value = null; if(tokenStream.match(Tokens.FUNCTION)){ value = tokenStream.token().value; value += this._readWhitespace(); value += this._expression(); tokenStream.mustMatch(Tokens.RPAREN); value += ")"; } return value; }, //CSS3 Selectors _expression: function(){ /* * expression * : [ [ PLUS | '-' | DIMENSION | NUMBER | STRING | IDENT ] S* ]+ * ; */ var tokenStream = this._tokenStream, value = ""; while(tokenStream.match([Tokens.PLUS, Tokens.MINUS, Tokens.DIMENSION, Tokens.NUMBER, Tokens.STRING, Tokens.IDENT, Tokens.LENGTH, Tokens.FREQ, Tokens.ANGLE, Tokens.TIME, Tokens.RESOLUTION])){ value += tokenStream.token().value; value += this._readWhitespace(); } return value.length ? value : null; }, //CSS3 Selectors _negation: function(){ /* * negation * : NOT S* negation_arg S* ')' * ; */ var tokenStream = this._tokenStream, line, col, value = "", arg, subpart = null; if (tokenStream.match(Tokens.NOT)){ value = tokenStream.token().value; line = tokenStream.token().startLine; col = tokenStream.token().startCol; value += this._readWhitespace(); arg = this._negation_arg(); value += arg; value += this._readWhitespace(); tokenStream.match(Tokens.RPAREN); value += tokenStream.token().value; subpart = new SelectorSubPart(value, "not", line, col); subpart.args.push(arg); } return subpart; }, //CSS3 Selectors _negation_arg: function(){ /* * negation_arg * : type_selector | universal | HASH | class | attrib | pseudo * ; */ var tokenStream = this._tokenStream, args = [ this._type_selector, this._universal, function(){ return tokenStream.match(Tokens.HASH) ? new SelectorSubPart(tokenStream.token().value, "id", tokenStream.token().startLine, tokenStream.token().startCol) : null; }, this._class, this._attrib, this._pseudo ], arg = null, i = 0, len = args.length, elementName, line, col, part; line = tokenStream.LT(1).startLine; col = tokenStream.LT(1).startCol; while(i < len && arg === null){ arg = args[i].call(this); i++; } //must be a negation arg if (arg === null){ this._unexpectedToken(tokenStream.LT(1)); } //it's an element name if (arg.type == "elementName"){ part = new SelectorPart(arg, [], arg.toString(), line, col); } else { part = new SelectorPart(null, [arg], arg.toString(), line, col); } return part; }, _declaration: function(){ /* * declaration * : property ':' S* expr prio? * | /( empty )/ * ; */ var tokenStream = this._tokenStream, property = null, expr = null, prio = null, error = null, invalid = null; property = this._property(); if (property !== null){ tokenStream.mustMatch(Tokens.COLON); this._readWhitespace(); expr = this._expr(); //if there's no parts for the value, it's an error if (!expr || expr.length === 0){ this._unexpectedToken(tokenStream.LT(1)); } prio = this._prio(); try { this._validateProperty(property, expr); } catch (ex) { invalid = ex; } this.fire({ type: "property", property: property, value: expr, important: prio, line: property.line, col: property.col, invalid: invalid }); return true; } else { return false; } }, _prio: function(){ /* * prio * : IMPORTANT_SYM S* * ; */ var tokenStream = this._tokenStream, result = tokenStream.match(Tokens.IMPORTANT_SYM); this._readWhitespace(); return result; }, _expr: function(){ /* * expr * : term [ operator term ]* * ; */ var tokenStream = this._tokenStream, values = [], //valueParts = [], value = null, operator = null; value = this._term(); if (value !== null){ values.push(value); do { operator = this._operator(); //if there's an operator, keep building up the value parts if (operator){ values.push(operator); } /*else { //if there's not an operator, you have a full value values.push(new PropertyValue(valueParts, valueParts[0].line, valueParts[0].col)); valueParts = []; }*/ value = this._term(); if (value === null){ break; } else { values.push(value); } } while(true); } //cleanup /*if (valueParts.length){ values.push(new PropertyValue(valueParts, valueParts[0].line, valueParts[0].col)); }*/ return values.length > 0 ? new PropertyValue(values, values[0].line, values[0].col) : null; }, _term: function(){ /* * term * : unary_operator? * [ NUMBER S* | PERCENTAGE S* | LENGTH S* | ANGLE S* | * TIME S* | FREQ S* | function | ie_function ] * | STRING S* | IDENT S* | URI S* | UNICODERANGE S* | hexcolor * ; */ var tokenStream = this._tokenStream, unary = null, value = null, token, line, col; //returns the operator or null unary = this._unary_operator(); if (unary !== null){ line = tokenStream.token().startLine; col = tokenStream.token().startCol; } //exception for IE filters if (tokenStream.peek() == Tokens.IE_FUNCTION && this.options.ieFilters){ value = this._ie_function(); if (unary === null){ line = tokenStream.token().startLine; col = tokenStream.token().startCol; } //see if there's a simple match } else if (tokenStream.match([Tokens.NUMBER, Tokens.PERCENTAGE, Tokens.LENGTH, Tokens.ANGLE, Tokens.TIME, Tokens.FREQ, Tokens.STRING, Tokens.IDENT, Tokens.URI, Tokens.UNICODE_RANGE])){ value = tokenStream.token().value; if (unary === null){ line = tokenStream.token().startLine; col = tokenStream.token().startCol; } this._readWhitespace(); } else { //see if it's a color token = this._hexcolor(); if (token === null){ //if there's no unary, get the start of the next token for line/col info if (unary === null){ line = tokenStream.LT(1).startLine; col = tokenStream.LT(1).startCol; } //has to be a function if (value === null){ /* * This checks for alpha(opacity=0) style of IE * functions. IE_FUNCTION only presents progid: style. */ if (tokenStream.LA(3) == Tokens.EQUALS && this.options.ieFilters){ value = this._ie_function(); } else { value = this._function(); } } /*if (value === null){ return null; //throw new Error("Expected identifier at line " + tokenStream.token().startLine + ", character " + tokenStream.token().startCol + "."); }*/ } else { value = token.value; if (unary === null){ line = token.startLine; col = token.startCol; } } } return value !== null ? new PropertyValuePart(unary !== null ? unary + value : value, line, col) : null; }, _function: function(){ /* * function * : FUNCTION S* expr ')' S* * ; */ var tokenStream = this._tokenStream, functionText = null, expr = null, lt; if (tokenStream.match(Tokens.FUNCTION)){ functionText = tokenStream.token().value; this._readWhitespace(); expr = this._expr(); functionText += expr; //START: Horrible hack in case it's an IE filter if (this.options.ieFilters && tokenStream.peek() == Tokens.EQUALS){ do { if (this._readWhitespace()){ functionText += tokenStream.token().value; } //might be second time in the loop if (tokenStream.LA(0) == Tokens.COMMA){ functionText += tokenStream.token().value; } tokenStream.match(Tokens.IDENT); functionText += tokenStream.token().value; tokenStream.match(Tokens.EQUALS); functionText += tokenStream.token().value; //functionText += this._term(); lt = tokenStream.peek(); while(lt != Tokens.COMMA && lt != Tokens.S && lt != Tokens.RPAREN){ tokenStream.get(); functionText += tokenStream.token().value; lt = tokenStream.peek(); } } while(tokenStream.match([Tokens.COMMA, Tokens.S])); } //END: Horrible Hack tokenStream.match(Tokens.RPAREN); functionText += ")"; this._readWhitespace(); } return functionText; }, _ie_function: function(){ /* (My own extension) * ie_function * : IE_FUNCTION S* IDENT '=' term [S* ','? IDENT '=' term]+ ')' S* * ; */ var tokenStream = this._tokenStream, functionText = null, expr = null, lt; //IE function can begin like a regular function, too if (tokenStream.match([Tokens.IE_FUNCTION, Tokens.FUNCTION])){ functionText = tokenStream.token().value; do { if (this._readWhitespace()){ functionText += tokenStream.token().value; } //might be second time in the loop if (tokenStream.LA(0) == Tokens.COMMA){ functionText += tokenStream.token().value; } tokenStream.match(Tokens.IDENT); functionText += tokenStream.token().value; tokenStream.match(Tokens.EQUALS); functionText += tokenStream.token().value; //functionText += this._term(); lt = tokenStream.peek(); while(lt != Tokens.COMMA && lt != Tokens.S && lt != Tokens.RPAREN){ tokenStream.get(); functionText += tokenStream.token().value; lt = tokenStream.peek(); } } while(tokenStream.match([Tokens.COMMA, Tokens.S])); tokenStream.match(Tokens.RPAREN); functionText += ")"; this._readWhitespace(); } return functionText; }, _hexcolor: function(){ /* * There is a constraint on the color that it must * have either 3 or 6 hex-digits (i.e., [0-9a-fA-F]) * after the "#"; e.g., "#000" is OK, but "#abcd" is not. * * hexcolor * : HASH S* * ; */ var tokenStream = this._tokenStream, token = null, color; if(tokenStream.match(Tokens.HASH)){ //need to do some validation here token = tokenStream.token(); color = token.value; if (!/#[a-f0-9]{3,6}/i.test(color)){ throw new SyntaxError("Expected a hex color but found '" + color + "' at line " + token.startLine + ", col " + token.startCol + ".", token.startLine, token.startCol); } this._readWhitespace(); } return token; }, //----------------------------------------------------------------- // Animations methods //----------------------------------------------------------------- _keyframes: function(){ /* * keyframes: * : KEYFRAMES_SYM S* keyframe_name S* '{' S* keyframe_rule* '}' { * ; */ var tokenStream = this._tokenStream, token, tt, name; tokenStream.mustMatch(Tokens.KEYFRAMES_SYM); this._readWhitespace(); name = this._keyframe_name(); this._readWhitespace(); tokenStream.mustMatch(Tokens.LBRACE); this.fire({ type: "startkeyframes", name: name, line: name.line, col: name.col }); this._readWhitespace(); tt = tokenStream.peek(); //check for key while(tt == Tokens.IDENT || tt == Tokens.PERCENTAGE) { this._keyframe_rule(); this._readWhitespace(); tt = tokenStream.peek(); } this.fire({ type: "endkeyframes", name: name, line: name.line, col: name.col }); this._readWhitespace(); tokenStream.mustMatch(Tokens.RBRACE); }, _keyframe_name: function(){ /* * keyframe_name: * : IDENT * | STRING * ; */ var tokenStream = this._tokenStream, token; tokenStream.mustMatch([Tokens.IDENT, Tokens.STRING]); return SyntaxUnit.fromToken(tokenStream.token()); }, _keyframe_rule: function(){ /* * keyframe_rule: * : key_list S* * '{' S* declaration [ ';' S* declaration ]* '}' S* * ; */ var tokenStream = this._tokenStream, token, keyList = this._key_list(); this.fire({ type: "startkeyframerule", keys: keyList, line: keyList[0].line, col: keyList[0].col }); this._readDeclarations(true); this.fire({ type: "endkeyframerule", keys: keyList, line: keyList[0].line, col: keyList[0].col }); }, _key_list: function(){ /* * key_list: * : key [ S* ',' S* key]* * ; */ var tokenStream = this._tokenStream, token, key, keyList = []; //must be least one key keyList.push(this._key()); this._readWhitespace(); while(tokenStream.match(Tokens.COMMA)){ this._readWhitespace(); keyList.push(this._key()); this._readWhitespace(); } return keyList; }, _key: function(){ /* * There is a restriction that IDENT can be only "from" or "to". * * key * : PERCENTAGE * | IDENT * ; */ var tokenStream = this._tokenStream, token; if (tokenStream.match(Tokens.PERCENTAGE)){ return SyntaxUnit.fromToken(tokenStream.token()); } else if (tokenStream.match(Tokens.IDENT)){ token = tokenStream.token(); if (/from|to/i.test(token.value)){ return SyntaxUnit.fromToken(token); } tokenStream.unget(); } //if it gets here, there wasn't a valid token, so time to explode this._unexpectedToken(tokenStream.LT(1)); }, //----------------------------------------------------------------- // Helper methods //----------------------------------------------------------------- /** * Not part of CSS grammar, but useful for skipping over * combination of white space and HTML-style comments. * @return {void} * @method _skipCruft * @private */ _skipCruft: function(){ while(this._tokenStream.match([Tokens.S, Tokens.CDO, Tokens.CDC])){ //noop } }, /** * Not part of CSS grammar, but this pattern occurs frequently * in the official CSS grammar. Split out here to eliminate * duplicate code. * @param {Boolean} checkStart Indicates if the rule should check * for the left brace at the beginning. * @param {Boolean} readMargins Indicates if the rule should check * for margin patterns. * @return {void} * @method _readDeclarations * @private */ _readDeclarations: function(checkStart, readMargins){ /* * Reads the pattern * S* '{' S* declaration [ ';' S* declaration ]* '}' S* * or * S* '{' S* [ declaration | margin ]? [ ';' S* [ declaration | margin ]? ]* '}' S* * Note that this is how it is described in CSS3 Paged Media, but is actually incorrect. * A semicolon is only necessary following a delcaration is there's another declaration * or margin afterwards. */ var tokenStream = this._tokenStream, tt; this._readWhitespace(); if (checkStart){ tokenStream.mustMatch(Tokens.LBRACE); } this._readWhitespace(); try { while(true){ if (tokenStream.match(Tokens.SEMICOLON) || (readMargins && this._margin())){ //noop } else if (this._declaration()){ if (!tokenStream.match(Tokens.SEMICOLON)){ break; } } else { break; } //if ((!this._margin() && !this._declaration()) || !tokenStream.match(Tokens.SEMICOLON)){ // break; //} this._readWhitespace(); } tokenStream.mustMatch(Tokens.RBRACE); this._readWhitespace(); } catch (ex) { if (ex instanceof SyntaxError && !this.options.strict){ //fire error event this.fire({ type: "error", error: ex, message: ex.message, line: ex.line, col: ex.col }); //see if there's another declaration tt = tokenStream.advance([Tokens.SEMICOLON, Tokens.RBRACE]); if (tt == Tokens.SEMICOLON){ //if there's a semicolon, then there might be another declaration this._readDeclarations(false, readMargins); } else if (tt != Tokens.RBRACE){ //if there's a right brace, the rule is finished so don't do anything //otherwise, rethrow the error because it wasn't handled properly throw ex; } } else { //not a syntax error, rethrow it throw ex; } } }, /** * In some cases, you can end up with two white space tokens in a * row. Instead of making a change in every function that looks for * white space, this function is used to match as much white space * as necessary. * @method _readWhitespace * @return {String} The white space if found, empty string if not. * @private */ _readWhitespace: function(){ var tokenStream = this._tokenStream, ws = ""; while(tokenStream.match(Tokens.S)){ ws += tokenStream.token().value; } return ws; }, /** * Throws an error when an unexpected token is found. * @param {Object} token The token that was found. * @method _unexpectedToken * @return {void} * @private */ _unexpectedToken: function(token){ throw new SyntaxError("Unexpected token '" + token.value + "' at line " + token.startLine + ", col " + token.startCol + ".", token.startLine, token.startCol); }, /** * Helper method used for parsing subparts of a style sheet. * @return {void} * @method _verifyEnd * @private */ _verifyEnd: function(){ if (this._tokenStream.LA(1) != Tokens.EOF){ this._unexpectedToken(this._tokenStream.LT(1)); } }, //----------------------------------------------------------------- // Validation methods //----------------------------------------------------------------- _validateProperty: function(property, value){ Validation.validate(property, value); }, //----------------------------------------------------------------- // Parsing methods //----------------------------------------------------------------- parse: function(input){ this._tokenStream = new TokenStream(input, Tokens); this._stylesheet(); }, parseStyleSheet: function(input){ //just passthrough return this.parse(input); }, parseMediaQuery: function(input){ this._tokenStream = new TokenStream(input, Tokens); var result = this._media_query(); //if there's anything more, then it's an invalid selector this._verifyEnd(); //otherwise return result return result; }, /** * Parses a property value (everything after the semicolon). * @return {parserlib.css.PropertyValue} The property value. * @throws parserlib.util.SyntaxError If an unexpected token is found. * @method parserPropertyValue */ parsePropertyValue: function(input){ this._tokenStream = new TokenStream(input, Tokens); this._readWhitespace(); var result = this._expr(); //okay to have a trailing white space this._readWhitespace(); //if there's anything more, then it's an invalid selector this._verifyEnd(); //otherwise return result return result; }, /** * Parses a complete CSS rule, including selectors and * properties. * @param {String} input The text to parser. * @return {Boolean} True if the parse completed successfully, false if not. * @method parseRule */ parseRule: function(input){ this._tokenStream = new TokenStream(input, Tokens); //skip any leading white space this._readWhitespace(); var result = this._ruleset(); //skip any trailing white space this._readWhitespace(); //if there's anything more, then it's an invalid selector this._verifyEnd(); //otherwise return result return result; }, /** * Parses a single CSS selector (no comma) * @param {String} input The text to parse as a CSS selector. * @return {Selector} An object representing the selector. * @throws parserlib.util.SyntaxError If an unexpected token is found. * @method parseSelector */ parseSelector: function(input){ this._tokenStream = new TokenStream(input, Tokens); //skip any leading white space this._readWhitespace(); var result = this._selector(); //skip any trailing white space this._readWhitespace(); //if there's anything more, then it's an invalid selector this._verifyEnd(); //otherwise return result return result; }, /** * Parses an HTML style attribute: a set of CSS declarations * separated by semicolons. * @param {String} input The text to parse as a style attribute * @return {void} * @method parseStyleAttribute */ parseStyleAttribute: function(input){ input += "}"; // for error recovery in _readDeclarations() this._tokenStream = new TokenStream(input, Tokens); this._readDeclarations(); } }; //copy over onto prototype for (prop in additions){ if (additions.hasOwnProperty(prop)){ proto[prop] = additions[prop]; } } return proto; }(); /*global Validation, ValidationTypes, ValidationError*/ var Properties = { //A "alignment-adjust" : "auto | baseline | before-edge | text-before-edge | middle | central | after-edge | text-after-edge | ideographic | alphabetic | hanging | mathematical | | ", "alignment-baseline" : "baseline | use-script | before-edge | text-before-edge | after-edge | text-after-edge | central | middle | ideographic | alphabetic | hanging | mathematical", "animation" : 1, "animation-delay" : { multi: "