esprima
Version:
ECMAScript parsing infrastructure for multipurpose analysis
1,364 lines (1,262 loc) • 385 kB
JavaScript
/*!
* Ext Core Library 3.0
* http://extjs.com/
* Copyright(c) 2006-2009, Ext JS, LLC.
*
* MIT Licensed - http://extjs.com/license/mit.txt
*/
// for old browsers
window.undefined = window.undefined;
/**
* @class Ext
* Ext core utilities and functions.
* @singleton
*/
Ext = {
/**
* The version of the framework
* @type String
*/
version : '3.1.0'
};
/**
* Copies all the properties of config to obj.
* @param {Object} obj The receiver of the properties
* @param {Object} config The source of the properties
* @param {Object} defaults A different object that will also be applied for default values
* @return {Object} returns obj
* @member Ext apply
*/
Ext.apply = function(o, c, defaults){
// no "this" reference for friendly out of scope calls
if(defaults){
Ext.apply(o, defaults);
}
if(o && c && typeof c == 'object'){
for(var p in c){
o[p] = c[p];
}
}
return o;
};
(function(){
var idSeed = 0,
toString = Object.prototype.toString,
ua = navigator.userAgent.toLowerCase(),
check = function(r){
return r.test(ua);
},
DOC = document,
isStrict = DOC.compatMode == "CSS1Compat",
isOpera = check(/opera/),
isChrome = check(/chrome/),
isWebKit = check(/webkit/),
isSafari = !isChrome && check(/safari/),
isSafari2 = isSafari && check(/applewebkit\/4/), // unique to Safari 2
isSafari3 = isSafari && check(/version\/3/),
isSafari4 = isSafari && check(/version\/4/),
isIE = !isOpera && check(/msie/),
isIE7 = isIE && check(/msie 7/),
isIE8 = isIE && check(/msie 8/),
isIE6 = isIE && !isIE7 && !isIE8,
isGecko = !isWebKit && check(/gecko/),
isGecko2 = isGecko && check(/rv:1\.8/),
isGecko3 = isGecko && check(/rv:1\.9/),
isBorderBox = isIE && !isStrict,
isWindows = check(/windows|win32/),
isMac = check(/macintosh|mac os x/),
isAir = check(/adobeair/),
isLinux = check(/linux/),
isSecure = /^https/i.test(window.location.protocol);
// remove css image flicker
if(isIE6){
try{
DOC.execCommand("BackgroundImageCache", false, true);
}catch(e){}
}
Ext.apply(Ext, {
/**
* URL to a blank file used by Ext when in secure mode for iframe src and onReady src to prevent
* the IE insecure content warning (<tt>'about:blank'</tt>, except for IE in secure mode, which is <tt>'javascript:""'</tt>).
* @type String
*/
SSL_SECURE_URL : isSecure && isIE ? 'javascript:""' : 'about:blank',
/**
* True if the browser is in strict (standards-compliant) mode, as opposed to quirks mode
* @type Boolean
*/
isStrict : isStrict,
/**
* True if the page is running over SSL
* @type Boolean
*/
isSecure : isSecure,
/**
* True when the document is fully initialized and ready for action
* @type Boolean
*/
isReady : false,
/**
* True if the {@link Ext.Fx} Class is available
* @type Boolean
* @property enableFx
*/
/**
* True to automatically uncache orphaned Ext.Elements periodically (defaults to true)
* @type Boolean
*/
enableGarbageCollector : true,
/**
* True to automatically purge event listeners during garbageCollection (defaults to false).
* @type Boolean
*/
enableListenerCollection : false,
/**
* EXPERIMENTAL - True to cascade listener removal to child elements when an element is removed.
* Currently not optimized for performance.
* @type Boolean
*/
enableNestedListenerRemoval : false,
/**
* Indicates whether to use native browser parsing for JSON methods.
* This option is ignored if the browser does not support native JSON methods.
* <b>Note: Native JSON methods will not work with objects that have functions.
* Also, property names must be quoted, otherwise the data will not parse.</b> (Defaults to false)
* @type Boolean
*/
USE_NATIVE_JSON : false,
/**
* Copies all the properties of config to obj if they don't already exist.
* @param {Object} obj The receiver of the properties
* @param {Object} config The source of the properties
* @return {Object} returns obj
*/
applyIf : function(o, c){
if(o){
for(var p in c){
if(!Ext.isDefined(o[p])){
o[p] = c[p];
}
}
}
return o;
},
/**
* Generates unique ids. If the element already has an id, it is unchanged
* @param {Mixed} el (optional) The element to generate an id for
* @param {String} prefix (optional) Id prefix (defaults "ext-gen")
* @return {String} The generated Id.
*/
id : function(el, prefix){
return (el = Ext.getDom(el) || {}).id = el.id || (prefix || "ext-gen") + (++idSeed);
},
/**
* <p>Extends one class to create a subclass and optionally overrides members with the passed literal. This method
* also adds the function "override()" to the subclass that can be used to override members of the class.</p>
* For example, to create a subclass of Ext GridPanel:
* <pre><code>
MyGridPanel = Ext.extend(Ext.grid.GridPanel, {
constructor: function(config) {
// Create configuration for this Grid.
var store = new Ext.data.Store({...});
var colModel = new Ext.grid.ColumnModel({...});
// Create a new config object containing our computed properties
// *plus* whatever was in the config parameter.
config = Ext.apply({
store: store,
colModel: colModel
}, config);
MyGridPanel.superclass.constructor.call(this, config);
// Your postprocessing here
},
yourMethod: function() {
// etc.
}
});
</code></pre>
*
* <p>This function also supports a 3-argument call in which the subclass's constructor is
* passed as an argument. In this form, the parameters are as follows:</p>
* <div class="mdetail-params"><ul>
* <li><code>subclass</code> : Function <div class="sub-desc">The subclass constructor.</div></li>
* <li><code>superclass</code> : Function <div class="sub-desc">The constructor of class being extended</div></li>
* <li><code>overrides</code> : Object <div class="sub-desc">A literal with members which are copied into the subclass's
* prototype, and are therefore shared among all instances of the new class.</div></li>
* </ul></div>
*
* @param {Function} superclass The constructor of class being extended.
* @param {Object} overrides <p>A literal with members which are copied into the subclass's
* prototype, and are therefore shared between all instances of the new class.</p>
* <p>This may contain a special member named <tt><b>constructor</b></tt>. This is used
* to define the constructor of the new class, and is returned. If this property is
* <i>not</i> specified, a constructor is generated and returned which just calls the
* superclass's constructor passing on its parameters.</p>
* <p><b>It is essential that you call the superclass constructor in any provided constructor. See example code.</b></p>
* @return {Function} The subclass constructor from the <code>overrides</code> parameter, or a generated one if not provided.
*/
extend : function(){
// inline overrides
var io = function(o){
for(var m in o){
this[m] = o[m];
}
};
var oc = Object.prototype.constructor;
return function(sb, sp, overrides){
if(Ext.isObject(sp)){
overrides = sp;
sp = sb;
sb = overrides.constructor != oc ? overrides.constructor : function(){sp.apply(this, arguments);};
}
var F = function(){},
sbp,
spp = sp.prototype;
F.prototype = spp;
sbp = sb.prototype = new F();
sbp.constructor=sb;
sb.superclass=spp;
if(spp.constructor == oc){
spp.constructor=sp;
}
sb.override = function(o){
Ext.override(sb, o);
};
sbp.superclass = sbp.supr = (function(){
return spp;
});
sbp.override = io;
Ext.override(sb, overrides);
sb.extend = function(o){return Ext.extend(sb, o);};
return sb;
};
}(),
/**
* Adds a list of functions to the prototype of an existing class, overwriting any existing methods with the same name.
* Usage:<pre><code>
Ext.override(MyClass, {
newMethod1: function(){
// etc.
},
newMethod2: function(foo){
// etc.
}
});
</code></pre>
* @param {Object} origclass The class to override
* @param {Object} overrides The list of functions to add to origClass. This should be specified as an object literal
* containing one or more methods.
* @method override
*/
override : function(origclass, overrides){
if(overrides){
var p = origclass.prototype;
Ext.apply(p, overrides);
if(Ext.isIE && overrides.hasOwnProperty('toString')){
p.toString = overrides.toString;
}
}
},
/**
* Creates namespaces to be used for scoping variables and classes so that they are not global.
* Specifying the last node of a namespace implicitly creates all other nodes. Usage:
* <pre><code>
Ext.namespace('Company', 'Company.data');
Ext.namespace('Company.data'); // equivalent and preferable to above syntax
Company.Widget = function() { ... }
Company.data.CustomStore = function(config) { ... }
</code></pre>
* @param {String} namespace1
* @param {String} namespace2
* @param {String} etc
* @return {Object} The namespace object. (If multiple arguments are passed, this will be the last namespace created)
* @method namespace
*/
namespace : function(){
var o, d;
Ext.each(arguments, function(v) {
d = v.split(".");
o = window[d[0]] = window[d[0]] || {};
Ext.each(d.slice(1), function(v2){
o = o[v2] = o[v2] || {};
});
});
return o;
},
/**
* Takes an object and converts it to an encoded URL. e.g. Ext.urlEncode({foo: 1, bar: 2}); would return "foo=1&bar=2". Optionally, property values can be arrays, instead of keys and the resulting string that's returned will contain a name/value pair for each array value.
* @param {Object} o
* @param {String} pre (optional) A prefix to add to the url encoded string
* @return {String}
*/
urlEncode : function(o, pre){
var empty,
buf = [],
e = encodeURIComponent;
Ext.iterate(o, function(key, item){
empty = Ext.isEmpty(item);
Ext.each(empty ? key : item, function(val){
buf.push('&', e(key), '=', (!Ext.isEmpty(val) && (val != key || !empty)) ? (Ext.isDate(val) ? Ext.encode(val).replace(/"/g, '') : e(val)) : '');
});
});
if(!pre){
buf.shift();
pre = '';
}
return pre + buf.join('');
},
/**
* Takes an encoded URL and and converts it to an object. Example: <pre><code>
Ext.urlDecode("foo=1&bar=2"); // returns {foo: "1", bar: "2"}
Ext.urlDecode("foo=1&bar=2&bar=3&bar=4", false); // returns {foo: "1", bar: ["2", "3", "4"]}
</code></pre>
* @param {String} string
* @param {Boolean} overwrite (optional) Items of the same name will overwrite previous values instead of creating an an array (Defaults to false).
* @return {Object} A literal with members
*/
urlDecode : function(string, overwrite){
if(Ext.isEmpty(string)){
return {};
}
var obj = {},
pairs = string.split('&'),
d = decodeURIComponent,
name,
value;
Ext.each(pairs, function(pair) {
pair = pair.split('=');
name = d(pair[0]);
value = d(pair[1]);
obj[name] = overwrite || !obj[name] ? value :
[].concat(obj[name]).concat(value);
});
return obj;
},
/**
* Appends content to the query string of a URL, handling logic for whether to place
* a question mark or ampersand.
* @param {String} url The URL to append to.
* @param {String} s The content to append to the URL.
* @return (String) The resulting URL
*/
urlAppend : function(url, s){
if(!Ext.isEmpty(s)){
return url + (url.indexOf('?') === -1 ? '?' : '&') + s;
}
return url;
},
/**
* Converts any iterable (numeric indices and a length property) into a true array
* Don't use this on strings. IE doesn't support "abc"[0] which this implementation depends on.
* For strings, use this instead: "abc".match(/./g) => [a,b,c];
* @param {Iterable} the iterable object to be turned into a true Array.
* @return (Array) array
*/
toArray : function(){
return isIE ?
function(a, i, j, res){
res = [];
for(var x = 0, len = a.length; x < len; x++) {
res.push(a[x]);
}
return res.slice(i || 0, j || res.length);
} :
function(a, i, j){
return Array.prototype.slice.call(a, i || 0, j || a.length);
}
}(),
isIterable : function(v){
//check for array or arguments
if(Ext.isArray(v) || v.callee){
return true;
}
//check for node list type
if(/NodeList|HTMLCollection/.test(toString.call(v))){
return true;
}
//NodeList has an item and length property
//IXMLDOMNodeList has nextNode method, needs to be checked first.
return ((typeof v.nextNode != 'undefined' || v.item) && Ext.isNumber(v.length));
},
/**
* Iterates an array calling the supplied function.
* @param {Array/NodeList/Mixed} array The array to be iterated. If this
* argument is not really an array, the supplied function is called once.
* @param {Function} fn The function to be called with each item. If the
* supplied function returns false, iteration stops and this method returns
* the current <code>index</code>. This function is called with
* the following arguments:
* <div class="mdetail-params"><ul>
* <li><code>item</code> : <i>Mixed</i>
* <div class="sub-desc">The item at the current <code>index</code>
* in the passed <code>array</code></div></li>
* <li><code>index</code> : <i>Number</i>
* <div class="sub-desc">The current index within the array</div></li>
* <li><code>allItems</code> : <i>Array</i>
* <div class="sub-desc">The <code>array</code> passed as the first
* argument to <code>Ext.each</code>.</div></li>
* </ul></div>
* @param {Object} scope The scope (<code>this</code> reference) in which the specified function is executed.
* Defaults to the <code>item</code> at the current <code>index</code>
* within the passed <code>array</code>.
* @return See description for the fn parameter.
*/
each : function(array, fn, scope){
if(Ext.isEmpty(array, true)){
return;
}
if(!Ext.isIterable(array) || Ext.isPrimitive(array)){
array = [array];
}
for(var i = 0, len = array.length; i < len; i++){
if(fn.call(scope || array[i], array[i], i, array) === false){
return i;
};
}
},
/**
* Iterates either the elements in an array, or each of the properties in an object.
* <b>Note</b>: If you are only iterating arrays, it is better to call {@link #each}.
* @param {Object/Array} object The object or array to be iterated
* @param {Function} fn The function to be called for each iteration.
* The iteration will stop if the supplied function returns false, or
* all array elements / object properties have been covered. The signature
* varies depending on the type of object being interated:
* <div class="mdetail-params"><ul>
* <li>Arrays : <tt>(Object item, Number index, Array allItems)</tt>
* <div class="sub-desc">
* When iterating an array, the supplied function is called with each item.</div></li>
* <li>Objects : <tt>(String key, Object value, Object)</tt>
* <div class="sub-desc">
* When iterating an object, the supplied function is called with each key-value pair in
* the object, and the iterated object</div></li>
* </ul></div>
* @param {Object} scope The scope (<code>this</code> reference) in which the specified function is executed. Defaults to
* the <code>object</code> being iterated.
*/
iterate : function(obj, fn, scope){
if(Ext.isEmpty(obj)){
return;
}
if(Ext.isIterable(obj)){
Ext.each(obj, fn, scope);
return;
}else if(Ext.isObject(obj)){
for(var prop in obj){
if(obj.hasOwnProperty(prop)){
if(fn.call(scope || obj, prop, obj[prop], obj) === false){
return;
};
}
}
}
},
/**
* Return the dom node for the passed String (id), dom node, or Ext.Element.
* Here are some examples:
* <pre><code>
// gets dom node based on id
var elDom = Ext.getDom('elId');
// gets dom node based on the dom node
var elDom1 = Ext.getDom(elDom);
// If we don't know if we are working with an
// Ext.Element or a dom node use Ext.getDom
function(el){
var dom = Ext.getDom(el);
// do something with the dom node
}
* </code></pre>
* <b>Note</b>: the dom node to be found actually needs to exist (be rendered, etc)
* when this method is called to be successful.
* @param {Mixed} el
* @return HTMLElement
*/
getDom : function(el){
if(!el || !DOC){
return null;
}
return el.dom ? el.dom : (Ext.isString(el) ? DOC.getElementById(el) : el);
},
/**
* Returns the current document body as an {@link Ext.Element}.
* @return Ext.Element The document body
*/
getBody : function(){
return Ext.get(DOC.body || DOC.documentElement);
},
/**
* Removes a DOM node from the document.
*/
/**
* <p>Removes this element from the document, removes all DOM event listeners, and deletes the cache reference.
* All DOM event listeners are removed from this element. If {@link Ext#enableNestedListenerRemoval} is
* <code>true</code>, then DOM event listeners are also removed from all child nodes. The body node
* will be ignored if passed in.</p>
* @param {HTMLElement} node The node to remove
*/
removeNode : isIE && !isIE8 ? function(){
var d;
return function(n){
if(n && n.tagName != 'BODY'){
(Ext.enableNestedListenerRemoval) ? Ext.EventManager.purgeElement(n, true) : Ext.EventManager.removeAll(n);
d = d || DOC.createElement('div');
d.appendChild(n);
d.innerHTML = '';
delete Ext.elCache[n.id];
}
}
}() : function(n){
if(n && n.parentNode && n.tagName != 'BODY'){
(Ext.enableNestedListenerRemoval) ? Ext.EventManager.purgeElement(n, true) : Ext.EventManager.removeAll(n);
n.parentNode.removeChild(n);
delete Ext.elCache[n.id];
}
},
/**
* <p>Returns true if the passed value is empty.</p>
* <p>The value is deemed to be empty if it is<div class="mdetail-params"><ul>
* <li>null</li>
* <li>undefined</li>
* <li>an empty array</li>
* <li>a zero length string (Unless the <tt>allowBlank</tt> parameter is <tt>true</tt>)</li>
* </ul></div>
* @param {Mixed} value The value to test
* @param {Boolean} allowBlank (optional) true to allow empty strings (defaults to false)
* @return {Boolean}
*/
isEmpty : function(v, allowBlank){
return v === null || v === undefined || ((Ext.isArray(v) && !v.length)) || (!allowBlank ? v === '' : false);
},
/**
* Returns true if the passed value is a JavaScript array, otherwise false.
* @param {Mixed} value The value to test
* @return {Boolean}
*/
isArray : function(v){
return toString.apply(v) === '[object Array]';
},
/**
* Returns true if the passed object is a JavaScript date object, otherwise false.
* @param {Object} object The object to test
* @return {Boolean}
*/
isDate : function(v){
return toString.apply(v) === '[object Date]';
},
/**
* Returns true if the passed value is a JavaScript Object, otherwise false.
* @param {Mixed} value The value to test
* @return {Boolean}
*/
isObject : function(v){
return !!v && Object.prototype.toString.call(v) === '[object Object]';
},
/**
* Returns true if the passed value is a JavaScript 'primitive', a string, number or boolean.
* @param {Mixed} value The value to test
* @return {Boolean}
*/
isPrimitive : function(v){
return Ext.isString(v) || Ext.isNumber(v) || Ext.isBoolean(v);
},
/**
* Returns true if the passed value is a JavaScript Function, otherwise false.
* @param {Mixed} value The value to test
* @return {Boolean}
*/
isFunction : function(v){
return toString.apply(v) === '[object Function]';
},
/**
* Returns true if the passed value is a number. Returns false for non-finite numbers.
* @param {Mixed} value The value to test
* @return {Boolean}
*/
isNumber : function(v){
return typeof v === 'number' && isFinite(v);
},
/**
* Returns true if the passed value is a string.
* @param {Mixed} value The value to test
* @return {Boolean}
*/
isString : function(v){
return typeof v === 'string';
},
/**
* Returns true if the passed value is a boolean.
* @param {Mixed} value The value to test
* @return {Boolean}
*/
isBoolean : function(v){
return typeof v === 'boolean';
},
/**
* Returns true if the passed value is an HTMLElement
* @param {Mixed} value The value to test
* @return {Boolean}
*/
isElement : function(v) {
return !!v && v.tagName;
},
/**
* Returns true if the passed value is not undefined.
* @param {Mixed} value The value to test
* @return {Boolean}
*/
isDefined : function(v){
return typeof v !== 'undefined';
},
/**
* True if the detected browser is Opera.
* @type Boolean
*/
isOpera : isOpera,
/**
* True if the detected browser uses WebKit.
* @type Boolean
*/
isWebKit : isWebKit,
/**
* True if the detected browser is Chrome.
* @type Boolean
*/
isChrome : isChrome,
/**
* True if the detected browser is Safari.
* @type Boolean
*/
isSafari : isSafari,
/**
* True if the detected browser is Safari 3.x.
* @type Boolean
*/
isSafari3 : isSafari3,
/**
* True if the detected browser is Safari 4.x.
* @type Boolean
*/
isSafari4 : isSafari4,
/**
* True if the detected browser is Safari 2.x.
* @type Boolean
*/
isSafari2 : isSafari2,
/**
* True if the detected browser is Internet Explorer.
* @type Boolean
*/
isIE : isIE,
/**
* True if the detected browser is Internet Explorer 6.x.
* @type Boolean
*/
isIE6 : isIE6,
/**
* True if the detected browser is Internet Explorer 7.x.
* @type Boolean
*/
isIE7 : isIE7,
/**
* True if the detected browser is Internet Explorer 8.x.
* @type Boolean
*/
isIE8 : isIE8,
/**
* True if the detected browser uses the Gecko layout engine (e.g. Mozilla, Firefox).
* @type Boolean
*/
isGecko : isGecko,
/**
* True if the detected browser uses a pre-Gecko 1.9 layout engine (e.g. Firefox 2.x).
* @type Boolean
*/
isGecko2 : isGecko2,
/**
* True if the detected browser uses a Gecko 1.9+ layout engine (e.g. Firefox 3.x).
* @type Boolean
*/
isGecko3 : isGecko3,
/**
* True if the detected browser is Internet Explorer running in non-strict mode.
* @type Boolean
*/
isBorderBox : isBorderBox,
/**
* True if the detected platform is Linux.
* @type Boolean
*/
isLinux : isLinux,
/**
* True if the detected platform is Windows.
* @type Boolean
*/
isWindows : isWindows,
/**
* True if the detected platform is Mac OS.
* @type Boolean
*/
isMac : isMac,
/**
* True if the detected platform is Adobe Air.
* @type Boolean
*/
isAir : isAir
});
/**
* Creates namespaces to be used for scoping variables and classes so that they are not global.
* Specifying the last node of a namespace implicitly creates all other nodes. Usage:
* <pre><code>
Ext.namespace('Company', 'Company.data');
Ext.namespace('Company.data'); // equivalent and preferable to above syntax
Company.Widget = function() { ... }
Company.data.CustomStore = function(config) { ... }
</code></pre>
* @param {String} namespace1
* @param {String} namespace2
* @param {String} etc
* @return {Object} The namespace object. (If multiple arguments are passed, this will be the last namespace created)
* @method ns
*/
Ext.ns = Ext.namespace;
})();
Ext.ns("Ext.util", "Ext.lib", "Ext.data");
Ext.elCache = {};
/**
* @class Function
* These functions are available on every Function object (any JavaScript function).
*/
Ext.apply(Function.prototype, {
/**
* Creates an interceptor function. The passed function is called before the original one. If it returns false,
* the original one is not called. The resulting function returns the results of the original function.
* The passed function is called with the parameters of the original function. Example usage:
* <pre><code>
var sayHi = function(name){
alert('Hi, ' + name);
}
sayHi('Fred'); // alerts "Hi, Fred"
// create a new function that validates input without
// directly modifying the original function:
var sayHiToFriend = sayHi.createInterceptor(function(name){
return name == 'Brian';
});
sayHiToFriend('Fred'); // no alert
sayHiToFriend('Brian'); // alerts "Hi, Brian"
</code></pre>
* @param {Function} fcn The function to call before the original
* @param {Object} scope (optional) The scope (<code><b>this</b></code> reference) in which the passed function is executed.
* <b>If omitted, defaults to the scope in which the original function is called or the browser window.</b>
* @return {Function} The new function
*/
createInterceptor : function(fcn, scope){
var method = this;
return !Ext.isFunction(fcn) ?
this :
function() {
var me = this,
args = arguments;
fcn.target = me;
fcn.method = method;
return (fcn.apply(scope || me || window, args) !== false) ?
method.apply(me || window, args) :
null;
};
},
/**
* Creates a callback that passes arguments[0], arguments[1], arguments[2], ...
* Call directly on any function. Example: <code>myFunction.createCallback(arg1, arg2)</code>
* Will create a function that is bound to those 2 args. <b>If a specific scope is required in the
* callback, use {@link #createDelegate} instead.</b> The function returned by createCallback always
* executes in the window scope.
* <p>This method is required when you want to pass arguments to a callback function. If no arguments
* are needed, you can simply pass a reference to the function as a callback (e.g., callback: myFn).
* However, if you tried to pass a function with arguments (e.g., callback: myFn(arg1, arg2)) the function
* would simply execute immediately when the code is parsed. Example usage:
* <pre><code>
var sayHi = function(name){
alert('Hi, ' + name);
}
// clicking the button alerts "Hi, Fred"
new Ext.Button({
text: 'Say Hi',
renderTo: Ext.getBody(),
handler: sayHi.createCallback('Fred')
});
</code></pre>
* @return {Function} The new function
*/
createCallback : function(/*args...*/){
// make args available, in function below
var args = arguments,
method = this;
return function() {
return method.apply(window, args);
};
},
/**
* Creates a delegate (callback) that sets the scope to obj.
* Call directly on any function. Example: <code>this.myFunction.createDelegate(this, [arg1, arg2])</code>
* Will create a function that is automatically scoped to obj so that the <tt>this</tt> variable inside the
* callback points to obj. Example usage:
* <pre><code>
var sayHi = function(name){
// Note this use of "this.text" here. This function expects to
// execute within a scope that contains a text property. In this
// example, the "this" variable is pointing to the btn object that
// was passed in createDelegate below.
alert('Hi, ' + name + '. You clicked the "' + this.text + '" button.');
}
var btn = new Ext.Button({
text: 'Say Hi',
renderTo: Ext.getBody()
});
// This callback will execute in the scope of the
// button instance. Clicking the button alerts
// "Hi, Fred. You clicked the "Say Hi" button."
btn.on('click', sayHi.createDelegate(btn, ['Fred']));
</code></pre>
* @param {Object} scope (optional) The scope (<code><b>this</b></code> reference) in which the function is executed.
* <b>If omitted, defaults to the browser window.</b>
* @param {Array} args (optional) Overrides arguments for the call. (Defaults to the arguments passed by the caller)
* @param {Boolean/Number} appendArgs (optional) if True args are appended to call args instead of overriding,
* if a number the args are inserted at the specified position
* @return {Function} The new function
*/
createDelegate : function(obj, args, appendArgs){
var method = this;
return function() {
var callArgs = args || arguments;
if (appendArgs === true){
callArgs = Array.prototype.slice.call(arguments, 0);
callArgs = callArgs.concat(args);
}else if (Ext.isNumber(appendArgs)){
callArgs = Array.prototype.slice.call(arguments, 0); // copy arguments first
var applyArgs = [appendArgs, 0].concat(args); // create method call params
Array.prototype.splice.apply(callArgs, applyArgs); // splice them in
}
return method.apply(obj || window, callArgs);
};
},
/**
* Calls this function after the number of millseconds specified, optionally in a specific scope. Example usage:
* <pre><code>
var sayHi = function(name){
alert('Hi, ' + name);
}
// executes immediately:
sayHi('Fred');
// executes after 2 seconds:
sayHi.defer(2000, this, ['Fred']);
// this syntax is sometimes useful for deferring
// execution of an anonymous function:
(function(){
alert('Anonymous');
}).defer(100);
</code></pre>
* @param {Number} millis The number of milliseconds for the setTimeout call (if less than or equal to 0 the function is executed immediately)
* @param {Object} scope (optional) The scope (<code><b>this</b></code> reference) in which the function is executed.
* <b>If omitted, defaults to the browser window.</b>
* @param {Array} args (optional) Overrides arguments for the call. (Defaults to the arguments passed by the caller)
* @param {Boolean/Number} appendArgs (optional) if True args are appended to call args instead of overriding,
* if a number the args are inserted at the specified position
* @return {Number} The timeout id that can be used with clearTimeout
*/
defer : function(millis, obj, args, appendArgs){
var fn = this.createDelegate(obj, args, appendArgs);
if(millis > 0){
return setTimeout(fn, millis);
}
fn();
return 0;
}
});
/**
* @class String
* These functions are available on every String object.
*/
Ext.applyIf(String, {
/**
* Allows you to define a tokenized string and pass an arbitrary number of arguments to replace the tokens. Each
* token must be unique, and must increment in the format {0}, {1}, etc. Example usage:
* <pre><code>
var cls = 'my-class', text = 'Some text';
var s = String.format('<div class="{0}">{1}</div>', cls, text);
// s now contains the string: '<div class="my-class">Some text</div>'
* </code></pre>
* @param {String} string The tokenized string to be formatted
* @param {String} value1 The value to replace token {0}
* @param {String} value2 Etc...
* @return {String} The formatted string
* @static
*/
format : function(format){
var args = Ext.toArray(arguments, 1);
return format.replace(/\{(\d+)\}/g, function(m, i){
return args[i];
});
}
});
/**
* @class Array
*/
Ext.applyIf(Array.prototype, {
/**
* Checks whether or not the specified object exists in the array.
* @param {Object} o The object to check for
* @param {Number} from (Optional) The index at which to begin the search
* @return {Number} The index of o in the array (or -1 if it is not found)
*/
indexOf : function(o, from){
var len = this.length;
from = from || 0;
from += (from < 0) ? len : 0;
for (; from < len; ++from){
if(this[from] === o){
return from;
}
}
return -1;
},
/**
* Removes the specified object from the array. If the object is not found nothing happens.
* @param {Object} o The object to remove
* @return {Array} this array
*/
remove : function(o){
var index = this.indexOf(o);
if(index != -1){
this.splice(index, 1);
}
return this;
}
});
/**
* @class Ext.util.TaskRunner
* Provides the ability to execute one or more arbitrary tasks in a multithreaded
* manner. Generally, you can use the singleton {@link Ext.TaskMgr} instead, but
* if needed, you can create separate instances of TaskRunner. Any number of
* separate tasks can be started at any time and will run independently of each
* other. Example usage:
* <pre><code>
// Start a simple clock task that updates a div once per second
var updateClock = function(){
Ext.fly('clock').update(new Date().format('g:i:s A'));
}
var task = {
run: updateClock,
interval: 1000 //1 second
}
var runner = new Ext.util.TaskRunner();
runner.start(task);
// equivalent using TaskMgr
Ext.TaskMgr.start({
run: updateClock,
interval: 1000
});
* </code></pre>
* Also see {@link Ext.util.DelayedTask}.
*
* @constructor
* @param {Number} interval (optional) The minimum precision in milliseconds supported by this TaskRunner instance
* (defaults to 10)
*/
Ext.util.TaskRunner = function(interval){
interval = interval || 10;
var tasks = [],
removeQueue = [],
id = 0,
running = false,
// private
stopThread = function(){
running = false;
clearInterval(id);
id = 0;
},
// private
startThread = function(){
if(!running){
running = true;
id = setInterval(runTasks, interval);
}
},
// private
removeTask = function(t){
removeQueue.push(t);
if(t.onStop){
t.onStop.apply(t.scope || t);
}
},
// private
runTasks = function(){
var rqLen = removeQueue.length,
now = new Date().getTime();
if(rqLen > 0){
for(var i = 0; i < rqLen; i++){
tasks.remove(removeQueue[i]);
}
removeQueue = [];
if(tasks.length < 1){
stopThread();
return;
}
}
for(var i = 0, t, itime, rt, len = tasks.length; i < len; ++i){
t = tasks[i];
itime = now - t.taskRunTime;
if(t.interval <= itime){
rt = t.run.apply(t.scope || t, t.args || [++t.taskRunCount]);
t.taskRunTime = now;
if(rt === false || t.taskRunCount === t.repeat){
removeTask(t);
return;
}
}
if(t.duration && t.duration <= (now - t.taskStartTime)){
removeTask(t);
}
}
};
/**
* Starts a new task.
* @method start
* @param {Object} task A config object that supports the following properties:<ul>
* <li><code>run</code> : Function<div class="sub-desc">The function to execute each time the task is run. The
* function will be called at each interval and passed the <code>args</code> argument if specified. If a
* particular scope is required, be sure to specify it using the <code>scope</code> argument.</div></li>
* <li><code>interval</code> : Number<div class="sub-desc">The frequency in milliseconds with which the task
* should be executed.</div></li>
* <li><code>args</code> : Array<div class="sub-desc">(optional) An array of arguments to be passed to the function
* specified by <code>run</code>.</div></li>
* <li><code>scope</code> : Object<div class="sub-desc">(optional) The scope (<tt>this</tt> reference) in which to execute the
* <code>run</code> function. Defaults to the task config object.</div></li>
* <li><code>duration</code> : Number<div class="sub-desc">(optional) The length of time in milliseconds to execute
* the task before stopping automatically (defaults to indefinite).</div></li>
* <li><code>repeat</code> : Number<div class="sub-desc">(optional) The number of times to execute the task before
* stopping automatically (defaults to indefinite).</div></li>
* </ul>
* @return {Object} The task
*/
this.start = function(task){
tasks.push(task);
task.taskStartTime = new Date().getTime();
task.taskRunTime = 0;
task.taskRunCount = 0;
startThread();
return task;
};
/**
* Stops an existing running task.
* @method stop
* @param {Object} task The task to stop
* @return {Object} The task
*/
this.stop = function(task){
removeTask(task);
return task;
};
/**
* Stops all tasks that are currently running.
* @method stopAll
*/
this.stopAll = function(){
stopThread();
for(var i = 0, len = tasks.length; i < len; i++){
if(tasks[i].onStop){
tasks[i].onStop();
}
}
tasks = [];
removeQueue = [];
};
};
/**
* @class Ext.TaskMgr
* @extends Ext.util.TaskRunner
* A static {@link Ext.util.TaskRunner} instance that can be used to start and stop arbitrary tasks. See
* {@link Ext.util.TaskRunner} for supported methods and task config properties.
* <pre><code>
// Start a simple clock task that updates a div once per second
var task = {
run: function(){
Ext.fly('clock').update(new Date().format('g:i:s A'));
},
interval: 1000 //1 second
}
Ext.TaskMgr.start(task);
</code></pre>
* @singleton
*/
Ext.TaskMgr = new Ext.util.TaskRunner();/**
* @class Ext.util.DelayedTask
* <p> The DelayedTask class provides a convenient way to "buffer" the execution of a method,
* performing setTimeout where a new timeout cancels the old timeout. When called, the
* task will wait the specified time period before executing. If durng that time period,
* the task is called again, the original call will be cancelled. This continues so that
* the function is only called a single time for each iteration.</p>
* <p>This method is especially useful for things like detecting whether a user has finished
* typing in a text field. An example would be performing validation on a keypress. You can
* use this class to buffer the keypress events for a certain number of milliseconds, and
* perform only if they stop for that amount of time. Usage:</p><pre><code>
var task = new Ext.util.DelayedTask(function(){
alert(Ext.getDom('myInputField').value.length);
});
// Wait 500ms before calling our function. If the user presses another key
// during that 500ms, it will be cancelled and we'll wait another 500ms.
Ext.get('myInputField').on('keypress', function(){
task.{@link #delay}(500);
});
* </code></pre>
* <p>Note that we are using a DelayedTask here to illustrate a point. The configuration
* option <tt>buffer</tt> for {@link Ext.util.Observable#addListener addListener/on} will
* also setup a delayed task for you to buffer events.</p>
* @constructor The parameters to this constructor serve as defaults and are not required.
* @param {Function} fn (optional) The default function to call.
* @param {Object} scope The default scope (The <code><b>this</b></code> reference) in which the
* function is called. If not specified, <code>this</code> will refer to the browser window.
* @param {Array} args (optional) The default Array of arguments.
*/
Ext.util.DelayedTask = function(fn, scope, args){
var me = this,
id,
call = function(){
clearInterval(id);
id = null;
fn.apply(scope, args || []);
};
/**
* Cancels any pending timeout and queues a new one
* @param {Number} delay The milliseconds to delay
* @param {Function} newFn (optional) Overrides function passed to constructor
* @param {Object} newScope (optional) Overrides scope passed to constructor. Remember that if no scope
* is specified, <code>this</code> will refer to the browser window.
* @param {Array} newArgs (optional) Overrides args passed to constructor
*/
me.delay = function(delay, newFn, newScope, newArgs){
me.cancel();
fn = newFn || fn;
scope = newScope || scope;
args = newArgs || args;
id = setInterval(call, delay);
};
/**
* Cancel the last queued timeout
*/
me.cancel = function(){
if(id){
clearInterval(id);
id = null;
}
};
};(function(){
var libFlyweight;
function fly(el) {
if (!libFlyweight) {
libFlyweight = new Ext.Element.Flyweight();
}
libFlyweight.dom = el;
return libFlyweight;
}
(function(){
var doc = document,
isCSS1 = doc.compatMode == "CSS1Compat",
MAX = Math.max,
ROUND = Math.round,
PARSEINT = parseInt;
Ext.lib.Dom = {
isAncestor : function(p, c) {
var ret = false;
p = Ext.getDom(p);
c = Ext.getDom(c);
if (p && c) {
if (p.contains) {
return p.contains(c);
} else if (p.compareDocumentPosition) {
return !!(p.compareDocumentPosition(c) & 16);
} else {
while (c = c.parentNode) {
ret = c == p || ret;
}
}
}
return ret;
},
getViewWidth : function(full) {
return full ? this.getDocumentWidth() : this.getViewportWidth();
},
getViewHeight : function(full) {
return full ? this.getDocumentHeight() : this.getViewportHeight();
},
getDocumentHeight: function() {
return MAX(!isCSS1 ? doc.body.scrollHeight : doc.documentElement.scrollHeight, this.getViewportHeight());
},
getDocumentWidth: function() {
return MAX(!isCSS1 ? doc.body.scrollWidth : doc.documentElement.scrollWidth, this.getViewportWidth());
},
getViewportHeight: function(){
return Ext.isIE ?
(Ext.isStrict ? doc.documentElement.clientHeight : doc.body.clientHeight) :
self.innerHeight;
},
getViewportWidth : function() {
return !Ext.isStrict && !Ext.isOpera ? doc.body.clientWidth :
Ext.isIE ? doc.documentElement.clientWidth : self.innerWidth;
},
getY : function(el) {
return this.getXY(el)[1];
},
getX : function(el) {
return this.getXY(el)[0];
},
getXY : function(el) {
var p,
pe,
b,
bt,
bl,
dbd,
x = 0,
y = 0,
scroll,
hasAbsolute,
bd = (doc.body || doc.documentElement),
ret = [0,0];
el = Ext.getDom(el);
if(el != bd){
if (el.getBoundingClientRect) {
b = el.getBoundingClientRect();
scroll = fly(document).getScroll();
ret = [ROUND(b.left + scroll.left), ROUND(b.top + scroll.top)];
} else {
p = el;
hasAbsolute = fly(el).isStyle("position", "absolute");
while (p) {
pe = fly(p);
x += p.offsetLeft;
y += p.offsetTop;
hasAbsolute = hasAbsolute || pe.isStyle("position", "absolute");
if (Ext.isGecko) {
y += bt = PARSEINT(pe.getStyle("borderTopWidth"), 10) || 0;
x += bl = PARSEINT(pe.getStyle("borderLeftWidth"), 10) || 0;
if (p != el && !pe.isStyle('overflow','visible')) {
x += bl;
y += bt;
}
}
p = p.offsetParent;
}
if (Ext.isSafari && hasAbsolute) {
x -= bd.offsetLeft;
y -= bd.offsetTop;
}
if (Ext.isGecko && !hasAbsolute) {
dbd = fly(bd);
x += PARSEINT(dbd.getStyle("borderLeftWidth"), 10) || 0;
y += PARSEINT(dbd.getStyle("borderTopWidth"), 10) || 0;
}
p = el.parentNode;
while (p && p != bd) {
if (!Ext.isOpera || (p.tagName != 'TR' && !fly(p).isStyle("display", "inline"))) {
x -= p.scrollLeft;
y -= p.scrollTop;
}
p = p.parentNod