/*! * Ext JS Library 3.2.0 * Copyright(c) 2006-2010 Ext JS, Inc. * licensing@extjs.com * http://www.extjs.com/license */ // for old browsers window.undefined = window.undefined; /** * @class Ext * Ext core utilities and functions. * @singleton */ Ext = { /** * The version of the framework * @type String */ version : '3.2.0' }; /** * 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(/\bchrome\b/), 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 ('about:blank', except for IE in secure mode, which is 'javascript:""'). * @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. * Note: Native JSON methods will not work with objects that have functions. * Also, property names must be quoted, otherwise the data will not parse. (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){ el = Ext.getDom(el, true) || {}; if (!el.id) { el.id = (prefix || "ext-gen") + (++idSeed); } return el.id; }, /** *

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.

* For example, to create a subclass of Ext GridPanel: *


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.
    }
});

* *

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:

subclass : Function
The subclass constructor.
superclass : Function
The constructor of class being extended
overrides : Object
A literal with members which are copied into the subclass's * prototype, and are therefore shared among all instances of the new class.

* * @param {Function} superclass The constructor of class being extended. * @param {Object} overrides

A literal with members which are copied into the subclass's * prototype, and are therefore shared between all instances of the new class.

This may contain a special member named constructor. This is used * to define the constructor of the new class, and is returned. If this property is * not specified, a constructor is generated and returned which just calls the * superclass's constructor passing on its parameters.

It is essential that you call the superclass constructor in any provided constructor. See example code.

* @return {Function} The subclass constructor from the overrides 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:


Ext.override(MyClass, {
    newMethod1: function(){
        // etc.
    },
    newMethod2: function(foo){
        // etc.
    }
});

* @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: *


Ext.namespace('Company', 'Company.data');
Ext.namespace('Company.data'); // equivalent and preferable to above syntax
Company.Widget = function() { ... }
Company.data.CustomStore = function(config) { ... }

* @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:


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"]}

* @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 index. This function is called with * the following arguments: *

item : Mixed *
The item at the current index * in the passed array
index : Number *
The current index within the array
allItems : Array *
The array passed as the first * argument to Ext.each.

* @param {Object} scope The scope (this reference) in which the specified function is executed. * Defaults to the item at the current index * within the passed array. * @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. * Note: 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: *

Arrays : (Object item, Number index, Array allItems) *
* When iterating an array, the supplied function is called with each item.
Objects : (String key, Object value, Object) *
* When iterating an object, the supplied function is called with each key-value pair in * the object, and the iterated object

* @param {Object} scope The scope (this reference) in which the specified function is executed. Defaults to * the object 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. * Optional 'strict' flag is needed for IE since it can return 'name' and * 'id' elements by using getElementById. * Here are some examples: *


// 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
}
         *

* Note: 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, strict){ if(!el || !DOC){ return null; } if (el.dom){ return el.dom; } else { if (Ext.isString(el)) { var e = DOC.getElementById(el); // IE returns elements with the 'name' and 'id' attribute. // we do a strict check to return the element with only the id attribute if (e && isIE && strict) { if (el == e.getAttribute('id')) { return e; } else { return null; } } return e; } else { return 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. */ /** *

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 * true, then DOM event listeners are also removed from all child nodes. The body node * will be ignored if passed in.

* @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]; } }, /** *

Returns true if the passed value is empty.

The value is deemed to be empty if it is

null
undefined
an empty array
a zero length string (Unless the allowBlank parameter is true)

* @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 : false; }, /** * 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: *


Ext.namespace('Company', 'Company.data');
Ext.namespace('Company.data'); // equivalent and preferable to above syntax
Company.Widget = function() { ... }
Company.data.CustomStore = function(config) { ... }

* @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: *


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"

* @param {Function} fcn The function to call before the original * @param {Object} scope (optional) The scope (this reference) in which the passed function is executed. * If omitted, defaults to the scope in which the original function is called or the browser window. * @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: myFunction.createCallback(arg1, arg2) * Will create a function that is bound to those 2 args. If a specific scope is required in the * callback, use {@link #createDelegate} instead. The function returned by createCallback always * executes in the window scope. *

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: *


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')
});

* @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: this.myFunction.createDelegate(this, [arg1, arg2]) * Will create a function that is automatically scoped to obj so that the this variable inside the * callback points to obj. Example usage: *


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']));

* @param {Object} scope (optional) The scope (this reference) in which the function is executed. * If omitted, defaults to the browser window. * @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: *


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);

* @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 (this reference) in which the function is executed. * If omitted, defaults to the browser window. * @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: *


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>'
     *

* @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 */ Ext.ns("Ext.grid", "Ext.list", "Ext.dd", "Ext.tree", "Ext.form", "Ext.menu", "Ext.state", "Ext.layout", "Ext.app", "Ext.ux", "Ext.chart", "Ext.direct"); /** * Namespace alloted for extensions to the framework. * @property ux * @type Object */ Ext.apply(Ext, function(){ var E = Ext, idSeed = 0, scrollWidth = null; return { /** * A reusable empty function * @property * @type Function */ emptyFn : function(){}, /** * URL to a 1x1 transparent gif image used by Ext to create inline icons with CSS background images. * In older versions of IE, this defaults to "http://extjs.com/s.gif" and you should change this to a URL on your server. * For other browsers it uses an inline data URL. * @type String */ BLANK_IMAGE_URL : Ext.isIE6 || Ext.isIE7 || Ext.isAir ? 'http:/' + '/extjs.com/s.gif' : 'data:image/gif;base64,R0lGODlhAQABAID/AMDAwAAAACH5BAEAAAAALAAAAAABAAEAAAICRAEAOw==', extendX : function(supr, fn){ return Ext.extend(supr, fn(supr.prototype)); }, /** * Returns the current HTML document object as an {@link Ext.Element}. * @return Ext.Element The document */ getDoc : function(){ return Ext.get(document); }, /** * Utility method for validating that a value is numeric, returning the specified default value if it is not. * @param {Mixed} value Should be a number, but any type will be handled appropriately * @param {Number} defaultValue The value to return if the original value is non-numeric * @return {Number} Value, if numeric, else defaultValue */ num : function(v, defaultValue){ v = Number(Ext.isEmpty(v) || Ext.isArray(v) || Ext.isBoolean(v) || (Ext.isString(v) && v.trim().length == 0) ? NaN : v); return isNaN(v) ? defaultValue : v; }, /** *

Utility method for returning a default value if the passed value is empty.

The value is deemed to be empty if it is

null
undefined
an empty array
a zero length string (Unless the allowBlank parameter is true)

* @param {Mixed} value The value to test * @param {Mixed} defaultValue The value to return if the original value is empty * @param {Boolean} allowBlank (optional) true to allow zero length strings to qualify as non-empty (defaults to false) * @return {Mixed} value, if non-empty, else defaultValue */ value : function(v, defaultValue, allowBlank){ return Ext.isEmpty(v, allowBlank) ? defaultValue : v; }, /** * Escapes the passed string for use in a regular expression * @param {String} str * @return {String} */ escapeRe : function(s) { return s.replace(/([-.*+?^${}()|[\]\/\\])/g, "\\$1"); }, sequence : function(o, name, fn, scope){ o[name] = o[name].createSequence(fn, scope); }, /** * Applies event listeners to elements by selectors when the document is ready. * The event name is specified with an @ suffix. *


Ext.addBehaviors({
    // add a listener for click on all anchors in element with id foo
    '#foo a@click' : function(e, t){
        // do something
    },
    
    // add the same listener to multiple selectors (separated by comma BEFORE the @)
    '#foo a, #bar span.some-class@mouseover' : function(){
        // do something
    }
});
         *

* @param {Object} obj The list of behaviors to apply */ addBehaviors : function(o){ if(!Ext.isReady){ Ext.onReady(function(){ Ext.addBehaviors(o); }); } else { var cache = {}, // simple cache for applying multiple behaviors to same selector does query multiple times parts, b, s; for (b in o) { if ((parts = b.split('@'))[1]) { // for Object prototype breakers s = parts[0]; if(!cache[s]){ cache[s] = Ext.select(s); } cache[s].on(parts[1], o[b]); } } cache = null; } }, /** * Utility method for getting the width of the browser scrollbar. This can differ depending on * operating system settings, such as the theme or font size. * @param {Boolean} force (optional) true to force a recalculation of the value. * @return {Number} The width of the scrollbar. */ getScrollBarWidth: function(force){ if(!Ext.isReady){ return 0; } if(force === true || scrollWidth === null){ // Append our div, do our calculation and then remove it var div = Ext.getBody().createChild('

'), child = div.child('div', true); var w1 = child.offsetWidth; div.setStyle('overflow', (Ext.isWebKit || Ext.isGecko) ? 'auto' : 'scroll'); var w2 = child.offsetWidth; div.remove(); // Need to add 2 to ensure we leave enough space scrollWidth = w1 - w2 + 2; } return scrollWidth; }, // deprecated combine : function(){ var as = arguments, l = as.length, r = []; for(var i = 0; i < l; i++){ var a = as[i]; if(Ext.isArray(a)){ r = r.concat(a); }else if(a.length !== undefined && !a.substr){ r = r.concat(Array.prototype.slice.call(a, 0)); }else{ r.push(a); } } return r; }, /** * Copies a set of named properties fom the source object to the destination object. *

example:


ImageComponent = Ext.extend(Ext.BoxComponent, {
    initComponent: function() {
        this.autoEl = { tag: 'img' };
        MyComponent.superclass.initComponent.apply(this, arguments);
        this.initialBox = Ext.copyTo({}, this.initialConfig, 'x,y,width,height');
    }
});
         *

* @param {Object} dest The destination object. * @param {Object} source The source object. * @param {Array/String} names Either an Array of property names, or a comma-delimited list * of property names to copy. * @return {Object} The modified object. */ copyTo : function(dest, source, names){ if(Ext.isString(names)){ names = names.split(/[,;\s]/); } Ext.each(names, function(name){ if(source.hasOwnProperty(name)){ dest[name] = source[name]; } }, this); return dest; }, /** * Attempts to destroy any objects passed to it by removing all event listeners, removing them from the * DOM (if applicable) and calling their destroy functions (if available). This method is primarily * intended for arguments of type {@link Ext.Element} and {@link Ext.Component}, but any subclass of * {@link Ext.util.Observable} can be passed in. Any number of elements and/or components can be * passed into this function in a single call as separate arguments. * @param {Mixed} arg1 An {@link Ext.Element}, {@link Ext.Component}, or an Array of either of these to destroy * @param {Mixed} arg2 (optional) * @param {Mixed} etc... (optional) */ destroy : function(){ Ext.each(arguments, function(arg){ if(arg){ if(Ext.isArray(arg)){ this.destroy.apply(this, arg); }else if(Ext.isFunction(arg.destroy)){ arg.destroy(); }else if(arg.dom){ arg.remove(); } } }, this); }, /** * Attempts to destroy and then remove a set of named properties of the passed object. * @param {Object} o The object (most likely a Component) who's properties you wish to destroy. * @param {Mixed} arg1 The name of the property to destroy and remove from the object. * @param {Mixed} etc... More property names to destroy and remove. */ destroyMembers : function(o, arg1, arg2, etc){ for(var i = 1, a = arguments, len = a.length; i < len; i++) { Ext.destroy(o[a[i]]); delete o[a[i]]; } }, /** * Creates a copy of the passed Array with falsy values removed. * @param {Array/NodeList} arr The Array from which to remove falsy values. * @return {Array} The new, compressed Array. */ clean : function(arr){ var ret = []; Ext.each(arr, function(v){ if(!!v){ ret.push(v); } }); return ret; }, /** * Creates a copy of the passed Array, filtered to contain only unique values. * @param {Array} arr The Array to filter * @return {Array} The new Array containing unique values. */ unique : function(arr){ var ret = [], collect = {}; Ext.each(arr, function(v) { if(!collect[v]){ ret.push(v); } collect[v] = true; }); return ret; }, /** * Recursively flattens into 1-d Array. Injects Arrays inline. * @param {Array} arr The array to flatten * @return {Array} The new, flattened array. */ flatten : function(arr){ var worker = []; function rFlatten(a) { Ext.each(a, function(v) { if(Ext.isArray(v)){ rFlatten(v); }else{ worker.push(v); } }); return worker; } return rFlatten(arr); }, /** * Returns the minimum value in the Array. * @param {Array|NodeList} arr The Array from which to select the minimum value. * @param {Function} comp (optional) a function to perform the comparision which determines minimization. * If omitted the "<" operator will be used. Note: gt = 1; eq = 0; lt = -1 * @return {Object} The minimum value in the Array. */ min : function(arr, comp){ var ret = arr[0]; comp = comp || function(a,b){ return a < b ? -1 : 1; }; Ext.each(arr, function(v) { ret = comp(ret, v) == -1 ? ret : v; }); return ret; }, /** * Returns the maximum value in the Array * @param {Array|NodeList} arr The Array from which to select the maximum value. * @param {Function} comp (optional) a function to perform the comparision which determines maximization. * If omitted the ">" operator will be used. Note: gt = 1; eq = 0; lt = -1 * @return {Object} The maximum value in the Array. */ max : function(arr, comp){ var ret = arr[0]; comp = comp || function(a,b){ return a > b ? 1 : -1; }; Ext.each(arr, function(v) { ret = comp(ret, v) == 1 ? ret : v; }); return ret; }, /** * Calculates the mean of the Array * @param {Array} arr The Array to calculate the mean value of. * @return {Number} The mean. */ mean : function(arr){ return arr.length > 0 ? Ext.sum(arr) / arr.length : undefined; }, /** * Calculates the sum of the Array * @param {Array} arr The Array to calculate the sum value of. * @return {Number} The sum. */ sum : function(arr){ var ret = 0; Ext.each(arr, function(v) { ret += v; }); return ret; }, /** * Partitions the set into two sets: a true set and a false set. * Example: * Example2: *


// Example 1:
Ext.partition([true, false, true, true, false]); // [[true, true, true], [false, false]]

// Example 2:
Ext.partition(
    Ext.query("p"),
    function(val){
        return val.className == "class1"
    }
);
// true are those paragraph elements with a className of "class1",
// false set are those that do not have that className.
         *

* @param {Array|NodeList} arr The array to partition * @param {Function} truth (optional) a function to determine truth. If this is omitted the element * itself must be able to be evaluated for its truthfulness. * @return {Array} [true,false] */ partition : function(arr, truth){ var ret = [[],[]]; Ext.each(arr, function(v, i, a) { ret[ (truth && truth(v, i, a)) || (!truth && v) ? 0 : 1].push(v); }); return ret; }, /** * Invokes a method on each item in an Array. *


// Example:
Ext.invoke(Ext.query("p"), "getAttribute", "id");
// [el1.getAttribute("id"), el2.getAttribute("id"), ..., elN.getAttribute("id")]
         *

* @param {Array|NodeList} arr The Array of items to invoke the method on. * @param {String} methodName The method name to invoke. * @param {...*} args Arguments to send into the method invocation. * @return {Array} The results of invoking the method on each item in the array. */ invoke : function(arr, methodName){ var ret = [], args = Array.prototype.slice.call(arguments, 2); Ext.each(arr, function(v,i) { if (v && Ext.isFunction(v[methodName])) { ret.push(v[methodName].apply(v, args)); } else { ret.push(undefined); } }); return ret; }, /** * Plucks the value of a property from each item in the Array *


// Example:
Ext.pluck(Ext.query("p"), "className"); // [el1.className, el2.className, ..., elN.className]
         *

* @param {Array|NodeList} arr The Array of items to pluck the value from. * @param {String} prop The property name to pluck from each element. * @return {Array} The value from each item in the Array. */ pluck : function(arr, prop){ var ret = []; Ext.each(arr, function(v) { ret.push( v[prop] ); }); return ret; }, /** *

Zips N sets together.


// Example 1:
Ext.zip([1,2,3],[4,5,6]); // [[1,4],[2,5],[3,6]]
// Example 2:
Ext.zip(
    [ "+", "-", "+"],
    [  12,  10,  22],
    [  43,  15,  96],
    function(a, b, c){
        return "$" + a + "" + b + "." + c
    }
); // ["$+12.43", "$-10.15", "$+22.96"]
         *

* @param {Arrays|NodeLists} arr This argument may be repeated. Array(s) to contribute values. * @param {Function} zipper (optional) The last item in the argument list. This will drive how the items are zipped together. * @return {Array} The zipped set. */ zip : function(){ var parts = Ext.partition(arguments, function( val ){ return !Ext.isFunction(val); }), arrs = parts[0], fn = parts[1][0], len = Ext.max(Ext.pluck(arrs, "length")), ret = []; for (var i = 0; i < len; i++) { ret[i] = []; if(fn){ ret[i] = fn.apply(fn, Ext.pluck(arrs, i)); }else{ for (var j = 0, aLen = arrs.length; j < aLen; j++){ ret[i].push( arrs[j][i] ); } } } return ret; }, /** * This is shorthand reference to {@link Ext.ComponentMgr#get}. * Looks up an existing {@link Ext.Component Component} by {@link Ext.Component#id id} * @param {String} id The component {@link Ext.Component#id id} * @return Ext.Component The Component, undefined if not found, or null if a * Class was found. */ getCmp : function(id){ return Ext.ComponentMgr.get(id); }, /** * By default, Ext intelligently decides whether floating elements should be shimmed. If you are using flash, * you may want to set this to true. * @type Boolean */ useShims: E.isIE6 || (E.isMac && E.isGecko2), // inpired by a similar function in mootools library /** * Returns the type of object that is passed in. If the object passed in is null or undefined it * return false otherwise it returns one of the following values:

string: If the object passed is a string
number: If the object passed is a number
boolean: If the object passed is a boolean value
date: If the object passed is a Date object
function: If the object passed is a function reference
object: If the object passed is an object
array: If the object passed is an array
regexp: If the object passed is a regular expression
element: If the object passed is a DOM Element
nodelist: If the object passed is a DOM NodeList
textnode: If the object passed is a DOM text node and contains something other than whitespace
whitespace: If the object passed is a DOM text node and contains only whitespace

* @param {Mixed} object * @return {String} */ type : function(o){ if(o === undefined || o === null){ return false; } if(o.htmlElement){ return 'element'; } var t = typeof o; if(t == 'object' && o.nodeName) { switch(o.nodeType) { case 1: return 'element'; case 3: return (/\S/).test(o.nodeValue) ? 'textnode' : 'whitespace'; } } if(t == 'object' || t == 'function') { switch(o.constructor) { case Array: return 'array'; case RegExp: return 'regexp'; case Date: return 'date'; } if(Ext.isNumber(o.length) && Ext.isFunction(o.item)) { return 'nodelist'; } } return t; }, intercept : function(o, name, fn, scope){ o[name] = o[name].createInterceptor(fn, scope); }, // internal callback : function(cb, scope, args, delay){ if(Ext.isFunction(cb)){ if(delay){ cb.defer(delay, scope, args || []); }else{ cb.apply(scope, args || []); } } } }; }()); /** * @class Function * These functions are available on every Function object (any JavaScript function). */ Ext.apply(Function.prototype, { /** * Create a combined function call sequence of the original function + the passed function. * The resulting function returns the results of the original function. * The passed fcn is called with the parameters of the original function. Example usage: *


var sayHi = function(name){
    alert('Hi, ' + name);
}

sayHi('Fred'); // alerts "Hi, Fred"

var sayGoodbye = sayHi.createSequence(function(name){
    alert('Bye, ' + name);
});

sayGoodbye('Fred'); // both alerts show

* @param {Function} fcn The function to sequence * @param {Object} scope (optional) The scope (this reference) in which the passed function is executed. * If omitted, defaults to the scope in which the original function is called or the browser window. * @return {Function} The new function */ createSequence : function(fcn, scope){ var method = this; return !Ext.isFunction(fcn) ? this : function(){ var retval = method.apply(this || window, arguments); fcn.apply(scope || this || window, arguments); return retval; }; } }); /** * @class String * These functions are available as static methods on the JavaScript String object. */ Ext.applyIf(String, { /** * Escapes the passed string for ' and \ * @param {String} string The string to escape * @return {String} The escaped string * @static */ escape : function(string) { return string.replace(/('|\\)/g, "\\$1"); }, /** * Pads the left side of a string with a specified character. This is especially useful * for normalizing number and date strings. Example usage: *


var s = String.leftPad('123', 5, '0');
// s now contains the string: '00123'
     *

* @param {String} string The original string * @param {Number} size The total length of the output string * @param {String} char (optional) The character with which to pad the original string (defaults to empty string " ") * @return {String} The padded string * @static */ leftPad : function (val, size, ch) { var result = String(val); if(!ch) { ch = " "; } while (result.length < size) { result = ch + result; } return result; } }); /** * Utility function that allows you to easily switch a string between two alternating values. The passed value * is compared to the current string, and if they are equal, the other value that was passed in is returned. If * they are already different, the first value passed in is returned. Note that this method returns the new value * but does not change the current string. *


// alternate sort directions
sort = sort.toggle('ASC', 'DESC');

// instead of conditional logic:
sort = (sort == 'ASC' ? 'DESC' : 'ASC');

* @param {String} value The value to compare to the current string * @param {String} other The new value to use if the string already equals the first value passed in * @return {String} The new value */ String.prototype.toggle = function(value, other){ return this == value ? other : value; }; /** * Trims whitespace from either end of a string, leaving spaces within the string intact. Example: *


var s = '  foo bar  ';
alert('-' + s + '-');         //alerts "- foo bar -"
alert('-' + s.trim() + '-');  //alerts "-foo bar-"

* @return {String} The trimmed string */ String.prototype.trim = function(){ var re = /^\s+|\s+$/g; return function(){ return this.replace(re, ""); }; }(); // here to prevent dependency on Date.js /** Returns the number of milliseconds between this date and date @param {Date} date (optional) Defaults to now @return {Number} The diff in milliseconds @member Date getElapsed */ Date.prototype.getElapsed = function(date) { return Math.abs((date || new Date()).getTime()-this.getTime()); }; /** * @class Number */ Ext.applyIf(Number.prototype, { /** * Checks whether or not the current number is within a desired range. If the number is already within the * range it is returned, otherwise the min or max value is returned depending on which side of the range is * exceeded. Note that this method returns the constrained value but does not change the current number. * @param {Number} min The minimum number in the range * @param {Number} max The maximum number in the range * @return {Number} The constrained value if outside the range, otherwise the current value */ constrain : function(min, max){ return Math.min(Math.max(this, min), max); } }); /** * @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: *


// 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
});

 *

See the {@link #start} method for details about how to configure a task object.

* 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:

run : Function
The function to execute each time the task is invoked. The * function will be called at each interval and passed the args argument if specified, and the * current invocation count if not.
*
If a particular scope (this reference) is required, be sure to specify it using the scope argument.
*
Return false from this function to terminate the task.
interval : Number
The frequency in milliseconds with which the task * should be invoked.
args : Array
(optional) An array of arguments to be passed to the function * specified by run. If not specified, the current invocation count is passed.
scope : Object
(optional) The scope (this reference) in which to execute the * run function. Defaults to the task config object.
duration : Number
(optional) The length of time in milliseconds to invoke * the task before stopping automatically (defaults to indefinite).
repeat : Number
(optional) The number of times to invoke the task before * stopping automatically (defaults to indefinite).

Before each invocation, Ext injects the property taskRunCount into the task object so * that calculations based on the repeat count can be performed.

* @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. *


// 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);

See the {@link #start} method for details about how to configure a task object.

* @singleton */ Ext.TaskMgr = new Ext.util.TaskRunner();(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.parentNode; } ret = [x,y]; } } return ret }, setXY : function(el, xy) { (el = Ext.fly(el, '_setXY')).position(); var pts = el.translatePoints(xy), style = el.dom.style, pos; for (pos in pts) { if(!isNaN(pts[pos])) style[pos] = pts[pos] + "px" } }, setX : function(el, x) { this.setXY(el, [x, false]); }, setY : function(el, y) { this.setXY(el, [false, y]); } }; })();Ext.lib.Dom.getRegion = function(el) { return Ext.lib.Region.getRegion(el); };Ext.lib.Event = function() { var loadComplete = false, unloadListeners = {}, retryCount = 0, onAvailStack = [], _interval, locked = false, win = window, doc = document, // constants POLL_RETRYS = 200, POLL_INTERVAL = 20, EL = 0, TYPE = 0, FN = 1, WFN = 2, OBJ = 2, ADJ_SCOPE = 3, SCROLLLEFT = 'scrollLeft', SCROLLTOP = 'scrollTop', UNLOAD = 'unload', MOUSEOVER = 'mouseover', MOUSEOUT = 'mouseout', // private doAdd = function() { var ret; if (win.addEventListener) { ret = function(el, eventName, fn, capture) { if (eventName == 'mouseenter') { fn = fn.createInterceptor(checkRelatedTarget); el.addEventListener(MOUSEOVER, fn, (capture)); } else if (eventName == 'mouseleave') { fn = fn.createInterceptor(checkRelatedTarget); el.addEventListener(MOUSEOUT, fn, (capture)); } else { el.addEventListener(eventName, fn, (capture)); } return fn; }; } else if (win.attachEvent) { ret = function(el, eventName, fn, capture) { el.attachEvent("on" + eventName, fn); return fn; }; } else { ret = function(){}; } return ret; }(), // private doRemove = function(){ var ret; if (win.removeEventListener) { ret = function (el, eventName, fn, capture) { if (eventName == 'mouseenter') { eventName = MOUSEOVER; } else if (eventName == 'mouseleave') { eventName = MOUSEOUT; } el.removeEventListener(eventName, fn, (capture)); }; } else if (win.detachEvent) { ret = function (el, eventName, fn) { el.detachEvent("on" + eventName, fn); }; } else { ret = function(){}; } return ret; }(); function checkRelatedTarget(e) { return !elContains(e.currentTarget, pub.getRelatedTarget(e)); } function elContains(parent, child) { if(parent && parent.firstChild){ while(child) { if(child === parent) { return true; } child = child.parentNode; if(child && (child.nodeType != 1)) { child = null; } } } return false; } // private function _tryPreloadAttach() { var ret = false, notAvail = [], element, i, len, v, tryAgain = !loadComplete || (retryCount > 0); if (!locked) { locked = true; for (i = 0, len = onAvailStack.length; i < len; i++) { v = onAvailStack[i]; if(v && (element = doc.getElementById(v.id))){ if(!v.checkReady || loadComplete || element.nextSibling || (doc && doc.body)) { element = v.override ? (v.override === true ? v.obj : v.override) : element; v.fn.call(element, v.obj); onAvailStack.remove(v); } else { notAvail.push(v); } } } retryCount = (notAvail.length === 0) ? 0 : retryCount - 1; if (tryAgain) { startInterval(); } else { clearInterval(_interval); _interval = null; } ret = !(locked = false); } return ret; } // private function startInterval() { if(!_interval){ var callback = function() { _tryPreloadAttach(); }; _interval = setInterval(callback, POLL_INTERVAL); } } // private function getScroll() { var dd = doc.documentElement, db = doc.body; if(dd && (dd[SCROLLTOP] || dd[SCROLLLEFT])){ return [dd[SCROLLLEFT], dd[SCROLLTOP]]; }else if(db){ return [db[SCROLLLEFT], db[SCROLLTOP]]; }else{ return [0, 0]; } } // private function getPageCoord (ev, xy) { ev = ev.browserEvent || ev; var coord = ev['page' + xy]; if (!coord && coord !== 0) { coord = ev['client' + xy] || 0; if (Ext.isIE) { coord += getScroll()[xy == "X" ? 0 : 1]; } } return coord; } var pub = { extAdapter: true, onAvailable : function(p_id, p_fn, p_obj, p_override) { onAvailStack.push({ id: p_id, fn: p_fn, obj: p_obj, override: p_override, checkReady: false }); retryCount = POLL_RETRYS; startInterval(); }, // This function should ALWAYS be called from Ext.EventManager addListener: function(el, eventName, fn) { el = Ext.getDom(el); if (el && fn) { if (eventName == UNLOAD) { if (unloadListeners[el.id] === undefined) { unloadListeners[el.id] = []; } unloadListeners[el.id].push([eventName, fn]); return fn; } return doAdd(el, eventName, fn, false); } return false; }, // This function should ALWAYS be called from Ext.EventManager removeListener: function(el, eventName, fn) { el = Ext.getDom(el); var i, len, li, lis; if (el && fn) { if(eventName == UNLOAD){ if((lis = unloadListeners[el.id]) !== undefined){ for(i = 0, len = lis.length; i < len; i++){ if((li = lis[i]) && li[TYPE] == eventName && li[FN] == fn){ unloadListeners[el.id].splice(i, 1); } } } return; } doRemove(el, eventName, fn, false); } }, getTarget : function(ev) { ev = ev.browserEvent || ev; return this.resolveTextNode(ev.target || ev.srcElement); }, resolveTextNode : Ext.isGecko ? function(node){ if(!node){ return; } // work around firefox bug, https://bugzilla.mozilla.org/show_bug.cgi?id=101197 var s = HTMLElement.prototype.toString.call(node); if(s == '[xpconnect wrapped native prototype]' || s == '[object XULElement]'){ return; } return node.nodeType == 3 ? node.parentNode : node; } : function(node){ return node && node.nodeType == 3 ? node.parentNode : node; }, getRelatedTarget : function(ev) { ev = ev.browserEvent || ev; return this.resolveTextNode(ev.relatedTarget || (ev.type == MOUSEOUT ? ev.toElement : ev.type == MOUSEOVER ? ev.fromElement : null)); }, getPageX : function(ev) { return getPageCoord(ev, "X"); }, getPageY : function(ev) { return getPageCoord(ev, "Y"); }, getXY : function(ev) { return [this.getPageX(ev), this.getPageY(ev)]; }, stopEvent : function(ev) { this.stopPropagation(ev); this.preventDefault(ev); }, stopPropagation : function(ev) { ev = ev.browserEvent || ev; if (ev.stopPropagation) { ev.stopPropagation(); } else { ev.cancelBubble = true; } }, preventDefault : function(ev) { ev = ev.browserEvent || ev; if (ev.preventDefault) { ev.preventDefault(); } else { ev.returnValue = false; } }, getEvent : function(e) { e = e || win.event; if (!e) { var c = this.getEvent.caller; while (c) { e = c.arguments[0]; if (e && Event == e.constructor) { break; } c = c.caller; } } return e; }, getCharCode : function(ev) { ev = ev.browserEvent || ev; return ev.charCode || ev.keyCode || 0; }, //clearCache: function() {}, // deprecated, call from EventManager getListeners : function(el, eventName) { Ext.EventManager.getListeners(el, eventName); }, // deprecated, call from EventManager purgeElement : function(el, recurse, eventName) { Ext.EventManager.purgeElement(el, recurse, eventName); }, _load : function(e) { loadComplete = true; var EU = Ext.lib.Event; if (Ext.isIE && e !== true) { // IE8 complains that _load is null or not an object // so lets remove self via arguments.callee doRemove(win, "load", arguments.callee); } }, _unload : function(e) { var EU = Ext.lib.Event, i, j, l, v, ul, id, len, index, scope; for (id in unloadListeners) { ul = unloadListeners[id]; for (i = 0, len = ul.length; i < len; i++) { v = ul[i]; if (v) { try{ scope = v[ADJ_SCOPE] ? (v[ADJ_SCOPE] === true ? v[OBJ] : v[ADJ_SCOPE]) : win; v[FN].call(scope, EU.getEvent(e), v[OBJ]); }catch(ex){} } } }; Ext.EventManager._unload(); doRemove(win, UNLOAD, EU._unload); } }; // Initialize stuff. pub.on = pub.addListener; pub.un = pub.removeListener; if (doc && doc.body) { pub._load(true); } else { doAdd(win, "load", pub._load); } doAdd(win, UNLOAD, pub._unload); _tryPreloadAttach(); return pub; }(); /* * Portions of this file are based on pieces of Yahoo User Interface Library * Copyright (c) 2007, Yahoo! Inc. All rights reserved. * YUI licensed under the BSD License: * http://developer.yahoo.net/yui/license.txt */ Ext.lib.Ajax = function() { var activeX = ['MSXML2.XMLHTTP.3.0', 'MSXML2.XMLHTTP', 'Microsoft.XMLHTTP'], CONTENTTYPE = 'Content-Type'; // private function setHeader(o) { var conn = o.conn, prop; function setTheHeaders(conn, headers){ for (prop in headers) { if (headers.hasOwnProperty(prop)) { conn.setRequestHeader(prop, headers[prop]); } } } if (pub.defaultHeaders) { setTheHeaders(conn, pub.defaultHeaders); } if (pub.headers) { setTheHeaders(conn, pub.headers); delete pub.headers; } } // private function createExceptionObject(tId, callbackArg, isAbort, isTimeout) { return { tId : tId, status : isAbort ? -1 : 0, statusText : isAbort ? 'transaction aborted' : 'communication failure', isAbort: isAbort, isTimeout: isTimeout, argument : callbackArg }; } // private function initHeader(label, value) { (pub.headers = pub.headers || {})[label] = value; } // private function createResponseObject(o, callbackArg) { var headerObj = {}, headerStr, conn = o.conn, t, s, // see: https://prototype.lighthouseapp.com/projects/8886/tickets/129-ie-mangles-http-response-status-code-204-to-1223 isBrokenStatus = conn.status == 1223; try { headerStr = o.conn.getAllResponseHeaders(); Ext.each(headerStr.replace(/\r\n/g, '\n').split('\n'), function(v){ t = v.indexOf(':'); if(t >= 0){ s = v.substr(0, t).toLowerCase(); if(v.charAt(t + 1) == ' '){ ++t; } headerObj[s] = v.substr(t + 1); } }); } catch(e) {} return { tId : o.tId, // Normalize the status and statusText when IE returns 1223, see the above link. status : isBrokenStatus ? 204 : conn.status, statusText : isBrokenStatus ? 'No Content' : conn.statusText, getResponseHeader : function(header){return headerObj[header.toLowerCase()];}, getAllResponseHeaders : function(){return headerStr}, responseText : conn.responseText, responseXML : conn.responseXML, argument : callbackArg }; } // private function releaseObject(o) { if (o.tId) { pub.conn[o.tId] = null; } o.conn = null; o = null; } // private function handleTransactionResponse(o, callback, isAbort, isTimeout) { if (!callback) { releaseObject(o); return; } var httpStatus, responseObject; try { if (o.conn.status !== undefined && o.conn.status != 0) { httpStatus = o.conn.status; } else { httpStatus = 13030; } } catch(e) { httpStatus = 13030; } if ((httpStatus >= 200 && httpStatus < 300) || (Ext.isIE && httpStatus == 1223)) { responseObject = createResponseObject(o, callback.argument); if (callback.success) { if (!callback.scope) { callback.success(responseObject); } else { callback.success.apply(callback.scope, [responseObject]); } } } else { switch (httpStatus) { case 12002: case 12029: case 12030: case 12031: case 12152: case 13030: responseObject = createExceptionObject(o.tId, callback.argument, (isAbort ? isAbort : false), isTimeout); if (callback.failure) { if (!callback.scope) { callback.failure(responseObject); } else { callback.failure.apply(callback.scope, [responseObject]); } } break; default: responseObject = createResponseObject(o, callback.argument); if (callback.failure) { if (!callback.scope) { callback.failure(responseObject); } else { callback.failure.apply(callback.scope, [responseObject]); } } } } releaseObject(o); responseObject = null; } // private function handleReadyState(o, callback){ callback = callback || {}; var conn = o.conn, tId = o.tId, poll = pub.poll, cbTimeout = callback.timeout || null; if (cbTimeout) { pub.conn[tId] = conn; pub.timeout[tId] = setTimeout(function() { pub.abort(o, callback, true); }, cbTimeout); } poll[tId] = setInterval( function() { if (conn && conn.readyState == 4) { clearInterval(poll[tId]); poll[tId] = null; if (cbTimeout) { clearTimeout(pub.timeout[tId]); pub.timeout[tId] = null; } handleTransactionResponse(o, callback); } }, pub.pollInterval); } // private function asyncRequest(method, uri, callback, postData) { var o = getConnectionObject() || null; if (o) { o.conn.open(method, uri, true); if (pub.useDefaultXhrHeader) { initHeader('X-Requested-With', pub.defaultXhrHeader); } if(postData && pub.useDefaultHeader && (!pub.headers || !pub.headers[CONTENTTYPE])){ initHeader(CONTENTTYPE, pub.defaultPostHeader); } if (pub.defaultHeaders || pub.headers) { setHeader(o); } handleReadyState(o, callback); o.conn.send(postData || null); } return o; } // private function getConnectionObject() { var o; try { if (o = createXhrObject(pub.transactionId)) { pub.transactionId++; } } catch(e) { } finally { return o; } } // private function createXhrObject(transactionId) { var http; try { http = new XMLHttpRequest(); } catch(e) { for (var i = 0; i < activeX.length; ++i) { try { http = new ActiveXObject(activeX[i]); break; } catch(e) {} } } finally { return {conn : http, tId : transactionId}; } } var pub = { request : function(method, uri, cb, data, options) { if(options){ var me = this, xmlData = options.xmlData, jsonData = options.jsonData, hs; Ext.applyIf(me, options); if(xmlData || jsonData){ hs = me.headers; if(!hs || !hs[CONTENTTYPE]){ initHeader(CONTENTTYPE, xmlData ? 'text/xml' : 'application/json'); } data = xmlData || (!Ext.isPrimitive(jsonData) ? Ext.encode(jsonData) : jsonData); } } return asyncRequest(method || options.method || "POST", uri, cb, data); }, serializeForm : function(form) { var fElements = form.elements || (document.forms[form] || Ext.getDom(form)).elements, hasSubmit = false, encoder = encodeURIComponent, element, options, name, val, data = '', type; Ext.each(fElements, function(element) { name = element.name; type = element.type; if (!element.disabled && name){ if(/select-(one|multiple)/i.test(type)) { Ext.each(element.options, function(opt) { if (opt.selected) { data += String.format("{0}={1}&", encoder(name), encoder((opt.hasAttribute ? opt.hasAttribute('value') : opt.getAttribute('value') !== null) ? opt.value : opt.text)); } }); } else if(!/file|undefined|reset|button/i.test(type)) { if(!(/radio|checkbox/i.test(type) && !element.checked) && !(type == 'submit' && hasSubmit)){ data += encoder(name) + '=' + encoder(element.value) + '&'; hasSubmit = /submit/i.test(type); } } } }); return data.substr(0, data.length - 1); }, useDefaultHeader : true, defaultPostHeader : 'application/x-www-form-urlencoded; charset=UTF-8', useDefaultXhrHeader : true, defaultXhrHeader : 'XMLHttpRequest', poll : {}, timeout : {}, conn: {}, pollInterval : 50, transactionId : 0, // This is never called - Is it worth exposing this? // setProgId : function(id) { // activeX.unshift(id); // }, // This is never called - Is it worth exposing this? // setDefaultPostHeader : function(b) { // this.useDefaultHeader = b; // }, // This is never called - Is it worth exposing this? // setDefaultXhrHeader : function(b) { // this.useDefaultXhrHeader = b; // }, // This is never called - Is it worth exposing this? // setPollingInterval : function(i) { // if (typeof i == 'number' && isFinite(i)) { // this.pollInterval = i; // } // }, // This is never called - Is it worth exposing this? // resetDefaultHeaders : function() { // this.defaultHeaders = null; // }, abort : function(o, callback, isTimeout) { var me = this, tId = o.tId, isAbort = false; if (me.isCallInProgress(o)) { o.conn.abort(); clearInterval(me.poll[tId]); me.poll[tId] = null; clearTimeout(pub.timeout[tId]); me.timeout[tId] = null; handleTransactionResponse(o, callback, (isAbort = true), isTimeout); } return isAbort; }, isCallInProgress : function(o) { // if there is a connection and readyState is not 0 or 4 return o.conn && !{0:true,4:true}[o.conn.readyState]; } }; return pub; }(); Ext.lib.Region = function(t, r, b, l) { var me = this; me.top = t; me[1] = t; me.right = r; me.bottom = b; me.left = l; me[0] = l; }; Ext.lib.Region.prototype = { contains : function(region) { var me = this; return ( region.left >= me.left && region.right <= me.right && region.top >= me.top && region.bottom <= me.bottom ); }, getArea : function() { var me = this; return ( (me.bottom - me.top) * (me.right - me.left) ); }, intersect : function(region) { var me = this, t = Math.max(me.top, region.top), r = Math.min(me.right, region.right), b = Math.min(me.bottom, region.bottom), l = Math.max(me.left, region.left); if (b >= t && r >= l) { return new Ext.lib.Region(t, r, b, l); } }, union : function(region) { var me = this, t = Math.min(me.top, region.top), r = Math.max(me.right, region.right), b = Math.max(me.bottom, region.bottom), l = Math.min(me.left, region.left); return new Ext.lib.Region(t, r, b, l); }, constrainTo : function(r) { var me = this; me.top = me.top.constrain(r.top, r.bottom); me.bottom = me.bottom.constrain(r.top, r.bottom); me.left = me.left.constrain(r.left, r.right); me.right = me.right.constrain(r.left, r.right); return me; }, adjust : function(t, l, b, r) { var me = this; me.top += t; me.left += l; me.right += r; me.bottom += b; return me; } }; Ext.lib.Region.getRegion = function(el) { var p = Ext.lib.Dom.getXY(el), t = p[1], r = p[0] + el.offsetWidth, b = p[1] + el.offsetHeight, l = p[0]; return new Ext.lib.Region(t, r, b, l); }; Ext.lib.Point = function(x, y) { if (Ext.isArray(x)) { y = x[1]; x = x[0]; } var me = this; me.x = me.right = me.left = me[0] = x; me.y = me.top = me.bottom = me[1] = y; }; Ext.lib.Point.prototype = new Ext.lib.Region(); (function(){ var EXTLIB = Ext.lib, noNegatives = /width|height|opacity|padding/i, offsetAttribute = /^((width|height)|(top|left))$/, defaultUnit = /width|height|top$|bottom$|left$|right$/i, offsetUnit = /\d+(em|%|en|ex|pt|in|cm|mm|pc)$/i, isset = function(v){ return typeof v !== 'undefined'; }, now = function(){ return new Date(); }; EXTLIB.Anim = { motion : function(el, args, duration, easing, cb, scope) { return this.run(el, args, duration, easing, cb, scope, Ext.lib.Motion); }, run : function(el, args, duration, easing, cb, scope, type) { type = type || Ext.lib.AnimBase; if (typeof easing == "string") { easing = Ext.lib.Easing[easing]; } var anim = new type(el, args, duration, easing); anim.animateX(function() { if(Ext.isFunction(cb)){ cb.call(scope); } }); return anim; } }; EXTLIB.AnimBase = function(el, attributes, duration, method) { if (el) { this.init(el, attributes, duration, method); } }; EXTLIB.AnimBase.prototype = { doMethod: function(attr, start, end) { var me = this; return me.method(me.curFrame, start, end - start, me.totalFrames); }, setAttr: function(attr, val, unit) { if (noNegatives.test(attr) && val < 0) { val = 0; } Ext.fly(this.el, '_anim').setStyle(attr, val + unit); }, getAttr: function(attr) { var el = Ext.fly(this.el), val = el.getStyle(attr), a = offsetAttribute.exec(attr) || []; if (val !== 'auto' && !offsetUnit.test(val)) { return parseFloat(val); } return (!!(a[2]) || (el.getStyle('position') == 'absolute' && !!(a[3]))) ? el.dom['offset' + a[0].charAt(0).toUpperCase() + a[0].substr(1)] : 0; }, getDefaultUnit: function(attr) { return defaultUnit.test(attr) ? 'px' : ''; }, animateX : function(callback, scope) { var me = this, f = function() { me.onComplete.removeListener(f); if (Ext.isFunction(callback)) { callback.call(scope || me, me); } }; me.onComplete.addListener(f, me); me.animate(); }, setRunAttr: function(attr) { var me = this, a = this.attributes[attr], to = a.to, by = a.by, from = a.from, unit = a.unit, ra = (this.runAttrs[attr] = {}), end; if (!isset(to) && !isset(by)){ return false; } var start = isset(from) ? from : me.getAttr(attr); if (isset(to)) { end = to; }else if(isset(by)) { if (Ext.isArray(start)){ end = []; for(var i=0,len=start.length; i 0 && isFinite(tweak)){ if(tween.curFrame + tweak >= frames){ tweak = frames - (frame + 1); } tween.curFrame += tweak; } }; }; EXTLIB.Bezier = new function() { this.getPosition = function(points, t) { var n = points.length, tmp = [], c = 1 - t, i, j; for (i = 0; i < n; ++i) { tmp[i] = [points[i][0], points[i][1]]; } for (j = 1; j < n; ++j) { for (i = 0; i < n - j; ++i) { tmp[i][0] = c * tmp[i][0] + t * tmp[parseInt(i + 1, 10)][0]; tmp[i][1] = c * tmp[i][1] + t * tmp[parseInt(i + 1, 10)][1]; } } return [ tmp[0][0], tmp[0][1] ]; }; }; EXTLIB.Easing = { easeNone: function (t, b, c, d) { return c * t / d + b; }, easeIn: function (t, b, c, d) { return c * (t /= d) * t + b; }, easeOut: function (t, b, c, d) { return -c * (t /= d) * (t - 2) + b; } }; (function() { EXTLIB.Motion = function(el, attributes, duration, method) { if (el) { EXTLIB.Motion.superclass.constructor.call(this, el, attributes, duration, method); } }; Ext.extend(EXTLIB.Motion, Ext.lib.AnimBase); var superclass = EXTLIB.Motion.superclass, proto = EXTLIB.Motion.prototype, pointsRe = /^points$/i; Ext.apply(EXTLIB.Motion.prototype, { setAttr: function(attr, val, unit){ var me = this, setAttr = superclass.setAttr; if (pointsRe.test(attr)) { unit = unit || 'px'; setAttr.call(me, 'left', val[0], unit); setAttr.call(me, 'top', val[1], unit); } else { setAttr.call(me, attr, val, unit); } }, getAttr: function(attr){ var me = this, getAttr = superclass.getAttr; return pointsRe.test(attr) ? [getAttr.call(me, 'left'), getAttr.call(me, 'top')] : getAttr.call(me, attr); }, doMethod: function(attr, start, end){ var me = this; return pointsRe.test(attr) ? EXTLIB.Bezier.getPosition(me.runAttrs[attr], me.method(me.curFrame, 0, 100, me.totalFrames) / 100) : superclass.doMethod.call(me, attr, start, end); }, setRunAttr: function(attr){ if(pointsRe.test(attr)){ var me = this, el = this.el, points = this.attributes.points, control = points.control || [], from = points.from, to = points.to, by = points.by, DOM = EXTLIB.Dom, start, i, end, len, ra; if(control.length > 0 && !Ext.isArray(control[0])){ control = [control]; }else{ /* var tmp = []; for (i = 0,len = control.length; i < len; ++i) { tmp[i] = control[i]; } control = tmp; */ } Ext.fly(el, '_anim').position(); DOM.setXY(el, isset(from) ? from : DOM.getXY(el)); start = me.getAttr('points'); if(isset(to)){ end = translateValues.call(me, to, start); for (i = 0,len = control.length; i < len; ++i) { control[i] = translateValues.call(me, control[i], start); } } else if (isset(by)) { end = [start[0] + by[0], start[1] + by[1]]; for (i = 0,len = control.length; i < len; ++i) { control[i] = [ start[0] + control[i][0], start[1] + control[i][1] ]; } } ra = this.runAttrs[attr] = [start]; if (control.length > 0) { ra = ra.concat(control); } ra[ra.length] = end; }else{ superclass.setRunAttr.call(this, attr); } } }); var translateValues = function(val, start) { var pageXY = EXTLIB.Dom.getXY(this.el); return [val[0] - pageXY[0] + start[0], val[1] - pageXY[1] + start[1]]; }; })(); })();// Easing functions (function(){ // shortcuts to aid compression var abs = Math.abs, pi = Math.PI, asin = Math.asin, pow = Math.pow, sin = Math.sin, EXTLIB = Ext.lib; Ext.apply(EXTLIB.Easing, { easeBoth: function (t, b, c, d) { return ((t /= d / 2) < 1) ? c / 2 * t * t + b : -c / 2 * ((--t) * (t - 2) - 1) + b; }, easeInStrong: function (t, b, c, d) { return c * (t /= d) * t * t * t + b; }, easeOutStrong: function (t, b, c, d) { return -c * ((t = t / d - 1) * t * t * t - 1) + b; }, easeBothStrong: function (t, b, c, d) { return ((t /= d / 2) < 1) ? c / 2 * t * t * t * t + b : -c / 2 * ((t -= 2) * t * t * t - 2) + b; }, elasticIn: function (t, b, c, d, a, p) { if (t == 0 || (t /= d) == 1) { return t == 0 ? b : b + c; } p = p || (d * .3); var s; if (a >= abs(c)) { s = p / (2 * pi) * asin(c / a); } else { a = c; s = p / 4; } return -(a * pow(2, 10 * (t -= 1)) * sin((t * d - s) * (2 * pi) / p)) + b; }, elasticOut: function (t, b, c, d, a, p) { if (t == 0 || (t /= d) == 1) { return t == 0 ? b : b + c; } p = p || (d * .3); var s; if (a >= abs(c)) { s = p / (2 * pi) * asin(c / a); } else { a = c; s = p / 4; } return a * pow(2, -10 * t) * sin((t * d - s) * (2 * pi) / p) + c + b; }, elasticBoth: function (t, b, c, d, a, p) { if (t == 0 || (t /= d / 2) == 2) { return t == 0 ? b : b + c; } p = p || (d * (.3 * 1.5)); var s; if (a >= abs(c)) { s = p / (2 * pi) * asin(c / a); } else { a = c; s = p / 4; } return t < 1 ? -.5 * (a * pow(2, 10 * (t -= 1)) * sin((t * d - s) * (2 * pi) / p)) + b : a * pow(2, -10 * (t -= 1)) * sin((t * d - s) * (2 * pi) / p) * .5 + c + b; }, backIn: function (t, b, c, d, s) { s = s || 1.70158; return c * (t /= d) * t * ((s + 1) * t - s) + b; }, backOut: function (t, b, c, d, s) { if (!s) { s = 1.70158; } return c * ((t = t / d - 1) * t * ((s + 1) * t + s) + 1) + b; }, backBoth: function (t, b, c, d, s) { s = s || 1.70158; return ((t /= d / 2 ) < 1) ? c / 2 * (t * t * (((s *= (1.525)) + 1) * t - s)) + b : c / 2 * ((t -= 2) * t * (((s *= (1.525)) + 1) * t + s) + 2) + b; }, bounceIn: function (t, b, c, d) { return c - EXTLIB.Easing.bounceOut(d - t, 0, c, d) + b; }, bounceOut: function (t, b, c, d) { if ((t /= d) < (1 / 2.75)) { return c * (7.5625 * t * t) + b; } else if (t < (2 / 2.75)) { return c * (7.5625 * (t -= (1.5 / 2.75)) * t + .75) + b; } else if (t < (2.5 / 2.75)) { return c * (7.5625 * (t -= (2.25 / 2.75)) * t + .9375) + b; } return c * (7.5625 * (t -= (2.625 / 2.75)) * t + .984375) + b; }, bounceBoth: function (t, b, c, d) { return (t < d / 2) ? EXTLIB.Easing.bounceIn(t * 2, 0, c, d) * .5 + b : EXTLIB.Easing.bounceOut(t * 2 - d, 0, c, d) * .5 + c * .5 + b; } }); })(); (function() { var EXTLIB = Ext.lib; // Color Animation EXTLIB.Anim.color = function(el, args, duration, easing, cb, scope) { return EXTLIB.Anim.run(el, args, duration, easing, cb, scope, EXTLIB.ColorAnim); } EXTLIB.ColorAnim = function(el, attributes, duration, method) { EXTLIB.ColorAnim.superclass.constructor.call(this, el, attributes, duration, method); }; Ext.extend(EXTLIB.ColorAnim, EXTLIB.AnimBase); var superclass = EXTLIB.ColorAnim.superclass, colorRE = /color$/i, transparentRE = /^transparent|rgba$0, 0, 0, 0$$/, rgbRE = /^rgb$([0-9]+)\s*,\s*([0-9]+)\s*,\s*([0-9]+)$$/i, hexRE= /^#?([0-9A-F]{2})([0-9A-F]{2})([0-9A-F]{2})$/i, hex3RE = /^#?([0-9A-F]{1})([0-9A-F]{1})([0-9A-F]{1})$/i, isset = function(v){ return typeof v !== 'undefined'; }; // private function parseColor(s) { var pi = parseInt, base, out = null, c; if (s.length == 3) { return s; } Ext.each([hexRE, rgbRE, hex3RE], function(re, idx){ base = (idx % 2 == 0) ? 16 : 10; c = re.exec(s); if(c && c.length == 4){ out = [pi(c[1], base), pi(c[2], base), pi(c[3], base)]; return false; } }); return out; } Ext.apply(EXTLIB.ColorAnim.prototype, { getAttr : function(attr) { var me = this, el = me.el, val; if(colorRE.test(attr)){ while(el && transparentRE.test(val = Ext.fly(el).getStyle(attr))){ el = el.parentNode; val = "fff"; } }else{ val = superclass.getAttr.call(me, attr); } return val; }, doMethod : function(attr, start, end) { var me = this, val, floor = Math.floor, i, len, v; if(colorRE.test(attr)){ val = []; end = end || []; for(i = 0, len = start.length; i < len; i++) { v = start[i]; val[i] = superclass.doMethod.call(me, attr, v, end[i]); } val = 'rgb(' + floor(val[0]) + ',' + floor(val[1]) + ',' + floor(val[2]) + ')'; }else{ val = superclass.doMethod.call(me, attr, start, end); } return val; }, setRunAttr : function(attr) { var me = this, a = me.attributes[attr], to = a.to, by = a.by, ra; superclass.setRunAttr.call(me, attr); ra = me.runAttrs[attr]; if(colorRE.test(attr)){ var start = parseColor(ra.start), end = parseColor(ra.end); if(!isset(to) && isset(by)){ end = parseColor(by); for(var i=0,len=start.length; i