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/*
This file is part of Ext JS 4.2
Copyright (c) 2011-2013 Sencha Inc
Contact: http://www.sencha.com/contact
GNU General Public License Usage
This file may be used under the terms of the GNU General Public License version 3.0 as
published by the Free Software Foundation and appearing in the file LICENSE included in the
packaging of this file.
Please review the following information to ensure the GNU General Public License version 3.0
requirements will be met: http://www.gnu.org/copyleft/gpl.html.
If you are unsure which license is appropriate for your use, please contact the sales department
at http://www.sencha.com/contact.
Build date: 2013-05-16 14:36:50 (f9be68accb407158ba2b1be2c226a6ce1f649314)
*/
// @tag foundation,core
// @require Base.js
// @define Ext.Class
/**
* @author Jacky Nguyen <jacky@sencha.com>
* @docauthor Jacky Nguyen <jacky@sencha.com>
* @class Ext.Class
*
* Handles class creation throughout the framework. This is a low level factory that is used by Ext.ClassManager and generally
* should not be used directly. If you choose to use Ext.Class you will lose out on the namespace, aliasing and depency loading
* features made available by Ext.ClassManager. The only time you would use Ext.Class directly is to create an anonymous class.
*
* If you wish to create a class you should use {@link Ext#define Ext.define} which aliases
* {@link Ext.ClassManager#create Ext.ClassManager.create} to enable namespacing and dynamic dependency resolution.
*
* Ext.Class is the factory and **not** the superclass of everything. For the base class that **all** Ext classes inherit
* from, see {@link Ext.Base}.
*/
(function() {
var ExtClass,
Base = Ext.Base,
baseStaticMembers = [],
baseStaticMember, baseStaticMemberLength;
for (baseStaticMember in Base) {
if (Base.hasOwnProperty(baseStaticMember)) {
baseStaticMembers.push(baseStaticMember);
}
}
baseStaticMemberLength = baseStaticMembers.length;
// Creates a constructor that has nothing extra in its scope chain.
function makeCtor (className) {
function constructor () {
// Opera has some problems returning from a constructor when Dragonfly isn't running. The || null seems to
// be sufficient to stop it misbehaving. Known to be required against 10.53, 11.51 and 11.61.
return this.constructor.apply(this, arguments) || null;
}
//<debug>
if (className) {
constructor.displayName = className;
}
//</debug>
return constructor;
}
/**
* @method constructor
* Create a new anonymous class.
*
* @param {Object} data An object represent the properties of this class
* @param {Function} onCreated Optional, the callback function to be executed when this class is fully created.
* Note that the creation process can be asynchronous depending on the pre-processors used.
*
* @return {Ext.Base} The newly created class
*/
Ext.Class = ExtClass = function(Class, data, onCreated) {
if (typeof Class != 'function') {
onCreated = data;
data = Class;
Class = null;
}
if (!data) {
data = {};
}
Class = ExtClass.create(Class, data);
ExtClass.process(Class, data, onCreated);
return Class;
};
Ext.apply(ExtClass, {
/**
* @private
*/
onBeforeCreated: function(Class, data, hooks) {
//<debug>
Ext.classSystemMonitor && Ext.classSystemMonitor(Class, '>> Ext.Class#onBeforeCreated', arguments);
//</debug>
Class.addMembers(data);
hooks.onCreated.call(Class, Class);
//<debug>
Ext.classSystemMonitor && Ext.classSystemMonitor(Class, '<< Ext.Class#onBeforeCreated', arguments);
//</debug>
},
/**
* @private
*/
create: function(Class, data) {
var name, i;
if (!Class) {
Class = makeCtor(
//<debug>
data.$className
//</debug>
);
}
for (i = 0; i < baseStaticMemberLength; i++) {
name = baseStaticMembers[i];
Class[name] = Base[name];
}
return Class;
},
/**
* @private
*/
process: function(Class, data, onCreated) {
var preprocessorStack = data.preprocessors || ExtClass.defaultPreprocessors,
registeredPreprocessors = this.preprocessors,
hooks = {
onBeforeCreated: this.onBeforeCreated
},
preprocessors = [],
preprocessor, preprocessorsProperties,
i, ln, j, subLn, preprocessorProperty;
delete data.preprocessors;
for (i = 0,ln = preprocessorStack.length; i < ln; i++) {
preprocessor = preprocessorStack[i];
if (typeof preprocessor == 'string') {
preprocessor = registeredPreprocessors[preprocessor];
preprocessorsProperties = preprocessor.properties;
if (preprocessorsProperties === true) {
preprocessors.push(preprocessor.fn);
}
else if (preprocessorsProperties) {
for (j = 0,subLn = preprocessorsProperties.length; j < subLn; j++) {
preprocessorProperty = preprocessorsProperties[j];
if (data.hasOwnProperty(preprocessorProperty)) {
preprocessors.push(preprocessor.fn);
break;
}
}
}
}
else {
preprocessors.push(preprocessor);
}
}
hooks.onCreated = onCreated ? onCreated : Ext.emptyFn;
hooks.preprocessors = preprocessors;
this.doProcess(Class, data, hooks);
},
doProcess: function(Class, data, hooks) {
var me = this,
preprocessors = hooks.preprocessors,
preprocessor = preprocessors.shift(),
doProcess = me.doProcess;
for ( ; preprocessor ; preprocessor = preprocessors.shift()) {
// Returning false signifies an asynchronous preprocessor - it will call doProcess when we can continue
if (preprocessor.call(me, Class, data, hooks, doProcess) === false) {
return;
}
}
hooks.onBeforeCreated.apply(me, arguments);
},
/** @private */
preprocessors: {},
/**
* Register a new pre-processor to be used during the class creation process
*
* @param {String} name The pre-processor's name
* @param {Function} fn The callback function to be executed. Typical format:
*
* function(cls, data, fn) {
* // Your code here
*
* // Execute this when the processing is finished.
* // Asynchronous processing is perfectly ok
* if (fn) {
* fn.call(this, cls, data);
* }
* });
*
* @param {Function} fn.cls The created class
* @param {Object} fn.data The set of properties passed in {@link Ext.Class} constructor
* @param {Function} fn.fn The callback function that **must** to be executed when this
* pre-processor finishes, regardless of whether the processing is synchronous or aynchronous.
* @return {Ext.Class} this
* @private
* @static
*/
registerPreprocessor: function(name, fn, properties, position, relativeTo) {
if (!position) {
position = 'last';
}
if (!properties) {
properties = [name];
}
this.preprocessors[name] = {
name: name,
properties: properties || false,
fn: fn
};
this.setDefaultPreprocessorPosition(name, position, relativeTo);
return this;
},
/**
* Retrieve a pre-processor callback function by its name, which has been registered before
*
* @param {String} name
* @return {Function} preprocessor
* @private
* @static
*/
getPreprocessor: function(name) {
return this.preprocessors[name];
},
/**
* @private
*/
getPreprocessors: function() {
return this.preprocessors;
},
/**
* @private
*/
defaultPreprocessors: [],
/**
* Retrieve the array stack of default pre-processors
* @return {Function[]} defaultPreprocessors
* @private
* @static
*/
getDefaultPreprocessors: function() {
return this.defaultPreprocessors;
},
/**
* Set the default array stack of default pre-processors
*
* @private
* @param {Array} preprocessors
* @return {Ext.Class} this
* @static
*/
setDefaultPreprocessors: function(preprocessors) {
this.defaultPreprocessors = Ext.Array.from(preprocessors);
return this;
},
/**
* Insert this pre-processor at a specific position in the stack, optionally relative to
* any existing pre-processor. For example:
*
* Ext.Class.registerPreprocessor('debug', function(cls, data, fn) {
* // Your code here
*
* if (fn) {
* fn.call(this, cls, data);
* }
* }).setDefaultPreprocessorPosition('debug', 'last');
*
* @private
* @param {String} name The pre-processor name. Note that it needs to be registered with
* {@link Ext.Class#registerPreprocessor registerPreprocessor} before this
* @param {String} offset The insertion position. Four possible values are:
* 'first', 'last', or: 'before', 'after' (relative to the name provided in the third argument)
* @param {String} relativeName
* @return {Ext.Class} this
* @static
*/
setDefaultPreprocessorPosition: function(name, offset, relativeName) {
var defaultPreprocessors = this.defaultPreprocessors,
index;
if (typeof offset == 'string') {
if (offset === 'first') {
defaultPreprocessors.unshift(name);
return this;
}
else if (offset === 'last') {
defaultPreprocessors.push(name);
return this;
}
offset = (offset === 'after') ? 1 : -1;
}
index = Ext.Array.indexOf(defaultPreprocessors, relativeName);
if (index !== -1) {
Ext.Array.splice(defaultPreprocessors, Math.max(0, index + offset), 0, name);
}
return this;
},
configNameCache: {},
getConfigNameMap: function(name) {
var cache = this.configNameCache,
map = cache[name],
capitalizedName;
if (!map) {
capitalizedName = name.charAt(0).toUpperCase() + name.substr(1);
map = cache[name] = {
internal: name,
initialized: '_is' + capitalizedName + 'Initialized',
apply: 'apply' + capitalizedName,
update: 'update' + capitalizedName,
'set': 'set' + capitalizedName,
'get': 'get' + capitalizedName,
doSet : 'doSet' + capitalizedName,
changeEvent: name.toLowerCase() + 'change'
};
}
return map;
}
});
/**
* @cfg {String} extend
* The parent class that this class extends. For example:
*
* Ext.define('Person', {
* say: function(text) { alert(text); }
* });
*
* Ext.define('Developer', {
* extend: 'Person',
* say: function(text) { this.callParent(["print "+text]); }
* });
*/
ExtClass.registerPreprocessor('extend', function(Class, data, hooks) {
//<debug>
Ext.classSystemMonitor && Ext.classSystemMonitor(Class, 'Ext.Class#extendPreProcessor', arguments);
//</debug>
var Base = Ext.Base,
basePrototype = Base.prototype,
extend = data.extend,
Parent, parentPrototype, i;
delete data.extend;
if (extend && extend !== Object) {
Parent = extend;
}
else {
Parent = Base;
}
parentPrototype = Parent.prototype;
if (!Parent.$isClass) {
for (i in basePrototype) {
if (!parentPrototype[i]) {
parentPrototype[i] = basePrototype[i];
}
}
}
Class.extend(Parent);
Class.triggerExtended.apply(Class, arguments);
if (data.onClassExtended) {
Class.onExtended(data.onClassExtended, Class);
delete data.onClassExtended;
}
}, true);
//<feature classSystem.statics>
/**
* @cfg {Object} statics
* List of static methods for this class. For example:
*
* Ext.define('Computer', {
* statics: {
* factory: function(brand) {
* // 'this' in static methods refer to the class itself
* return new this(brand);
* }
* },
*
* constructor: function() { ... }
* });
*
* var dellComputer = Computer.factory('Dell');
*/
ExtClass.registerPreprocessor('statics', function(Class, data) {
//<debug>
Ext.classSystemMonitor && Ext.classSystemMonitor(Class, 'Ext.Class#staticsPreprocessor', arguments);
//</debug>
Class.addStatics(data.statics);
delete data.statics;
});
//</feature>
//<feature classSystem.inheritableStatics>
/**
* @cfg {Object} inheritableStatics
* List of inheritable static methods for this class.
* Otherwise just like {@link #statics} but subclasses inherit these methods.
*/
ExtClass.registerPreprocessor('inheritableStatics', function(Class, data) {
//<debug>
Ext.classSystemMonitor && Ext.classSystemMonitor(Class, 'Ext.Class#inheritableStaticsPreprocessor', arguments);
//</debug>
Class.addInheritableStatics(data.inheritableStatics);
delete data.inheritableStatics;
});
//</feature>
//<feature classSystem.config>
/**
* @cfg {Object} config
* List of configuration options with their default values, for which automatically
* accessor methods are generated. For example:
*
* Ext.define('SmartPhone', {
* config: {
* hasTouchScreen: false,
* operatingSystem: 'Other',
* price: 500
* },
* constructor: function(cfg) {
* this.initConfig(cfg);
* }
* });
*
* var iPhone = new SmartPhone({
* hasTouchScreen: true,
* operatingSystem: 'iOS'
* });
*
* iPhone.getPrice(); // 500;
* iPhone.getOperatingSystem(); // 'iOS'
* iPhone.getHasTouchScreen(); // true;
*
* NOTE for when configs are reference types, the getter and setter methods do not make copies.
*
* For example, when a config value is set, the reference is stored on the instance. All instances that set
* the same reference type will share it.
*
* In the case of the getter, the value with either come from the prototype if the setter was never called or from
* the instance as the last value passed to the setter.
*
* For some config properties, the value passed to the setter is transformed prior to being stored on the instance.
*/
ExtClass.registerPreprocessor('config', function(Class, data) {
//<debug>
Ext.classSystemMonitor && Ext.classSystemMonitor(Class, 'Ext.Class#configPreProcessor', arguments);
//</debug>
var config = data.config,
prototype = Class.prototype;
delete data.config;
Ext.Object.each(config, function(name, value) {
var nameMap = ExtClass.getConfigNameMap(name),
internalName = nameMap.internal,
initializedName = nameMap.initialized,
applyName = nameMap.apply,
updateName = nameMap.update,
setName = nameMap.set,
getName = nameMap.get,
hasOwnSetter = (setName in prototype) || data.hasOwnProperty(setName),
hasOwnApplier = (applyName in prototype) || data.hasOwnProperty(applyName),
hasOwnUpdater = (updateName in prototype) || data.hasOwnProperty(updateName),
optimizedGetter, customGetter;
if (value === null || (!hasOwnSetter && !hasOwnApplier && !hasOwnUpdater)) {
prototype[internalName] = value;
prototype[initializedName] = true;
}
else {
prototype[initializedName] = false;
}
if (!hasOwnSetter) {
data[setName] = function(value) {
var oldValue = this[internalName],
applier = this[applyName],
updater = this[updateName];
if (!this[initializedName]) {
this[initializedName] = true;
}
if (applier) {
value = applier.call(this, value, oldValue);
}
if (typeof value != 'undefined') {
this[internalName] = value;
if (updater && value !== oldValue) {
updater.call(this, value, oldValue);
}
}
return this;
};
}
if (!(getName in prototype) || data.hasOwnProperty(getName)) {
customGetter = data[getName] || false;
if (customGetter) {
optimizedGetter = function() {
return customGetter.apply(this, arguments);
};
}
else {
optimizedGetter = function() {
return this[internalName];
};
}
data[getName] = function() {
var currentGetter;
if (!this[initializedName]) {
this[initializedName] = true;
this[setName](this.config[name]);
}
currentGetter = this[getName];
if ('$previous' in currentGetter) {
currentGetter.$previous = optimizedGetter;
}
else {
this[getName] = optimizedGetter;
}
return optimizedGetter.apply(this, arguments);
};
}
});
Class.addConfig(config, true);
});
//</feature>
//<feature classSystem.mixins>
/**
* @cfg {String[]/Object} mixins
* List of classes to mix into this class. For example:
*
* Ext.define('CanSing', {
* sing: function() {
* alert("I'm on the highway to hell...")
* }
* });
*
* Ext.define('Musician', {
* mixins: ['CanSing']
* })
*
* In this case the Musician class will get a `sing` method from CanSing mixin.
*
* But what if the Musician already has a `sing` method? Or you want to mix
* in two classes, both of which define `sing`? In such a cases it's good
* to define mixins as an object, where you assign a name to each mixin:
*
* Ext.define('Musician', {
* mixins: {
* canSing: 'CanSing'
* },
*
* sing: function() {
* // delegate singing operation to mixin
* this.mixins.canSing.sing.call(this);
* }
* })
*
* In this case the `sing` method of Musician will overwrite the
* mixed in `sing` method. But you can access the original mixed in method
* through special `mixins` property.
*/
ExtClass.registerPreprocessor('mixins', function(Class, data, hooks) {
//<debug>
Ext.classSystemMonitor && Ext.classSystemMonitor(Class, 'Ext.Class#mixinsPreprocessor', arguments);
//</debug>
var mixins = data.mixins,
name, mixin, i, ln;
delete data.mixins;
Ext.Function.interceptBefore(hooks, 'onCreated', function() {
//<debug>
Ext.classSystemMonitor && Ext.classSystemMonitor(Class, 'Ext.Class#mixinsPreprocessor#beforeCreated', arguments);
//</debug>
if (mixins instanceof Array) {
for (i = 0,ln = mixins.length; i < ln; i++) {
mixin = mixins[i];
name = mixin.prototype.mixinId || mixin.$className;
Class.mixin(name, mixin);
}
}
else {
for (var mixinName in mixins) {
if (mixins.hasOwnProperty(mixinName)) {
Class.mixin(mixinName, mixins[mixinName]);
}
}
}
});
});
//</feature>
//<feature classSystem.backwardsCompatible>
// Backwards compatible
Ext.extend = function(Class, Parent, members) {
//<debug>
Ext.classSystemMonitor && Ext.classSystemMonitor(Class, 'Ext.Class#extend-backwards-compatible', arguments);
//</debug>
if (arguments.length === 2 && Ext.isObject(Parent)) {
members = Parent;
Parent = Class;
Class = null;
}
var cls;
if (!Parent) {
throw new Error("[Ext.extend] Attempting to extend from a class which has not been loaded on the page.");
}
members.extend = Parent;
members.preprocessors = [
'extend'
//<feature classSystem.statics>
,'statics'
//</feature>
//<feature classSystem.inheritableStatics>
,'inheritableStatics'
//</feature>
//<feature classSystem.mixins>
,'mixins'
//</feature>
//<feature classSystem.config>
,'config'
//</feature>
];
if (Class) {
cls = new ExtClass(Class, members);
// The 'constructor' is given as 'Class' but also needs to be on prototype
cls.prototype.constructor = Class;
} else {
cls = new ExtClass(members);
}
cls.prototype.override = function(o) {
for (var m in o) {
if (o.hasOwnProperty(m)) {
this[m] = o[m];
}
}
};
return cls;
};
//</feature>
}());