A Class object that enables native prototypal inheritance for Node and modern browsers.
It's called class because it encapsulate your methods, provide inheritance, set static and prototype methods and variables, and provide helper functions along all your instances.
Why should we write code like if we were in 2010? Read on!
- Multiple inheritance made easy
- Support
get
,set
,__defineGetter__
,__defineSetter__
without any extra code - It's freaking fast, check the benchmark section
- Uses
Object.setPrototypeOf
(when available, using__proto__
when isn't),Object.create
andObject.defineProperty
ES5/ES6 methods to enable native prototypal inheritance with proper settings (enumerable, configurable, writable) - Works with Node.js 0.8.x and up (including node-webkit), and really modern browsers (IE11, Firefox, Chrome, Safari).
- Functions to implement other class methods and include other instance/prototype methods
- The
$implement
method imports both prototype and class methods - The
$include
method imports prototype methods, and class methods as prototype
- The
- Takes advantage of ES5 non-writable properties to disable the possibility of messing up the classes
- Ability to inherit from multiple classes using arrays using
ES5Class.$define('YourClass', [Class1, Class2, Class3])
without setting the$parent
class, working like mixins/traits - Inject and call
$super
to reach the parent instance class functions or extended class method - Call
this.$parent
to reach the parent class definition inside your methods this.$implements
array property contain all classes that were implemented into the current class instance- The
construct
method is called with arguments when the class is instantiated this.$class
is available everywhere, it returns the current class, even before instantiation- You are free to instantiate your class using
Class.$create(arguments)
,Class(arguments)
andnew Class(arguments)
See docs in ES5Class Documentation
Version 1.x had this.$super
call, but it wasn't "async safe". If you would execute it in an asynchronous (setImmediate
,
setTimeout
, inside Promises or other callbacks), this.$super
could be either undefined or be another function, since
this.$super
was a global state variable on the instance.
To solve this, the $super
(idea taken from Prototype.js) must be injected as the first parameter on your function.
Before you'd call your $super
classes like this:
var Base = ES5Class.$define('Base', {
construct: function(that, those){
this.that = that;
this.those = those;
}
});
var Sub = Base.$define('Sub', {
construct: function(those){
this.$super('that', those);
}
});
Sub.$create('those');
In version 2.x, you need to call it like:
var Base = ES5Class.$define('Base', {
construct: function(that, those){
this.that = that;
this.those = those;
}
});
var Sub = Base.$define('Sub', {
construct: function($super, those){
$super('that', those);
}
});
Sub.$create('those');
$super
is merely a shortcut for this.$parent.prototype.fn.apply(this, arguments);
(actually a bit fancier than that).
Nothing stops you from doing that by yourself (if you don't fancy the $super
argument injection)
In version 2.x you'll also need better-curry as a dependency.
$ npm install es5class
$ bower install es5class
// In node.js
var ES5Class = require('es5class');
// or in the browser
window.ES5Class
// or with RequireJS
define(['ES5Class'], function(ES5Class){
});
var Animal = ES5Class.$define(
// Class Name
'Animal',
// Prototype methods/variables, these will only be available through a class instance, in this case, through Animal.$create('Name')
{
construct: function (name){ // this is called automatically on instantiation
this.name = name;
},
getName : function (){
return this.name;
}
},
// Class methods/variables, this will only be available through Animal, as in Animal.count or Animal.getCount()
{
count : 0,
getCount: function (){
return this.count;
}
}
);
var Bird = Animal.$define('Bird', {
construct: function ($super, name, canFly){
// calls parent class constructor, calls Animal.prototype.construct
// and set this.name
if (canFly) {
this.canFly = canFly;
}
$super(name + ' Bird');
},
// Bird.prototype.canFly
canFly : false
});
// append functions to the prototype. existing functions in the prototype are
// wrapped for $super access
Bird.$include({
// Bird.prototype.fly
fly: function (){
if (this.canFly) {
console.log(this.name + ' flies!');
} else {
console.log(this.name + ' cant fly');
}
}
});
// "Implement" import the prototype (if it has a prototype) and class methods from the
// given object, to the class declaration
var
Class1 = ES5Class.$define('Class1'),
obj = {yup: true},
h = function(){};
h.prototype.nope = false;
Class1.$implement([obj, h]);
console.log(Class1.yup); // true (imported to the class declaration)
console.log(Class1.$create().nope); // false (imported to the prototype)
You can call the inheriting class $super
construct by passing true to the second parameter,
for example:
var EventEmitter = require('events').EventEmitter;
// this code is the same as
ES5Class.$define('MyEventEmitter', function(){
this.$implement(EventEmitter);
return {
construct: function(){
EventEmitter.call(this);
}
};
});
// this one (much cleaner)
ES5Class.$define('MyEventEmitter').$implement(EventEmitter, true);
// There's no need for the construct + implement if you are just creating
// an inheritance from another Node.js class
// So it's easier to set the second parameter of implement to true, it
// will call the parent class constructor automatically
Because it's really easy to forget to initialize the super constructor of the inheriting class
// "Implement" import class methods *ONLY* from the given object,
// to the class declaration prototype *ONLY*
var
Class1 = ES5Class.$define('Class1'),
obj = {yup: true},
h = function(){};
h.prototype.nope = false;
h.yep = false;
Class1.$include([obj, h]);
// true (imported to the prototype)
console.log(Class1.$create().yup);
// undefined (not imported since it's in the prototype of the "h" object)
console.log(Class1.nope);
// undefined (not imported since it's in the prototype of the "h" object)
console.log(Class1.$create().nope);
// false (imported to the prototype since it's in the declaration of the "h" object)
console.log(Class1.$create().yep);
var MyEventClass = ES5Class.$define('MyEventEmitter', function(){
var base = this;
base.$implement(require('events').EventEmitter); // inherit from EventEmitter
return {
construct: function(){
var self = this;
process.nextTick(function(){
self.emit('created', base); // we can use it in construct already!
});
}
};
});
MyEventClass.$create().on('created', function(base){
expect(base).to.eql(MyEventClass);
expect(base.prototype.on).to.be.a('function');
});
// or
MyEventClass.$inherit(require('events').EventEmitter, []);
var
MyClass = ES5Class.$define('MyClass').$const({
cant: 'touch this'
});
MyClass.cant = false;
// still 'touch this'
// throws exception on strict mode
Bird.$include(function (_super){
// _super is the Animal prototype (the parent), it contains only
// "construct" and "getName" per definitions above
// "super" is a javascript reserved word, that's why it's being called _super here
var timesBeaked = 0;
// "this" refers to the current Class definition, that is, Bird, so you can access
// static variables plus the prototype, before it's [re]defined
//
// this.prototype.getName();
// this.count
//
// you may want to set var self = this; for usage inside the functions
return {
beak: function (){
return ++timesBeaked;
}
};
});
Bird.$implement(function (_super){
// _super is the Animal class itself (the parent)
// "this" refers to the current Class definition, the same way it happens
// when extending the prototype (using $include), you may access this.prototype in
// here as well
var catalog = {};
return {
catalog: function (bird){ // Bird.catalog() is now available
if (arguments.length) {
for(var i = 0; i < arguments.length; i++) {
catalog[arguments[i].name] = arguments[i];
}
}
return catalog;
}
};
});
var MyEmptyClass = ESClass.$define('MyEmptyClass');
MyEmptyClass.$create().$exchange(Error); // MyEmptyClass instance now 'looks like' an Error instance
var MyEmptyClass = ESClass.$define('MyEmptyClass');
var instance = MyEmptyClass.$create().$import({
somenew: function(){
}
});
instance.somenew();
ES5Class.$define('MyClass',{
some:'member',
somefn:function(){}
}).$create().$names;
// ['some','somefn']
var someRandomObject = {};
var MyClass = ES5Class.$wrap(someRandomObject, 'MyClass'); // creates a new class
ES5Class.$wrap(MyClass); // returns itself
// These functions and values persist between class creation, serve as static methods
Animal.$implement({
run: function() {
for(var i=1; i<=10; i++) {
this.ran++; // this refer to the current class definition (either Dog, Animal or Cat)
// you may change it to Animal.ran to make the same value available to all classes
// also, you may use the this.$parent.ran to set it always on the Animal class when
// calling on extended classes (Dog and Cat)
console.log("Animal ran for " + i + " miles!");
}
},
ran: 0
});
var Dog = Animal.$define('Dog');
Animal.run(); // Dog.ran and Animal.ran are 10
var Cat = Animal.$define('Cat');
Cat.run(); // Cat.ran is 20, Dog.ran and Animal.ran are 10
Dog.run(); //
Dog.run(); // Cat.ran is 20, Dog.ran is 30 and Animal.ran is 10
// If you implement the same method, you can update the parent using this.$parent
// If you want to update the parent value, you can also use this.$parent.ran
Dog.$implement({
run: function(){
this.ran += 10;
this.$parent.run(); // Animal.ran is now 20
}
});
Dog.run(); // Dog.ran is now 40, Animal.ran and Cat.ran are now 20
// primitives are copied over to new classes (in this case, Cat and Dog)
// objects retain their reference between all classes
var animal = Animal.$create("An Animal");
var bird = Bird.$create("A Bird");
var bird2 = Bird("Another bird");
var bird3 = new Bird("Also a bird");
animal.$instanceOf(Animal); // true
animal.$instanceOf(Bird); // false
bird.$instanceOf(Animal); // true
bird.$instanceOf(Bird); // true
bird.$instanceOf(Class); // true
Animal.$className; // 'Animal'
bird.$class; // returns the Bird class definition, you can do a $class.$create('instance', 'params')
bird.$class.$className // 'Bird'
bird.$class.$parent.$className // 'Animal'
bird.$parent.$className // 'Animal'
bird.$parent.$parent.$className // 'ES5Class'
bird.$isClass(Bird); // true
Animal.$isClass(Bird); // false
var Class1 = ES5Class.$define('Class1', {}, {done: true}),
Class2 = ES5Class.$define('Class2', {func: function(){ return true; }}),
Class3 = ES5Class.$define('Class3', {}, {yet: true});
// This mix in the whole class (prototype and class methods)
var NewClass = ES5Class.$define('NewClass', {}, [Class1, Class2, Class3]);
// Pay attention that it needs to go in the second parameter if you want
// to copy the object properties AND the prototype properties
// or using NewClass.$implement([Class1, Class2, Class3]);
Class1.done = false; // Changing the base classes doesn't change the mixin'd class
console.log(NewClass.done); // true
console.log(NewClass.yet); // true
console.log(NewClass.$parent); // ES5Class
console.log(NewClass.$implements); // [Class1,Class2,Class3]
console.log(NewClass.$create().func()); // true
console.log(NewClass.$create().$class.done); // true
// This mix in class methods as prototypes
NewClass = ES5Class.$define('NewClass', [Class1, Class2, Class3]);
console.log(NewClass.$create().yet); // true
console.log(NewClass.$create().done); // false
console.log(NewClass.$create().func); // undefined
var Singleton = ES5Class.$define('Singleton', {}, {
staticHelper: function(){
return 'helper';
},
staticVariable: 1
});
var ExtraSingleton = ES5Class.$define('Extra');
ExtraSingleton.$implement(Singleton);
ExtraSingleton.$implement({
extra: true,
staticHelper: function($super){
return 'Extra' + $super();
}
});
Singleton.extra // undefined
ExtraSingleton.extra // true
ExtraSingleton.staticVariable // 1
ExtraSingleton.staticHelper(); // 'Extrahelper'
var Share = ES5Class.$define('Share', function(){
var _data = {}; //all private data, that is shared between each Share.$create()
return {
construct: function(){
this.$class.count++;
},
append: function(name, data){
_data[name] = data;
}
}
}, {
count: 0 // exposed variable
});
var one = Share.$create('one'), two = Share.$create('two'); // Share.count is now 2
one.append('dub', true); // _data is now {'dub': true}
two.append('dub', false); // _data is now {'dub': false}
two.append('bleh', [1,2,3]); // _data is now {'dub': false, 'bleh': [1,2,3]}
var Op = ES5Class.$define('Op', {
construct: function (number){
this.number = number;
},
operator : function (number){
return number;
}
});
var Mul = Op.$define('Multiply', {
operator: function (number){
return number * this.number;
}
});
var Div = Op.$define('Divide', {
operator: function (number){
return number / this.number;
}
});
var Sum = Op.$define('Sum', {
operator: function (number){
return number + this.number;
}
});
var Operation = ES5Class.$define('Operation', {}, function (){
var
classes = [],
number = 0;
return {
add : function (clss){
for (var i = 0, len = clss.length; i < len; i++) {
classes.push(clss[i]);
}
return this;
},
number : function (nmbr){
number = nmbr;
return this;
},
result : function (){
var result = number;
for (var i = 0, len = classes.length; i < len; i++) {
result = classes[i].operator(result);
}
return result;
},
onthefly: function (classes){
var result = number;
for (var i = 0, len = classes.length; i < len; i++) {
result = classes[i].operator(result);
}
return result;
}
};
});
var sum = Sum.$create(40);
var mul = Mul.$create(50);
var div = Div.$create(20);
Operation.number(100);
Operation.add([sum, mul, div]).result(); // Result is 350
var mul2 = Mul.$create(30);
Operation.onthefly([div, sum, mul, mul2]); // Result is 67500
For a lot of class examples (inheritance, extending, singletons, etc), check the test sources at test/class-test.js
Although the class helpers, $super
calls, class inheritance itself are fast, $define
'ing your class isn't.
For some odd reason, Object.defineProperties
and Object.defineProperty
is long known to have the worst performance in V8
(and other engines as well).
Basically, you should never keep redefining your class, for example, in loops, inside other constructors, etc.
The ES5Class.$define
is a real bottleneck (as low as 10k ops/s). So, $define
it once, create instances everywhere!
The tests are ran using mocha
$ npm install && npm run test
Check how this library perform on your machine
$ npm install && npm run benchmark
A benchmark result in a 1st gen Core i3:
class instance function call x 125,269,746 ops/sec ±10.00% (34 runs sampled)
class method function call x 123,280,719 ops/sec ±4.17% (40 runs sampled)
class instance included function call x 103,738,852 ops/sec ±3.78% (42 runs sampled)
$super instance function calls x 14,187,910 ops/sec ±0.44% (96 runs sampled)
$super class function calls x 13,874,190 ops/sec ±0.73% (96 runs sampled)
$super inherited two levels deep function calls x 6,910,075 ops/sec ±0.40% (100 runs sampled)
class.$create instantiation x 1,832,552 ops/sec ±1.69% (91 runs sampled)
new operator x 4,544,620 ops/sec ±0.37% (98 runs sampled)
obj() instance x 1,225,367 ops/sec ±2.45% (96 runs sampled)
ES5Class.$define x 12,106 ops/sec ±2.73% (85 runs sampled)
Please use the issues section of github to report any bug you may find
(The MIT License)
Copyright (c) 2011 Bruno Filippone
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the 'Software'), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.