What is the simplest/cleanest way to implement the singleton pattern in JavaScript?
I think the easiest way is to declare a simple object literal:
var myInstance = {
method1: function () {
// ...
},
method2: function () {
// ...
}
};
If you want private members on your singleton instance, you can do something like this:
var myInstance = (function() {
var privateVar = '';
function privateMethod () {
// ...
}
return { // public interface
publicMethod1: function () {
// All private members are accessible here
},
publicMethod2: function () {
}
};
})();
This has been called the module pattern, and it basically allows you to encapsulate private members on an object, by taking advantage of the use of closures.
If you want to prevent the modification of the singleton object, you can freeze it, using the ES5 Object.freeze method.
That will make the object immutable, preventing any modification to the its structure and values.
If you are using ES6, you can represent a singleton using ES Modules very easily, and you can even hold private state by declaring variables at the module scope:
// my-singleton.js
const somePrivateState = []
function privateFn () {
// ...
}
export default {
method1() {
// ...
},
method2() {
// ...
}
}
Then you can simply import the singleton object to use it:
import myInstance from './my-singleton.js'
// ...
I think the cleanest approach is something like:
var SingletonFactory = (function(){
function SingletonClass() {
//do stuff
}
var instance;
return {
getInstance: function(){
if (instance == null) {
instance = new SingletonClass();
// Hide the constructor so the returned object can't be new'd...
instance.constructor = null;
}
return instance;
}
};
})();
Afterwards, you can invoke the function as
var test = SingletonFactory.getInstance();
I'm not sure I agree with the module pattern being used as a replacement for a singleton pattern. I've often seen singletons used and abused in places where they're wholly unnecessary, and I'm sure the module pattern fills many gaps where programmers would otherwise use a singleton. However, the module pattern is not a singleton.
Module pattern:
var foo = (function () {
"use strict";
function aPrivateFunction() {}
return { aPublicFunction: function () {...}, ... };
}());
Everything initialized in the module pattern happens when Foo is declared. Additionally, the module pattern can be used to initialize a constructor, which could then be instantiated multiple times. While the module pattern is the right tool for many jobs, it's not equivalent to a singleton.
Singleton pattern:
short form
var Foo = function () {
"use strict";
if (Foo._instance) {
// This allows the constructor to be called multiple times
// and refer to the same instance. Another option is to
// throw an error.
return Foo._instance;
}
Foo._instance = this;
// Foo initialization code
};
Foo.getInstance = function () {
"use strict";
return Foo._instance || new Foo();
}
long form, using module pattern
var Foo = (function () {
"use strict";
var instance; //prevent modification of "instance" variable
function Singleton() {
if (instance) {
return instance;
}
instance = this;
//Singleton initialization code
}
// Instance accessor
Singleton.getInstance = function () {
return instance || new Singleton();
}
return Singleton;
}());
In both versions of the singleton pattern that I've provided, the constructor itself can be used as the accessor:
var a,
b;
a = new Foo(); // Constructor initialization happens here
b = new Foo();
console.log(a === b); //true
If you don't feel comfortable using the constructor this way, you can throw an error in the if (instance) statement, and stick to using the long form:
var a,
b;
a = Foo.getInstance(); // Constructor initialization happens here
b = Foo.getInstance();
console.log(a === b); // true
I should also mention that the singleton pattern fits well with the implicit constructor function pattern:
function Foo() {
if (Foo._instance) {
return Foo._instance;
}
// If the function wasn't called as a constructor,
// call it as a constructor and return the result
if (!(this instanceof Foo)) {
return new Foo();
}
Foo._instance = this;
}
var f = new Foo(); // Calls Foo as a constructor
-or-
var f = Foo(); // Also calls Foo as a constructor
In ES6 the right way to do this is:
class MyClass {
constructor() {
if (MyClass._instance) {
throw new Error("Singleton classes can't be instantiated more than once.")
}
MyClass._instance = this;
// ... Your rest of the constructor code goes after this
}
}
var instanceOne = new MyClass() // Executes succesfully
var instanceTwo = new MyClass() // Throws error
Or, if you don't want an error to be thrown on the second instance creation, you can just return the last instance, like so:
class MyClass {
constructor() {
if (MyClass._instance) {
return MyClass._instance
}
MyClass._instance = this;
// ... Your rest of the constructor code goes after this
}
}
var instanceOne = new MyClass()
var instanceTwo = new MyClass()
console.log(instanceOne === instanceTwo) // Logs "true"
In ECMAScript 2015 (ES6):
class Singleton {
constructor () {
if (!Singleton.instance) {
Singleton.instance = this
}
// Initialize object
return Singleton.instance
}
// Properties & Methods
}
const instance = new Singleton()
Object.freeze(instance)
export default instance
If you're using node.JS then you can take advantage of node.JS caching mechanism and your Singleton will be as simple as:
class Singleton {
constructor() {
this.message = 'I am an instance';
}
}
module.exports = new Singleton();
Please note that we export not the class Singleton but instance Singleton().
Node.JS will cache and reuse the same object each time it’s required.
For more details please check: Node.JS and Singleton Pattern
The following works in Node.js version 6:
class Foo {
constructor(msg) {
if (Foo.singleton) {
return Foo.singleton;
}
this.msg = msg;
Foo.singleton = this;
return Foo.singleton;
}
}
We test:
const f = new Foo('blah');
const d = new Foo('nope');
console.log(f); // => Foo { msg: 'blah' }
console.log(d); // => Foo { msg: 'blah' }
The simplest/cleanest for me means also simply to understand and no bells & whistles as are much discussed in the Java version of the discussion:
What is an efficient way to implement a singleton pattern in Java?
The answer that would fit simplest/cleanest best there from my point of view is:
Jonathan's answer to What is an efficient way to implement a singleton pattern in Java?
And it can only partly be translated to JavaScript. Some of the difference in JavaScript are:
constructors can't be private
Classes can't have declared fields
But given the latest ECMA syntax, it is possible to get close with:
Singleton pattern as a JavaScript class example
class Singleton {
constructor(field1,field2) {
this.field1=field1;
this.field2=field2;
Singleton.instance=this;
}
static getInstance() {
if (!Singleton.instance) {
Singleton.instance=new Singleton('DefaultField1','DefaultField2');
}
return Singleton.instance;
}
}
Example Usage
console.log(Singleton.getInstance().field1);
console.log(Singleton.getInstance().field2);
Example Result
DefaultField1
DefaultField2
If you want to use classes:
class Singleton {
constructor(name, age) {
this.name = name;
this.age = age;
if(this.constructor.instance)
return this.constructor.instance;
this.constructor.instance = this;
}
}
let x = new Singleton('s', 1);
let y = new Singleton('k', 2);
Output for the above will be:
console.log(x.name, x.age, y.name, y.age) // s 1 s 1
Another way of writing Singleton using function
function AnotherSingleton (name,age) {
this.name = name;
this.age = age;
if(this.constructor.instance)
return this.constructor.instance;
this.constructor.instance = this;
}
let a = new AnotherSingleton('s', 1);
let b = new AnotherSingleton('k', 2);
Output for the above will be:
console.log(a.name, a.age, b.name, b.age) // s 1 s 1
There is more than one way to skin a cat :) Depending on your taste or specific need you can apply any of the proposed solutions. I personally go for Christian C. Salvadó's first solution whenever possible (when you don't need privacy).
Since the question was about the simplest and cleanest, that's the winner. Or even:
var myInstance = {}; // Done!
This (quote from my blog)...
var SingletonClass = new function() {
this.myFunction() {
// Do stuff
}
this.instance = 1;
}
doesn't make much sense (my blog example doesn't either) because it doesn't need any private variables, so it's pretty much the same as:
var SingletonClass = {
myFunction: function () {
// Do stuff
},
instance: 1
}
I deprecate my answer, see my other one.
Usually the module pattern (see Christian C. Salvadó's answer) which is not the singleton pattern is good enough. However, one of the features of the singleton is that its initialization is delayed till the object is needed. The module pattern lacks this feature.
My proposition (CoffeeScript):
window.singleton = (initializer) ->
instance = undefined
() ->
return instance unless instance is undefined
instance = initializer()
Which compiled to this in JavaScript:
window.singleton = function(initializer) {
var instance;
instance = void 0;
return function() {
if (instance !== void 0) {
return instance;
}
return instance = initializer();
};
};
Then I can do following:
window.iAmSingleton = singleton(function() {
/* This function should create and initialize singleton. */
alert("creating");
return {property1: 'value1', property2: 'value2'};
});
alert(window.iAmSingleton().property2); // "creating" will pop up; then "value2" will pop up
alert(window.iAmSingleton().property2); // "value2" will pop up but "creating" will not
window.iAmSingleton().property2 = 'new value';
alert(window.iAmSingleton().property2); // "new value" will pop up
I got this example from the *JavaScript Patterns
Build Better Applications with Coding and Design Patterns book (by Stoyan Stefanov). In case you need some simple implementation class like a singleton object, you can use an immediate function as in the following:
var ClassName;
(function() {
var instance;
ClassName = function ClassName() {
// If the private instance variable is already initialized, return a reference
if(instance) {
return instance;
}
// If the instance is not created, save a pointer of the original reference
// to the private instance variable.
instance = this;
// All constructor initialization will be here
// i.e.:
this.someProperty = 0;
this.someMethod = function() {
// Some action here
};
};
}());
And you can check this example by following test case:
// Extending defined class like singleton object using the new prototype property
ClassName.prototype.nothing = true;
var obj_1 = new ClassName();
// Extending the defined class like a singleton object using the new prototype property
ClassName.prototype.everything = true;
var obj_2 = new ClassName();
// Testing makes these two objects point to the same instance
console.log(obj_1 === obj_2); // Result is true, and it points to the same instance object
// All prototype properties work
// no matter when they were defined
console.log(obj_1.nothing && obj_1.everything
&& obj_2.nothing && obj_2.everything); // Result true
// Values of properties which are defined inside of the constructor
console.log(obj_1.someProperty); // Outputs 0
console.log(obj_2.someProperty); // Outputs 0
// Changing property value
obj_1.someProperty = 1;
console.log(obj_1.someProperty); // Output 1
console.log(obj_2.someProperty); // Output 1
console.log(obj_1.constructor === ClassName); // Output true
This approach passes all test cases while a private static implementation will fail when a prototype extension is used (it can be fixed, but it will not be simple) and a public static implementation less advisable due to an instance is exposed to the public.
jsFiddly demo.
Short answer:
Because of the non-blocking nature of JavaScript, singletons in JavaScript are really ugly in use. Global variables will give you one instance through the whole application too without all these callbacks, and module pattern gently hides internals behind the interface. See Christian C. Salvadó's answer.
But, since you wanted a singleton…
var singleton = function(initializer) {
var state = 'initial';
var instance;
var queue = [];
var instanceReady = function(createdInstance) {
state = 'ready';
instance = createdInstance;
while (callback = queue.shift()) {
callback(instance);
}
};
return function(callback) {
if (state === 'initial') {
state = 'waiting';
queue.push(callback);
initializer(instanceReady);
} else if (state === 'waiting') {
queue.push(callback);
} else {
callback(instance);
}
};
};
Usage:
var singletonInitializer = function(instanceReady) {
var preparedObject = {property: 'value'};
// Calling instanceReady notifies the singleton that the instance is ready to use
instanceReady(preparedObject);
}
var s = singleton(singletonInitializer);
// Get the instance and use it
s(function(instance) {
instance.doSomething();
});
Explanation:
Singletons give you more than just one instance through the whole application: their initialization is delayed till the first use. This is really a big thing when you deal with objects whose initialization is expensive. Expensive usually means I/O and in JavaScript I/O always mean callbacks.
Don't trust answers which give you interface like instance = singleton.getInstance(), they all miss the point.
If they don't take a callback to be run when an instance is ready, then they won't work when the initializer does I/O.
Yeah, callbacks always look uglier than a function call which immediately returns an object instance. But again: when you do I/O, callbacks are obligatory. If you don't want to do any I/O, then instantiation is cheap enough to do it at program start.
Example 1, cheap initializer:
var simpleInitializer = function(instanceReady) {
console.log("Initializer started");
instanceReady({property: "initial value"});
}
var simple = singleton(simpleInitializer);
console.log("Tests started. Singleton instance should not be initalized yet.");
simple(function(inst) {
console.log("Access 1");
console.log("Current property value: " + inst.property);
console.log("Let's reassign this property");
inst.property = "new value";
});
simple(function(inst) {
console.log("Access 2");
console.log("Current property value: " + inst.property);
});
Example 2, initialization with I/O:
In this example, setTimeout fakes some expensive I/O operation. This illustrates why singletons in JavaScript really need callbacks.
var heavyInitializer = function(instanceReady) {
console.log("Initializer started");
var onTimeout = function() {
console.log("Initializer did his heavy work");
instanceReady({property: "initial value"});
};
setTimeout(onTimeout, 500);
};
var heavy = singleton(heavyInitializer);
console.log("In this example we will be trying");
console.log("to access singleton twice before it finishes initialization.");
heavy(function(inst) {
console.log("Access 1");
console.log("Current property value: " + inst.property);
console.log("Let's reassign this property");
inst.property = "new value";
});
heavy(function(inst) {
console.log("Access 2. You can see callbacks order is preserved.");
console.log("Current property value: " + inst.property);
});
console.log("We made it to the end of the file. Instance is not ready yet.");
Christian C. Salvadó's and zzzzBov's answer have both given wonderful answers, but just to add my own interpretation based on my having moved into heavy Node.js development from PHP/Zend Framework where singleton patterns were common.
The following, comment-documented code is based on the following requirements:
one and only one instance of the function object may be instantiated
the instance is not publicly available and may only be accessed through a public method
the constructor is not publicly available and may only be instantiated if there is not already an instance available
the declaration of the constructor must allow its prototype chain to be modified. This will allow the constructor to inherit from other prototypes, and offer "public" methods for the instance
My code is very similar to zzzzBov's answer except I've added a prototype chain to the constructor and more comments that should help those coming from PHP or a similar language translate traditional OOP to JavaScript's prototypical nature. It may not be the "simplest" but I believe it is the most proper.
// Declare 'Singleton' as the returned value of a self-executing anonymous function
var Singleton = (function () {
"use strict";
// 'instance' and 'constructor' should not be available in a "public" scope
// here they are "private", thus available only within
// the scope of the self-executing anonymous function
var _instance=null;
var _constructor = function (name) {
this.name = name || 'default';
}
// Prototypes will be "public" methods available from the instance
_constructor.prototype.getName = function () {
return this.name;
}
// Using the module pattern, return a static object
// which essentially is a list of "public static" methods
return {
// Because getInstance is defined within the same scope
// it can access the "private" 'instance' and 'constructor' vars
getInstance:function (name) {
if (!_instance) {
console.log('creating'); // This should only happen once
_instance = new _constructor(name);
}
console.log('returning');
return _instance;
}
}
})(); // Self execute
// Ensure 'instance' and 'constructor' are unavailable
// outside the scope in which they were defined
// thus making them "private" and not "public"
console.log(typeof _instance); // undefined
console.log(typeof _constructor); // undefined
// Assign instance to two different variables
var a = Singleton.getInstance('first');
var b = Singleton.getInstance('second'); // passing a name here does nothing because the single instance was already instantiated
// Ensure 'a' and 'b' are truly equal
console.log(a === b); // true
console.log(a.getName()); // "first"
console.log(b.getName()); // Also returns "first" because it's the same instance as 'a'
Note that technically, the self-executing anonymous function is itself a singleton as demonstrated nicely in the code provided by Christian C. Salvadó. The only catch here is that it is not possible to modify the prototype chain of the constructor when the constructor itself is anonymous.
Keep in mind that to JavaScript, the concepts of “public” and “private” do not apply as they do in PHP or Java. But we have achieved the same effect by leveraging JavaScript’s rules of functional scope availability.
You could just do:
var singleton = new (function() {
var bar = 123
this.foo = function() {
// Whatever
}
})()
I think I have found the cleanest way to program in JavaScript, but you'll need some imagination. I got this idea from a working technique in the book JavaScript: The Good Parts.
Instead of using the new keyword, you could create a class like this:
function Class()
{
var obj = {}; // Could also be used for inheritance if you don't start with an empty object.
var privateVar;
obj.publicVar;
obj.publicMethod = publicMethod;
function publicMethod(){}
function privateMethod(){}
return obj;
}
You can instantiate the above object by saying:
var objInst = Class(); // !!! NO NEW KEYWORD
Now with this work method in mind, you could create a singleton like this:
ClassSingleton = function()
{
var instance = null;
function Class() // This is the class like the above one
{
var obj = {};
return obj;
}
function getInstance()
{
if( !instance )
instance = Class(); // Again no 'new' keyword;
return instance;
}
return { getInstance : getInstance };
}();
Now you can get your instance by calling
var obj = ClassSingleton.getInstance();
I think this is the neatest way as the complete "Class" is not even accessible.
The clearest answer should be this one from the book Learning JavaScript Design Patterns by Addy Osmani.
var mySingleton = (function () {
// Instance stores a reference to the singleton
var instance;
function init() {
// Singleton
// Private methods and variables
function privateMethod(){
console.log( "I am private" );
}
var privateVariable = "I'm also private";
var privateRandomNumber = Math.random();
return {
// Public methods and variables
publicMethod: function () {
console.log( "The public can see me!" );
},
publicProperty: "I am also public",
getRandomNumber: function() {
return privateRandomNumber;
}
};
};
return {
// Get the singleton instance if one exists
// or create one if it doesn't
getInstance: function () {
if ( !instance ) {
instance = init();
}
return instance;
}
};
})();
For me the cleanest way to do so is:
const singleton = new class {
name = "foo"
constructor() {
console.log(`Singleton ${this.name} constructed`)
}
}
With this syntax you are certain your singleton is and will remain unique. You can also enjoy the sugarness of class syntax and use this as expected.
(Note that class fields require node v12+ or a modern browser.)
This is how I implement singleton pattern using ES6 features. Yes, I know this does not look like an Object-oriented approach, but I find this method is easy to implement and a clean way to implement.
const Singleton = (() => {
var _instance = !_instance && new Object('Object created....');
return () => _instance;
})();
//************************************************************************
var instance1 = Singleton();
var instance2 = Singleton();
console.log(instance1 === instance2); // true
This should work:
function Klass() {
var instance = this;
Klass = function () { return instance; }
}
I believe this is the simplest/cleanest and most intuitive way though it requires ECMAScript 2016 (ES7):
export default class Singleton {
static instance;
constructor(){
if(instance){
return instance;
}
this.state = "duke";
this.instance = this;
}
}
The source code is from: adam-bien.com
I've found the following to be the easiest singleton pattern, because using the new operator makes this immediately available within the function, eliminating the need to return an object literal:
var singleton = new (function () {
var private = "A private value";
this.printSomething = function() {
console.log(private);
}
})();
singleton.printSomething();
Using ES6 classes and private static fields. Invoking new instances of the Singleton class will return the same instance. The instance variable is also private and can't be accessed outside the class.
class Singleton {
// # is a new Javascript feature that denotes private
static #instance;
constructor() {
if (!Singleton.#instance) {
Singleton.#instance = this
}
return Singleton.#instance
}
get() {
return Singleton.#instance;
}
}
const a = new Singleton();
const b = new Singleton();
console.log(a.get() === b.get()) // true
console.log(Singleton.instance === undefined) // true
function Once() {
return this.constructor.instance || (this.constructor.instance = this);
}
function Application(name) {
let app = Once.call(this);
app.name = name;
return app;
}
If you are into classes:
class Once {
constructor() {
return this.constructor.instance || (this.constructor.instance = this);
}
}
class Application extends Once {
constructor(name) {
super();
this.name = name;
}
}
Test:
console.log(new Once() === new Once());
let app1 = new Application('Foobar');
let app2 = new Application('Barfoo');
console.log(app1 === app2);
console.log(app1.name); // Barfoo
Following is the snippet from my walkthrough to implement a singleton pattern. This occurred to me during an interview process and I felt that I should capture this somewhere.
/*************************************************
* SINGLETON PATTERN IMPLEMENTATION *
*************************************************/
// Since there aren't any classes in JavaScript, every object
// is technically a singleton if you don't inherit from it
// or copy from it.
var single = {};
// Singleton Implementations
//
// Declaring as a global object...you are being judged!
var Logger = function() {
// global_log is/will be defined in the GLOBAL scope here
if(typeof global_log === 'undefined'){
global_log = this;
}
return global_log;
};
// The below 'fix' solves the GLOABL variable problem, but
// the log_instance is publicly available and thus can be
// tampered with.
function Logger() {
if(typeof Logger.log_instance === 'undefined') {
Logger.log_instance = this;
}
return Logger.log_instance;
};
// The correct way to do it to give it a closure!
function logFactory() {
var log_instance; // Private instance
var _initLog = function() { // Private init method
log_instance = 'initialized';
console.log("logger initialized!")
}
return {
getLog : function(){ // The 'privileged' method
if(typeof log_instance === 'undefined') {
_initLog();
}
return log_instance;
}
};
}
/***** TEST CODE ************************************************
// Using the Logger singleton
var logger = logFactory(); // Did I just give LogFactory a closure?
// Create an instance of the logger
var a = logger.getLog();
// Do some work
// Get another instance of the logger
var b = logger.getLog();
// Check if the two logger instances are same
console.log(a === b); // true
*******************************************************************/
The same can be found on my gist page.
My two cents: I have a constructor function (CF), for example,
var A = function(arg1){
this.arg1 = arg1
};
I need just every object created by this CF to be the same.
var X = function(){
var instance = {};
return function(){ return instance; }
}();
Test
var x1 = new X();
var x2 = new X();
console.log(x1 === x2)
Singleton:
Ensure a class has only one instance and provides a global point of access to it.
The singleton pattern limits the number of instances of a particular object to just one. This single instance is called the singleton.
defines getInstance() which returns the unique instance.
responsible for creating and managing the instance object.
The singleton object is implemented as an immediate anonymous function. The function executes immediately by wrapping it in brackets followed by two additional brackets. It is called anonymous because it doesn't have a name.
Sample Program
var Singleton = (function () {
var instance;
function createInstance() {
var object = new Object("I am the instance");
return object;
}
return {
getInstance: function () {
if (!instance) {
instance = createInstance();
}
return instance;
}
};
})();
function run() {
var instance1 = Singleton.getInstance();
var instance2 = Singleton.getInstance();
alert("Same instance? " + (instance1 === instance2));
}
run()
Here is a simple example to explain the singleton pattern in JavaScript.
var Singleton = (function() {
var instance;
var init = function() {
return {
display:function() {
alert("This is a singleton pattern demo");
}
};
};
return {
getInstance:function(){
if(!instance){
alert("Singleton check");
instance = init();
}
return instance;
}
};
})();
// In this call first display alert("Singleton check")
// and then alert("This is a singleton pattern demo");
// It means one object is created
var inst = Singleton.getInstance();
inst.display();
// In this call only display alert("This is a singleton pattern demo")
// it means second time new object is not created,
// it uses the already created object
var inst1 = Singleton.getInstance();
inst1.display();
let MySingleton = (function () {
var _instance
function init() {
if(!_instance) {
_instance = { $knew: 1 }
}
return _instance
}
let publicAPIs = {
getInstance: function() {
return init()
}
}
// this prevents customize the MySingleton, like MySingleton.x = 1
Object.freeze(publicAPIs)
// this prevents customize the MySingleton.getInstance(), like MySingleton.getInstance().x = 1
Object.freeze(publicAPIs.getInstance())
return publicAPIs
})();
I needed several singletons with:
lazy initialisation
initial parameters
And so this was what I came up with:
createSingleton ('a', 'add', [1, 2]);
console.log(a);
function createSingleton (name, construct, args) {
window[name] = {};
window[construct].apply(window[name], args);
window[construct] = null;
}
function add (a, b) {
this.a = a;
this.b = b;
this.sum = a + b;
}
args must be Array for this to work, so if you have empty variables, just pass in []
I used the window object in the function, but I could have passed in a parameter to create my own scope
name and construct parameters are only String in order for window[] to work, but with some simple typechecking, window.name and window.construct are also possible.
Related
What is the simplest/cleanest way to implement the singleton pattern in JavaScript?
I think the easiest way is to declare a simple object literal:
var myInstance = {
method1: function () {
// ...
},
method2: function () {
// ...
}
};
If you want private members on your singleton instance, you can do something like this:
var myInstance = (function() {
var privateVar = '';
function privateMethod () {
// ...
}
return { // public interface
publicMethod1: function () {
// All private members are accessible here
},
publicMethod2: function () {
}
};
})();
This has been called the module pattern, and it basically allows you to encapsulate private members on an object, by taking advantage of the use of closures.
If you want to prevent the modification of the singleton object, you can freeze it, using the ES5 Object.freeze method.
That will make the object immutable, preventing any modification to the its structure and values.
If you are using ES6, you can represent a singleton using ES Modules very easily, and you can even hold private state by declaring variables at the module scope:
// my-singleton.js
const somePrivateState = []
function privateFn () {
// ...
}
export default {
method1() {
// ...
},
method2() {
// ...
}
}
Then you can simply import the singleton object to use it:
import myInstance from './my-singleton.js'
// ...
I think the cleanest approach is something like:
var SingletonFactory = (function(){
function SingletonClass() {
//do stuff
}
var instance;
return {
getInstance: function(){
if (instance == null) {
instance = new SingletonClass();
// Hide the constructor so the returned object can't be new'd...
instance.constructor = null;
}
return instance;
}
};
})();
Afterwards, you can invoke the function as
var test = SingletonFactory.getInstance();
I'm not sure I agree with the module pattern being used as a replacement for a singleton pattern. I've often seen singletons used and abused in places where they're wholly unnecessary, and I'm sure the module pattern fills many gaps where programmers would otherwise use a singleton. However, the module pattern is not a singleton.
Module pattern:
var foo = (function () {
"use strict";
function aPrivateFunction() {}
return { aPublicFunction: function () {...}, ... };
}());
Everything initialized in the module pattern happens when Foo is declared. Additionally, the module pattern can be used to initialize a constructor, which could then be instantiated multiple times. While the module pattern is the right tool for many jobs, it's not equivalent to a singleton.
Singleton pattern:
short form
var Foo = function () {
"use strict";
if (Foo._instance) {
// This allows the constructor to be called multiple times
// and refer to the same instance. Another option is to
// throw an error.
return Foo._instance;
}
Foo._instance = this;
// Foo initialization code
};
Foo.getInstance = function () {
"use strict";
return Foo._instance || new Foo();
}
long form, using module pattern
var Foo = (function () {
"use strict";
var instance; //prevent modification of "instance" variable
function Singleton() {
if (instance) {
return instance;
}
instance = this;
//Singleton initialization code
}
// Instance accessor
Singleton.getInstance = function () {
return instance || new Singleton();
}
return Singleton;
}());
In both versions of the singleton pattern that I've provided, the constructor itself can be used as the accessor:
var a,
b;
a = new Foo(); // Constructor initialization happens here
b = new Foo();
console.log(a === b); //true
If you don't feel comfortable using the constructor this way, you can throw an error in the if (instance) statement, and stick to using the long form:
var a,
b;
a = Foo.getInstance(); // Constructor initialization happens here
b = Foo.getInstance();
console.log(a === b); // true
I should also mention that the singleton pattern fits well with the implicit constructor function pattern:
function Foo() {
if (Foo._instance) {
return Foo._instance;
}
// If the function wasn't called as a constructor,
// call it as a constructor and return the result
if (!(this instanceof Foo)) {
return new Foo();
}
Foo._instance = this;
}
var f = new Foo(); // Calls Foo as a constructor
-or-
var f = Foo(); // Also calls Foo as a constructor
In ES6 the right way to do this is:
class MyClass {
constructor() {
if (MyClass._instance) {
throw new Error("Singleton classes can't be instantiated more than once.")
}
MyClass._instance = this;
// ... Your rest of the constructor code goes after this
}
}
var instanceOne = new MyClass() // Executes succesfully
var instanceTwo = new MyClass() // Throws error
Or, if you don't want an error to be thrown on the second instance creation, you can just return the last instance, like so:
class MyClass {
constructor() {
if (MyClass._instance) {
return MyClass._instance
}
MyClass._instance = this;
// ... Your rest of the constructor code goes after this
}
}
var instanceOne = new MyClass()
var instanceTwo = new MyClass()
console.log(instanceOne === instanceTwo) // Logs "true"
In ECMAScript 2015 (ES6):
class Singleton {
constructor () {
if (!Singleton.instance) {
Singleton.instance = this
}
// Initialize object
return Singleton.instance
}
// Properties & Methods
}
const instance = new Singleton()
Object.freeze(instance)
export default instance
If you're using node.JS then you can take advantage of node.JS caching mechanism and your Singleton will be as simple as:
class Singleton {
constructor() {
this.message = 'I am an instance';
}
}
module.exports = new Singleton();
Please note that we export not the class Singleton but instance Singleton().
Node.JS will cache and reuse the same object each time it’s required.
For more details please check: Node.JS and Singleton Pattern
The following works in Node.js version 6:
class Foo {
constructor(msg) {
if (Foo.singleton) {
return Foo.singleton;
}
this.msg = msg;
Foo.singleton = this;
return Foo.singleton;
}
}
We test:
const f = new Foo('blah');
const d = new Foo('nope');
console.log(f); // => Foo { msg: 'blah' }
console.log(d); // => Foo { msg: 'blah' }
The simplest/cleanest for me means also simply to understand and no bells & whistles as are much discussed in the Java version of the discussion:
What is an efficient way to implement a singleton pattern in Java?
The answer that would fit simplest/cleanest best there from my point of view is:
Jonathan's answer to What is an efficient way to implement a singleton pattern in Java?
And it can only partly be translated to JavaScript. Some of the difference in JavaScript are:
constructors can't be private
Classes can't have declared fields
But given the latest ECMA syntax, it is possible to get close with:
Singleton pattern as a JavaScript class example
class Singleton {
constructor(field1,field2) {
this.field1=field1;
this.field2=field2;
Singleton.instance=this;
}
static getInstance() {
if (!Singleton.instance) {
Singleton.instance=new Singleton('DefaultField1','DefaultField2');
}
return Singleton.instance;
}
}
Example Usage
console.log(Singleton.getInstance().field1);
console.log(Singleton.getInstance().field2);
Example Result
DefaultField1
DefaultField2
If you want to use classes:
class Singleton {
constructor(name, age) {
this.name = name;
this.age = age;
if(this.constructor.instance)
return this.constructor.instance;
this.constructor.instance = this;
}
}
let x = new Singleton('s', 1);
let y = new Singleton('k', 2);
Output for the above will be:
console.log(x.name, x.age, y.name, y.age) // s 1 s 1
Another way of writing Singleton using function
function AnotherSingleton (name,age) {
this.name = name;
this.age = age;
if(this.constructor.instance)
return this.constructor.instance;
this.constructor.instance = this;
}
let a = new AnotherSingleton('s', 1);
let b = new AnotherSingleton('k', 2);
Output for the above will be:
console.log(a.name, a.age, b.name, b.age) // s 1 s 1
There is more than one way to skin a cat :) Depending on your taste or specific need you can apply any of the proposed solutions. I personally go for Christian C. Salvadó's first solution whenever possible (when you don't need privacy).
Since the question was about the simplest and cleanest, that's the winner. Or even:
var myInstance = {}; // Done!
This (quote from my blog)...
var SingletonClass = new function() {
this.myFunction() {
// Do stuff
}
this.instance = 1;
}
doesn't make much sense (my blog example doesn't either) because it doesn't need any private variables, so it's pretty much the same as:
var SingletonClass = {
myFunction: function () {
// Do stuff
},
instance: 1
}
I deprecate my answer, see my other one.
Usually the module pattern (see Christian C. Salvadó's answer) which is not the singleton pattern is good enough. However, one of the features of the singleton is that its initialization is delayed till the object is needed. The module pattern lacks this feature.
My proposition (CoffeeScript):
window.singleton = (initializer) ->
instance = undefined
() ->
return instance unless instance is undefined
instance = initializer()
Which compiled to this in JavaScript:
window.singleton = function(initializer) {
var instance;
instance = void 0;
return function() {
if (instance !== void 0) {
return instance;
}
return instance = initializer();
};
};
Then I can do following:
window.iAmSingleton = singleton(function() {
/* This function should create and initialize singleton. */
alert("creating");
return {property1: 'value1', property2: 'value2'};
});
alert(window.iAmSingleton().property2); // "creating" will pop up; then "value2" will pop up
alert(window.iAmSingleton().property2); // "value2" will pop up but "creating" will not
window.iAmSingleton().property2 = 'new value';
alert(window.iAmSingleton().property2); // "new value" will pop up
I got this example from the *JavaScript Patterns
Build Better Applications with Coding and Design Patterns book (by Stoyan Stefanov). In case you need some simple implementation class like a singleton object, you can use an immediate function as in the following:
var ClassName;
(function() {
var instance;
ClassName = function ClassName() {
// If the private instance variable is already initialized, return a reference
if(instance) {
return instance;
}
// If the instance is not created, save a pointer of the original reference
// to the private instance variable.
instance = this;
// All constructor initialization will be here
// i.e.:
this.someProperty = 0;
this.someMethod = function() {
// Some action here
};
};
}());
And you can check this example by following test case:
// Extending defined class like singleton object using the new prototype property
ClassName.prototype.nothing = true;
var obj_1 = new ClassName();
// Extending the defined class like a singleton object using the new prototype property
ClassName.prototype.everything = true;
var obj_2 = new ClassName();
// Testing makes these two objects point to the same instance
console.log(obj_1 === obj_2); // Result is true, and it points to the same instance object
// All prototype properties work
// no matter when they were defined
console.log(obj_1.nothing && obj_1.everything
&& obj_2.nothing && obj_2.everything); // Result true
// Values of properties which are defined inside of the constructor
console.log(obj_1.someProperty); // Outputs 0
console.log(obj_2.someProperty); // Outputs 0
// Changing property value
obj_1.someProperty = 1;
console.log(obj_1.someProperty); // Output 1
console.log(obj_2.someProperty); // Output 1
console.log(obj_1.constructor === ClassName); // Output true
This approach passes all test cases while a private static implementation will fail when a prototype extension is used (it can be fixed, but it will not be simple) and a public static implementation less advisable due to an instance is exposed to the public.
jsFiddly demo.
Short answer:
Because of the non-blocking nature of JavaScript, singletons in JavaScript are really ugly in use. Global variables will give you one instance through the whole application too without all these callbacks, and module pattern gently hides internals behind the interface. See Christian C. Salvadó's answer.
But, since you wanted a singleton…
var singleton = function(initializer) {
var state = 'initial';
var instance;
var queue = [];
var instanceReady = function(createdInstance) {
state = 'ready';
instance = createdInstance;
while (callback = queue.shift()) {
callback(instance);
}
};
return function(callback) {
if (state === 'initial') {
state = 'waiting';
queue.push(callback);
initializer(instanceReady);
} else if (state === 'waiting') {
queue.push(callback);
} else {
callback(instance);
}
};
};
Usage:
var singletonInitializer = function(instanceReady) {
var preparedObject = {property: 'value'};
// Calling instanceReady notifies the singleton that the instance is ready to use
instanceReady(preparedObject);
}
var s = singleton(singletonInitializer);
// Get the instance and use it
s(function(instance) {
instance.doSomething();
});
Explanation:
Singletons give you more than just one instance through the whole application: their initialization is delayed till the first use. This is really a big thing when you deal with objects whose initialization is expensive. Expensive usually means I/O and in JavaScript I/O always mean callbacks.
Don't trust answers which give you interface like instance = singleton.getInstance(), they all miss the point.
If they don't take a callback to be run when an instance is ready, then they won't work when the initializer does I/O.
Yeah, callbacks always look uglier than a function call which immediately returns an object instance. But again: when you do I/O, callbacks are obligatory. If you don't want to do any I/O, then instantiation is cheap enough to do it at program start.
Example 1, cheap initializer:
var simpleInitializer = function(instanceReady) {
console.log("Initializer started");
instanceReady({property: "initial value"});
}
var simple = singleton(simpleInitializer);
console.log("Tests started. Singleton instance should not be initalized yet.");
simple(function(inst) {
console.log("Access 1");
console.log("Current property value: " + inst.property);
console.log("Let's reassign this property");
inst.property = "new value";
});
simple(function(inst) {
console.log("Access 2");
console.log("Current property value: " + inst.property);
});
Example 2, initialization with I/O:
In this example, setTimeout fakes some expensive I/O operation. This illustrates why singletons in JavaScript really need callbacks.
var heavyInitializer = function(instanceReady) {
console.log("Initializer started");
var onTimeout = function() {
console.log("Initializer did his heavy work");
instanceReady({property: "initial value"});
};
setTimeout(onTimeout, 500);
};
var heavy = singleton(heavyInitializer);
console.log("In this example we will be trying");
console.log("to access singleton twice before it finishes initialization.");
heavy(function(inst) {
console.log("Access 1");
console.log("Current property value: " + inst.property);
console.log("Let's reassign this property");
inst.property = "new value";
});
heavy(function(inst) {
console.log("Access 2. You can see callbacks order is preserved.");
console.log("Current property value: " + inst.property);
});
console.log("We made it to the end of the file. Instance is not ready yet.");
Christian C. Salvadó's and zzzzBov's answer have both given wonderful answers, but just to add my own interpretation based on my having moved into heavy Node.js development from PHP/Zend Framework where singleton patterns were common.
The following, comment-documented code is based on the following requirements:
one and only one instance of the function object may be instantiated
the instance is not publicly available and may only be accessed through a public method
the constructor is not publicly available and may only be instantiated if there is not already an instance available
the declaration of the constructor must allow its prototype chain to be modified. This will allow the constructor to inherit from other prototypes, and offer "public" methods for the instance
My code is very similar to zzzzBov's answer except I've added a prototype chain to the constructor and more comments that should help those coming from PHP or a similar language translate traditional OOP to JavaScript's prototypical nature. It may not be the "simplest" but I believe it is the most proper.
// Declare 'Singleton' as the returned value of a self-executing anonymous function
var Singleton = (function () {
"use strict";
// 'instance' and 'constructor' should not be available in a "public" scope
// here they are "private", thus available only within
// the scope of the self-executing anonymous function
var _instance=null;
var _constructor = function (name) {
this.name = name || 'default';
}
// Prototypes will be "public" methods available from the instance
_constructor.prototype.getName = function () {
return this.name;
}
// Using the module pattern, return a static object
// which essentially is a list of "public static" methods
return {
// Because getInstance is defined within the same scope
// it can access the "private" 'instance' and 'constructor' vars
getInstance:function (name) {
if (!_instance) {
console.log('creating'); // This should only happen once
_instance = new _constructor(name);
}
console.log('returning');
return _instance;
}
}
})(); // Self execute
// Ensure 'instance' and 'constructor' are unavailable
// outside the scope in which they were defined
// thus making them "private" and not "public"
console.log(typeof _instance); // undefined
console.log(typeof _constructor); // undefined
// Assign instance to two different variables
var a = Singleton.getInstance('first');
var b = Singleton.getInstance('second'); // passing a name here does nothing because the single instance was already instantiated
// Ensure 'a' and 'b' are truly equal
console.log(a === b); // true
console.log(a.getName()); // "first"
console.log(b.getName()); // Also returns "first" because it's the same instance as 'a'
Note that technically, the self-executing anonymous function is itself a singleton as demonstrated nicely in the code provided by Christian C. Salvadó. The only catch here is that it is not possible to modify the prototype chain of the constructor when the constructor itself is anonymous.
Keep in mind that to JavaScript, the concepts of “public” and “private” do not apply as they do in PHP or Java. But we have achieved the same effect by leveraging JavaScript’s rules of functional scope availability.
You could just do:
var singleton = new (function() {
var bar = 123
this.foo = function() {
// Whatever
}
})()
I think I have found the cleanest way to program in JavaScript, but you'll need some imagination. I got this idea from a working technique in the book JavaScript: The Good Parts.
Instead of using the new keyword, you could create a class like this:
function Class()
{
var obj = {}; // Could also be used for inheritance if you don't start with an empty object.
var privateVar;
obj.publicVar;
obj.publicMethod = publicMethod;
function publicMethod(){}
function privateMethod(){}
return obj;
}
You can instantiate the above object by saying:
var objInst = Class(); // !!! NO NEW KEYWORD
Now with this work method in mind, you could create a singleton like this:
ClassSingleton = function()
{
var instance = null;
function Class() // This is the class like the above one
{
var obj = {};
return obj;
}
function getInstance()
{
if( !instance )
instance = Class(); // Again no 'new' keyword;
return instance;
}
return { getInstance : getInstance };
}();
Now you can get your instance by calling
var obj = ClassSingleton.getInstance();
I think this is the neatest way as the complete "Class" is not even accessible.
The clearest answer should be this one from the book Learning JavaScript Design Patterns by Addy Osmani.
var mySingleton = (function () {
// Instance stores a reference to the singleton
var instance;
function init() {
// Singleton
// Private methods and variables
function privateMethod(){
console.log( "I am private" );
}
var privateVariable = "I'm also private";
var privateRandomNumber = Math.random();
return {
// Public methods and variables
publicMethod: function () {
console.log( "The public can see me!" );
},
publicProperty: "I am also public",
getRandomNumber: function() {
return privateRandomNumber;
}
};
};
return {
// Get the singleton instance if one exists
// or create one if it doesn't
getInstance: function () {
if ( !instance ) {
instance = init();
}
return instance;
}
};
})();
For me the cleanest way to do so is:
const singleton = new class {
name = "foo"
constructor() {
console.log(`Singleton ${this.name} constructed`)
}
}
With this syntax you are certain your singleton is and will remain unique. You can also enjoy the sugarness of class syntax and use this as expected.
(Note that class fields require node v12+ or a modern browser.)
This is how I implement singleton pattern using ES6 features. Yes, I know this does not look like an Object-oriented approach, but I find this method is easy to implement and a clean way to implement.
const Singleton = (() => {
var _instance = !_instance && new Object('Object created....');
return () => _instance;
})();
//************************************************************************
var instance1 = Singleton();
var instance2 = Singleton();
console.log(instance1 === instance2); // true
This should work:
function Klass() {
var instance = this;
Klass = function () { return instance; }
}
I believe this is the simplest/cleanest and most intuitive way though it requires ECMAScript 2016 (ES7):
export default class Singleton {
static instance;
constructor(){
if(instance){
return instance;
}
this.state = "duke";
this.instance = this;
}
}
The source code is from: adam-bien.com
I've found the following to be the easiest singleton pattern, because using the new operator makes this immediately available within the function, eliminating the need to return an object literal:
var singleton = new (function () {
var private = "A private value";
this.printSomething = function() {
console.log(private);
}
})();
singleton.printSomething();
Using ES6 classes and private static fields. Invoking new instances of the Singleton class will return the same instance. The instance variable is also private and can't be accessed outside the class.
class Singleton {
// # is a new Javascript feature that denotes private
static #instance;
constructor() {
if (!Singleton.#instance) {
Singleton.#instance = this
}
return Singleton.#instance
}
get() {
return Singleton.#instance;
}
}
const a = new Singleton();
const b = new Singleton();
console.log(a.get() === b.get()) // true
console.log(Singleton.instance === undefined) // true
function Once() {
return this.constructor.instance || (this.constructor.instance = this);
}
function Application(name) {
let app = Once.call(this);
app.name = name;
return app;
}
If you are into classes:
class Once {
constructor() {
return this.constructor.instance || (this.constructor.instance = this);
}
}
class Application extends Once {
constructor(name) {
super();
this.name = name;
}
}
Test:
console.log(new Once() === new Once());
let app1 = new Application('Foobar');
let app2 = new Application('Barfoo');
console.log(app1 === app2);
console.log(app1.name); // Barfoo
Following is the snippet from my walkthrough to implement a singleton pattern. This occurred to me during an interview process and I felt that I should capture this somewhere.
/*************************************************
* SINGLETON PATTERN IMPLEMENTATION *
*************************************************/
// Since there aren't any classes in JavaScript, every object
// is technically a singleton if you don't inherit from it
// or copy from it.
var single = {};
// Singleton Implementations
//
// Declaring as a global object...you are being judged!
var Logger = function() {
// global_log is/will be defined in the GLOBAL scope here
if(typeof global_log === 'undefined'){
global_log = this;
}
return global_log;
};
// The below 'fix' solves the GLOABL variable problem, but
// the log_instance is publicly available and thus can be
// tampered with.
function Logger() {
if(typeof Logger.log_instance === 'undefined') {
Logger.log_instance = this;
}
return Logger.log_instance;
};
// The correct way to do it to give it a closure!
function logFactory() {
var log_instance; // Private instance
var _initLog = function() { // Private init method
log_instance = 'initialized';
console.log("logger initialized!")
}
return {
getLog : function(){ // The 'privileged' method
if(typeof log_instance === 'undefined') {
_initLog();
}
return log_instance;
}
};
}
/***** TEST CODE ************************************************
// Using the Logger singleton
var logger = logFactory(); // Did I just give LogFactory a closure?
// Create an instance of the logger
var a = logger.getLog();
// Do some work
// Get another instance of the logger
var b = logger.getLog();
// Check if the two logger instances are same
console.log(a === b); // true
*******************************************************************/
The same can be found on my gist page.
My two cents: I have a constructor function (CF), for example,
var A = function(arg1){
this.arg1 = arg1
};
I need just every object created by this CF to be the same.
var X = function(){
var instance = {};
return function(){ return instance; }
}();
Test
var x1 = new X();
var x2 = new X();
console.log(x1 === x2)
Singleton:
Ensure a class has only one instance and provides a global point of access to it.
The singleton pattern limits the number of instances of a particular object to just one. This single instance is called the singleton.
defines getInstance() which returns the unique instance.
responsible for creating and managing the instance object.
The singleton object is implemented as an immediate anonymous function. The function executes immediately by wrapping it in brackets followed by two additional brackets. It is called anonymous because it doesn't have a name.
Sample Program
var Singleton = (function () {
var instance;
function createInstance() {
var object = new Object("I am the instance");
return object;
}
return {
getInstance: function () {
if (!instance) {
instance = createInstance();
}
return instance;
}
};
})();
function run() {
var instance1 = Singleton.getInstance();
var instance2 = Singleton.getInstance();
alert("Same instance? " + (instance1 === instance2));
}
run()
Here is a simple example to explain the singleton pattern in JavaScript.
var Singleton = (function() {
var instance;
var init = function() {
return {
display:function() {
alert("This is a singleton pattern demo");
}
};
};
return {
getInstance:function(){
if(!instance){
alert("Singleton check");
instance = init();
}
return instance;
}
};
})();
// In this call first display alert("Singleton check")
// and then alert("This is a singleton pattern demo");
// It means one object is created
var inst = Singleton.getInstance();
inst.display();
// In this call only display alert("This is a singleton pattern demo")
// it means second time new object is not created,
// it uses the already created object
var inst1 = Singleton.getInstance();
inst1.display();
let MySingleton = (function () {
var _instance
function init() {
if(!_instance) {
_instance = { $knew: 1 }
}
return _instance
}
let publicAPIs = {
getInstance: function() {
return init()
}
}
// this prevents customize the MySingleton, like MySingleton.x = 1
Object.freeze(publicAPIs)
// this prevents customize the MySingleton.getInstance(), like MySingleton.getInstance().x = 1
Object.freeze(publicAPIs.getInstance())
return publicAPIs
})();
I needed several singletons with:
lazy initialisation
initial parameters
And so this was what I came up with:
createSingleton ('a', 'add', [1, 2]);
console.log(a);
function createSingleton (name, construct, args) {
window[name] = {};
window[construct].apply(window[name], args);
window[construct] = null;
}
function add (a, b) {
this.a = a;
this.b = b;
this.sum = a + b;
}
args must be Array for this to work, so if you have empty variables, just pass in []
I used the window object in the function, but I could have passed in a parameter to create my own scope
name and construct parameters are only String in order for window[] to work, but with some simple typechecking, window.name and window.construct are also possible.
What is the simplest/cleanest way to implement the singleton pattern in JavaScript?
I think the easiest way is to declare a simple object literal:
var myInstance = {
method1: function () {
// ...
},
method2: function () {
// ...
}
};
If you want private members on your singleton instance, you can do something like this:
var myInstance = (function() {
var privateVar = '';
function privateMethod () {
// ...
}
return { // public interface
publicMethod1: function () {
// All private members are accessible here
},
publicMethod2: function () {
}
};
})();
This has been called the module pattern, and it basically allows you to encapsulate private members on an object, by taking advantage of the use of closures.
If you want to prevent the modification of the singleton object, you can freeze it, using the ES5 Object.freeze method.
That will make the object immutable, preventing any modification to the its structure and values.
If you are using ES6, you can represent a singleton using ES Modules very easily, and you can even hold private state by declaring variables at the module scope:
// my-singleton.js
const somePrivateState = []
function privateFn () {
// ...
}
export default {
method1() {
// ...
},
method2() {
// ...
}
}
Then you can simply import the singleton object to use it:
import myInstance from './my-singleton.js'
// ...
I think the cleanest approach is something like:
var SingletonFactory = (function(){
function SingletonClass() {
//do stuff
}
var instance;
return {
getInstance: function(){
if (instance == null) {
instance = new SingletonClass();
// Hide the constructor so the returned object can't be new'd...
instance.constructor = null;
}
return instance;
}
};
})();
Afterwards, you can invoke the function as
var test = SingletonFactory.getInstance();
I'm not sure I agree with the module pattern being used as a replacement for a singleton pattern. I've often seen singletons used and abused in places where they're wholly unnecessary, and I'm sure the module pattern fills many gaps where programmers would otherwise use a singleton. However, the module pattern is not a singleton.
Module pattern:
var foo = (function () {
"use strict";
function aPrivateFunction() {}
return { aPublicFunction: function () {...}, ... };
}());
Everything initialized in the module pattern happens when Foo is declared. Additionally, the module pattern can be used to initialize a constructor, which could then be instantiated multiple times. While the module pattern is the right tool for many jobs, it's not equivalent to a singleton.
Singleton pattern:
short form
var Foo = function () {
"use strict";
if (Foo._instance) {
// This allows the constructor to be called multiple times
// and refer to the same instance. Another option is to
// throw an error.
return Foo._instance;
}
Foo._instance = this;
// Foo initialization code
};
Foo.getInstance = function () {
"use strict";
return Foo._instance || new Foo();
}
long form, using module pattern
var Foo = (function () {
"use strict";
var instance; //prevent modification of "instance" variable
function Singleton() {
if (instance) {
return instance;
}
instance = this;
//Singleton initialization code
}
// Instance accessor
Singleton.getInstance = function () {
return instance || new Singleton();
}
return Singleton;
}());
In both versions of the singleton pattern that I've provided, the constructor itself can be used as the accessor:
var a,
b;
a = new Foo(); // Constructor initialization happens here
b = new Foo();
console.log(a === b); //true
If you don't feel comfortable using the constructor this way, you can throw an error in the if (instance) statement, and stick to using the long form:
var a,
b;
a = Foo.getInstance(); // Constructor initialization happens here
b = Foo.getInstance();
console.log(a === b); // true
I should also mention that the singleton pattern fits well with the implicit constructor function pattern:
function Foo() {
if (Foo._instance) {
return Foo._instance;
}
// If the function wasn't called as a constructor,
// call it as a constructor and return the result
if (!(this instanceof Foo)) {
return new Foo();
}
Foo._instance = this;
}
var f = new Foo(); // Calls Foo as a constructor
-or-
var f = Foo(); // Also calls Foo as a constructor
In ES6 the right way to do this is:
class MyClass {
constructor() {
if (MyClass._instance) {
throw new Error("Singleton classes can't be instantiated more than once.")
}
MyClass._instance = this;
// ... Your rest of the constructor code goes after this
}
}
var instanceOne = new MyClass() // Executes succesfully
var instanceTwo = new MyClass() // Throws error
Or, if you don't want an error to be thrown on the second instance creation, you can just return the last instance, like so:
class MyClass {
constructor() {
if (MyClass._instance) {
return MyClass._instance
}
MyClass._instance = this;
// ... Your rest of the constructor code goes after this
}
}
var instanceOne = new MyClass()
var instanceTwo = new MyClass()
console.log(instanceOne === instanceTwo) // Logs "true"
In ECMAScript 2015 (ES6):
class Singleton {
constructor () {
if (!Singleton.instance) {
Singleton.instance = this
}
// Initialize object
return Singleton.instance
}
// Properties & Methods
}
const instance = new Singleton()
Object.freeze(instance)
export default instance
If you're using node.JS then you can take advantage of node.JS caching mechanism and your Singleton will be as simple as:
class Singleton {
constructor() {
this.message = 'I am an instance';
}
}
module.exports = new Singleton();
Please note that we export not the class Singleton but instance Singleton().
Node.JS will cache and reuse the same object each time it’s required.
For more details please check: Node.JS and Singleton Pattern
The following works in Node.js version 6:
class Foo {
constructor(msg) {
if (Foo.singleton) {
return Foo.singleton;
}
this.msg = msg;
Foo.singleton = this;
return Foo.singleton;
}
}
We test:
const f = new Foo('blah');
const d = new Foo('nope');
console.log(f); // => Foo { msg: 'blah' }
console.log(d); // => Foo { msg: 'blah' }
The simplest/cleanest for me means also simply to understand and no bells & whistles as are much discussed in the Java version of the discussion:
What is an efficient way to implement a singleton pattern in Java?
The answer that would fit simplest/cleanest best there from my point of view is:
Jonathan's answer to What is an efficient way to implement a singleton pattern in Java?
And it can only partly be translated to JavaScript. Some of the difference in JavaScript are:
constructors can't be private
Classes can't have declared fields
But given the latest ECMA syntax, it is possible to get close with:
Singleton pattern as a JavaScript class example
class Singleton {
constructor(field1,field2) {
this.field1=field1;
this.field2=field2;
Singleton.instance=this;
}
static getInstance() {
if (!Singleton.instance) {
Singleton.instance=new Singleton('DefaultField1','DefaultField2');
}
return Singleton.instance;
}
}
Example Usage
console.log(Singleton.getInstance().field1);
console.log(Singleton.getInstance().field2);
Example Result
DefaultField1
DefaultField2
If you want to use classes:
class Singleton {
constructor(name, age) {
this.name = name;
this.age = age;
if(this.constructor.instance)
return this.constructor.instance;
this.constructor.instance = this;
}
}
let x = new Singleton('s', 1);
let y = new Singleton('k', 2);
Output for the above will be:
console.log(x.name, x.age, y.name, y.age) // s 1 s 1
Another way of writing Singleton using function
function AnotherSingleton (name,age) {
this.name = name;
this.age = age;
if(this.constructor.instance)
return this.constructor.instance;
this.constructor.instance = this;
}
let a = new AnotherSingleton('s', 1);
let b = new AnotherSingleton('k', 2);
Output for the above will be:
console.log(a.name, a.age, b.name, b.age) // s 1 s 1
There is more than one way to skin a cat :) Depending on your taste or specific need you can apply any of the proposed solutions. I personally go for Christian C. Salvadó's first solution whenever possible (when you don't need privacy).
Since the question was about the simplest and cleanest, that's the winner. Or even:
var myInstance = {}; // Done!
This (quote from my blog)...
var SingletonClass = new function() {
this.myFunction() {
// Do stuff
}
this.instance = 1;
}
doesn't make much sense (my blog example doesn't either) because it doesn't need any private variables, so it's pretty much the same as:
var SingletonClass = {
myFunction: function () {
// Do stuff
},
instance: 1
}
I deprecate my answer, see my other one.
Usually the module pattern (see Christian C. Salvadó's answer) which is not the singleton pattern is good enough. However, one of the features of the singleton is that its initialization is delayed till the object is needed. The module pattern lacks this feature.
My proposition (CoffeeScript):
window.singleton = (initializer) ->
instance = undefined
() ->
return instance unless instance is undefined
instance = initializer()
Which compiled to this in JavaScript:
window.singleton = function(initializer) {
var instance;
instance = void 0;
return function() {
if (instance !== void 0) {
return instance;
}
return instance = initializer();
};
};
Then I can do following:
window.iAmSingleton = singleton(function() {
/* This function should create and initialize singleton. */
alert("creating");
return {property1: 'value1', property2: 'value2'};
});
alert(window.iAmSingleton().property2); // "creating" will pop up; then "value2" will pop up
alert(window.iAmSingleton().property2); // "value2" will pop up but "creating" will not
window.iAmSingleton().property2 = 'new value';
alert(window.iAmSingleton().property2); // "new value" will pop up
I got this example from the *JavaScript Patterns
Build Better Applications with Coding and Design Patterns book (by Stoyan Stefanov). In case you need some simple implementation class like a singleton object, you can use an immediate function as in the following:
var ClassName;
(function() {
var instance;
ClassName = function ClassName() {
// If the private instance variable is already initialized, return a reference
if(instance) {
return instance;
}
// If the instance is not created, save a pointer of the original reference
// to the private instance variable.
instance = this;
// All constructor initialization will be here
// i.e.:
this.someProperty = 0;
this.someMethod = function() {
// Some action here
};
};
}());
And you can check this example by following test case:
// Extending defined class like singleton object using the new prototype property
ClassName.prototype.nothing = true;
var obj_1 = new ClassName();
// Extending the defined class like a singleton object using the new prototype property
ClassName.prototype.everything = true;
var obj_2 = new ClassName();
// Testing makes these two objects point to the same instance
console.log(obj_1 === obj_2); // Result is true, and it points to the same instance object
// All prototype properties work
// no matter when they were defined
console.log(obj_1.nothing && obj_1.everything
&& obj_2.nothing && obj_2.everything); // Result true
// Values of properties which are defined inside of the constructor
console.log(obj_1.someProperty); // Outputs 0
console.log(obj_2.someProperty); // Outputs 0
// Changing property value
obj_1.someProperty = 1;
console.log(obj_1.someProperty); // Output 1
console.log(obj_2.someProperty); // Output 1
console.log(obj_1.constructor === ClassName); // Output true
This approach passes all test cases while a private static implementation will fail when a prototype extension is used (it can be fixed, but it will not be simple) and a public static implementation less advisable due to an instance is exposed to the public.
jsFiddly demo.
Short answer:
Because of the non-blocking nature of JavaScript, singletons in JavaScript are really ugly in use. Global variables will give you one instance through the whole application too without all these callbacks, and module pattern gently hides internals behind the interface. See Christian C. Salvadó's answer.
But, since you wanted a singleton…
var singleton = function(initializer) {
var state = 'initial';
var instance;
var queue = [];
var instanceReady = function(createdInstance) {
state = 'ready';
instance = createdInstance;
while (callback = queue.shift()) {
callback(instance);
}
};
return function(callback) {
if (state === 'initial') {
state = 'waiting';
queue.push(callback);
initializer(instanceReady);
} else if (state === 'waiting') {
queue.push(callback);
} else {
callback(instance);
}
};
};
Usage:
var singletonInitializer = function(instanceReady) {
var preparedObject = {property: 'value'};
// Calling instanceReady notifies the singleton that the instance is ready to use
instanceReady(preparedObject);
}
var s = singleton(singletonInitializer);
// Get the instance and use it
s(function(instance) {
instance.doSomething();
});
Explanation:
Singletons give you more than just one instance through the whole application: their initialization is delayed till the first use. This is really a big thing when you deal with objects whose initialization is expensive. Expensive usually means I/O and in JavaScript I/O always mean callbacks.
Don't trust answers which give you interface like instance = singleton.getInstance(), they all miss the point.
If they don't take a callback to be run when an instance is ready, then they won't work when the initializer does I/O.
Yeah, callbacks always look uglier than a function call which immediately returns an object instance. But again: when you do I/O, callbacks are obligatory. If you don't want to do any I/O, then instantiation is cheap enough to do it at program start.
Example 1, cheap initializer:
var simpleInitializer = function(instanceReady) {
console.log("Initializer started");
instanceReady({property: "initial value"});
}
var simple = singleton(simpleInitializer);
console.log("Tests started. Singleton instance should not be initalized yet.");
simple(function(inst) {
console.log("Access 1");
console.log("Current property value: " + inst.property);
console.log("Let's reassign this property");
inst.property = "new value";
});
simple(function(inst) {
console.log("Access 2");
console.log("Current property value: " + inst.property);
});
Example 2, initialization with I/O:
In this example, setTimeout fakes some expensive I/O operation. This illustrates why singletons in JavaScript really need callbacks.
var heavyInitializer = function(instanceReady) {
console.log("Initializer started");
var onTimeout = function() {
console.log("Initializer did his heavy work");
instanceReady({property: "initial value"});
};
setTimeout(onTimeout, 500);
};
var heavy = singleton(heavyInitializer);
console.log("In this example we will be trying");
console.log("to access singleton twice before it finishes initialization.");
heavy(function(inst) {
console.log("Access 1");
console.log("Current property value: " + inst.property);
console.log("Let's reassign this property");
inst.property = "new value";
});
heavy(function(inst) {
console.log("Access 2. You can see callbacks order is preserved.");
console.log("Current property value: " + inst.property);
});
console.log("We made it to the end of the file. Instance is not ready yet.");
Christian C. Salvadó's and zzzzBov's answer have both given wonderful answers, but just to add my own interpretation based on my having moved into heavy Node.js development from PHP/Zend Framework where singleton patterns were common.
The following, comment-documented code is based on the following requirements:
one and only one instance of the function object may be instantiated
the instance is not publicly available and may only be accessed through a public method
the constructor is not publicly available and may only be instantiated if there is not already an instance available
the declaration of the constructor must allow its prototype chain to be modified. This will allow the constructor to inherit from other prototypes, and offer "public" methods for the instance
My code is very similar to zzzzBov's answer except I've added a prototype chain to the constructor and more comments that should help those coming from PHP or a similar language translate traditional OOP to JavaScript's prototypical nature. It may not be the "simplest" but I believe it is the most proper.
// Declare 'Singleton' as the returned value of a self-executing anonymous function
var Singleton = (function () {
"use strict";
// 'instance' and 'constructor' should not be available in a "public" scope
// here they are "private", thus available only within
// the scope of the self-executing anonymous function
var _instance=null;
var _constructor = function (name) {
this.name = name || 'default';
}
// Prototypes will be "public" methods available from the instance
_constructor.prototype.getName = function () {
return this.name;
}
// Using the module pattern, return a static object
// which essentially is a list of "public static" methods
return {
// Because getInstance is defined within the same scope
// it can access the "private" 'instance' and 'constructor' vars
getInstance:function (name) {
if (!_instance) {
console.log('creating'); // This should only happen once
_instance = new _constructor(name);
}
console.log('returning');
return _instance;
}
}
})(); // Self execute
// Ensure 'instance' and 'constructor' are unavailable
// outside the scope in which they were defined
// thus making them "private" and not "public"
console.log(typeof _instance); // undefined
console.log(typeof _constructor); // undefined
// Assign instance to two different variables
var a = Singleton.getInstance('first');
var b = Singleton.getInstance('second'); // passing a name here does nothing because the single instance was already instantiated
// Ensure 'a' and 'b' are truly equal
console.log(a === b); // true
console.log(a.getName()); // "first"
console.log(b.getName()); // Also returns "first" because it's the same instance as 'a'
Note that technically, the self-executing anonymous function is itself a singleton as demonstrated nicely in the code provided by Christian C. Salvadó. The only catch here is that it is not possible to modify the prototype chain of the constructor when the constructor itself is anonymous.
Keep in mind that to JavaScript, the concepts of “public” and “private” do not apply as they do in PHP or Java. But we have achieved the same effect by leveraging JavaScript’s rules of functional scope availability.
You could just do:
var singleton = new (function() {
var bar = 123
this.foo = function() {
// Whatever
}
})()
I think I have found the cleanest way to program in JavaScript, but you'll need some imagination. I got this idea from a working technique in the book JavaScript: The Good Parts.
Instead of using the new keyword, you could create a class like this:
function Class()
{
var obj = {}; // Could also be used for inheritance if you don't start with an empty object.
var privateVar;
obj.publicVar;
obj.publicMethod = publicMethod;
function publicMethod(){}
function privateMethod(){}
return obj;
}
You can instantiate the above object by saying:
var objInst = Class(); // !!! NO NEW KEYWORD
Now with this work method in mind, you could create a singleton like this:
ClassSingleton = function()
{
var instance = null;
function Class() // This is the class like the above one
{
var obj = {};
return obj;
}
function getInstance()
{
if( !instance )
instance = Class(); // Again no 'new' keyword;
return instance;
}
return { getInstance : getInstance };
}();
Now you can get your instance by calling
var obj = ClassSingleton.getInstance();
I think this is the neatest way as the complete "Class" is not even accessible.
The clearest answer should be this one from the book Learning JavaScript Design Patterns by Addy Osmani.
var mySingleton = (function () {
// Instance stores a reference to the singleton
var instance;
function init() {
// Singleton
// Private methods and variables
function privateMethod(){
console.log( "I am private" );
}
var privateVariable = "I'm also private";
var privateRandomNumber = Math.random();
return {
// Public methods and variables
publicMethod: function () {
console.log( "The public can see me!" );
},
publicProperty: "I am also public",
getRandomNumber: function() {
return privateRandomNumber;
}
};
};
return {
// Get the singleton instance if one exists
// or create one if it doesn't
getInstance: function () {
if ( !instance ) {
instance = init();
}
return instance;
}
};
})();
For me the cleanest way to do so is:
const singleton = new class {
name = "foo"
constructor() {
console.log(`Singleton ${this.name} constructed`)
}
}
With this syntax you are certain your singleton is and will remain unique. You can also enjoy the sugarness of class syntax and use this as expected.
(Note that class fields require node v12+ or a modern browser.)
This is how I implement singleton pattern using ES6 features. Yes, I know this does not look like an Object-oriented approach, but I find this method is easy to implement and a clean way to implement.
const Singleton = (() => {
var _instance = !_instance && new Object('Object created....');
return () => _instance;
})();
//************************************************************************
var instance1 = Singleton();
var instance2 = Singleton();
console.log(instance1 === instance2); // true
This should work:
function Klass() {
var instance = this;
Klass = function () { return instance; }
}
I believe this is the simplest/cleanest and most intuitive way though it requires ECMAScript 2016 (ES7):
export default class Singleton {
static instance;
constructor(){
if(instance){
return instance;
}
this.state = "duke";
this.instance = this;
}
}
The source code is from: adam-bien.com
I've found the following to be the easiest singleton pattern, because using the new operator makes this immediately available within the function, eliminating the need to return an object literal:
var singleton = new (function () {
var private = "A private value";
this.printSomething = function() {
console.log(private);
}
})();
singleton.printSomething();
Using ES6 classes and private static fields. Invoking new instances of the Singleton class will return the same instance. The instance variable is also private and can't be accessed outside the class.
class Singleton {
// # is a new Javascript feature that denotes private
static #instance;
constructor() {
if (!Singleton.#instance) {
Singleton.#instance = this
}
return Singleton.#instance
}
get() {
return Singleton.#instance;
}
}
const a = new Singleton();
const b = new Singleton();
console.log(a.get() === b.get()) // true
console.log(Singleton.instance === undefined) // true
function Once() {
return this.constructor.instance || (this.constructor.instance = this);
}
function Application(name) {
let app = Once.call(this);
app.name = name;
return app;
}
If you are into classes:
class Once {
constructor() {
return this.constructor.instance || (this.constructor.instance = this);
}
}
class Application extends Once {
constructor(name) {
super();
this.name = name;
}
}
Test:
console.log(new Once() === new Once());
let app1 = new Application('Foobar');
let app2 = new Application('Barfoo');
console.log(app1 === app2);
console.log(app1.name); // Barfoo
Following is the snippet from my walkthrough to implement a singleton pattern. This occurred to me during an interview process and I felt that I should capture this somewhere.
/*************************************************
* SINGLETON PATTERN IMPLEMENTATION *
*************************************************/
// Since there aren't any classes in JavaScript, every object
// is technically a singleton if you don't inherit from it
// or copy from it.
var single = {};
// Singleton Implementations
//
// Declaring as a global object...you are being judged!
var Logger = function() {
// global_log is/will be defined in the GLOBAL scope here
if(typeof global_log === 'undefined'){
global_log = this;
}
return global_log;
};
// The below 'fix' solves the GLOABL variable problem, but
// the log_instance is publicly available and thus can be
// tampered with.
function Logger() {
if(typeof Logger.log_instance === 'undefined') {
Logger.log_instance = this;
}
return Logger.log_instance;
};
// The correct way to do it to give it a closure!
function logFactory() {
var log_instance; // Private instance
var _initLog = function() { // Private init method
log_instance = 'initialized';
console.log("logger initialized!")
}
return {
getLog : function(){ // The 'privileged' method
if(typeof log_instance === 'undefined') {
_initLog();
}
return log_instance;
}
};
}
/***** TEST CODE ************************************************
// Using the Logger singleton
var logger = logFactory(); // Did I just give LogFactory a closure?
// Create an instance of the logger
var a = logger.getLog();
// Do some work
// Get another instance of the logger
var b = logger.getLog();
// Check if the two logger instances are same
console.log(a === b); // true
*******************************************************************/
The same can be found on my gist page.
My two cents: I have a constructor function (CF), for example,
var A = function(arg1){
this.arg1 = arg1
};
I need just every object created by this CF to be the same.
var X = function(){
var instance = {};
return function(){ return instance; }
}();
Test
var x1 = new X();
var x2 = new X();
console.log(x1 === x2)
Singleton:
Ensure a class has only one instance and provides a global point of access to it.
The singleton pattern limits the number of instances of a particular object to just one. This single instance is called the singleton.
defines getInstance() which returns the unique instance.
responsible for creating and managing the instance object.
The singleton object is implemented as an immediate anonymous function. The function executes immediately by wrapping it in brackets followed by two additional brackets. It is called anonymous because it doesn't have a name.
Sample Program
var Singleton = (function () {
var instance;
function createInstance() {
var object = new Object("I am the instance");
return object;
}
return {
getInstance: function () {
if (!instance) {
instance = createInstance();
}
return instance;
}
};
})();
function run() {
var instance1 = Singleton.getInstance();
var instance2 = Singleton.getInstance();
alert("Same instance? " + (instance1 === instance2));
}
run()
Here is a simple example to explain the singleton pattern in JavaScript.
var Singleton = (function() {
var instance;
var init = function() {
return {
display:function() {
alert("This is a singleton pattern demo");
}
};
};
return {
getInstance:function(){
if(!instance){
alert("Singleton check");
instance = init();
}
return instance;
}
};
})();
// In this call first display alert("Singleton check")
// and then alert("This is a singleton pattern demo");
// It means one object is created
var inst = Singleton.getInstance();
inst.display();
// In this call only display alert("This is a singleton pattern demo")
// it means second time new object is not created,
// it uses the already created object
var inst1 = Singleton.getInstance();
inst1.display();
let MySingleton = (function () {
var _instance
function init() {
if(!_instance) {
_instance = { $knew: 1 }
}
return _instance
}
let publicAPIs = {
getInstance: function() {
return init()
}
}
// this prevents customize the MySingleton, like MySingleton.x = 1
Object.freeze(publicAPIs)
// this prevents customize the MySingleton.getInstance(), like MySingleton.getInstance().x = 1
Object.freeze(publicAPIs.getInstance())
return publicAPIs
})();
I needed several singletons with:
lazy initialisation
initial parameters
And so this was what I came up with:
createSingleton ('a', 'add', [1, 2]);
console.log(a);
function createSingleton (name, construct, args) {
window[name] = {};
window[construct].apply(window[name], args);
window[construct] = null;
}
function add (a, b) {
this.a = a;
this.b = b;
this.sum = a + b;
}
args must be Array for this to work, so if you have empty variables, just pass in []
I used the window object in the function, but I could have passed in a parameter to create my own scope
name and construct parameters are only String in order for window[] to work, but with some simple typechecking, window.name and window.construct are also possible.
To make a JavaScript class with a public method I'd do something like:
function Restaurant() {}
Restaurant.prototype.buy_food = function(){
// something here
}
Restaurant.prototype.use_restroom = function(){
// something here
}
That way users of my class can:
var restaurant = new Restaurant();
restaurant.buy_food();
restaurant.use_restroom();
How do I create a private method that can be called by the buy_food and use_restroom methods but not externally by users of the class?
In other words, I want my method implementation to be able to do:
Restaurant.prototype.use_restroom = function() {
this.private_stuff();
}
But this shouldn't work:
var r = new Restaurant();
r.private_stuff();
How do I define private_stuff as a private method so both of these hold true?
I've read Doug Crockford's writeup a few times but it doesn't seem like "private" methods can be called by public methods and "privileged" methods can be called externally.
You can do it, but the downside is that it can't be part of the prototype:
function Restaurant() {
var myPrivateVar;
var private_stuff = function() { // Only visible inside Restaurant()
myPrivateVar = "I can set this here!";
}
this.use_restroom = function() { // use_restroom is visible to all
private_stuff();
}
this.buy_food = function() { // buy_food is visible to all
private_stuff();
}
}
Using self invoking function and call
JavaScript uses prototypes and does't have classes (or methods for that matter) like Object Oriented languages. A JavaScript developer need to think in JavaScript.
Wikipedia quote:
Unlike many object-oriented languages, there is no distinction between
a function definition and a method definition. Rather, the distinction
occurs during function calling; when a function is called as a method
of an object, the function's local this keyword is bound to that
object for that invocation.
Solution using a self invoking function and the call function to call the private "method" :
var MyObject = (function () {
// Constructor
function MyObject(foo) {
this._foo = foo;
}
function privateFun(prefix) {
return prefix + this._foo;
}
MyObject.prototype.publicFun = function () {
return privateFun.call(this, ">>");
}
return MyObject;
}());
var myObject = new MyObject("bar");
myObject.publicFun(); // Returns ">>bar"
myObject.privateFun(">>"); // ReferenceError: private is not defined
The call function allows us to call the private function with the appropriate context (this).
Simpler with Node.js
If you are using Node.js, you don't need the IIFE because you can take advantage of the module loading system:
function MyObject(foo) {
this._foo = foo;
}
function privateFun(prefix) {
return prefix + this._foo;
}
MyObject.prototype.publicFun = function () {
return privateFun.call(this, ">>");
}
module.exports= MyObject;
Load the file:
var MyObject = require("./MyObject");
var myObject = new MyObject("bar");
myObject.publicFun(); // Returns ">>bar"
myObject.privateFun(">>"); // ReferenceError: private is not defined
(new!) Native private methods in future JavaScript versions
TC39 private methods and getter/setters for JavaScript classes proposal is stage 3. That means any time soon, JavaScript will implement private methods natively!
Note that JavaScript private class fields already exists in modern JavaScript versions.
Here is an example of how it is used:
class MyObject {
// Private field
#foo;
constructor(foo) {
this.#foo = foo;
}
#privateFun(prefix) {
return prefix + this.#foo;
}
publicFun() {
return this.#privateFun(">>");
}
}
You may need a JavaScript transpiler/compiler to run this code on old JavaScript engines.
PS: If you wonder why the # prefix, read this.
(deprecated) ES7 with the Bind Operator
Warning: The bind operator TC39 proposition is near dead https://github.com/tc39/proposal-bind-operator/issues/53#issuecomment-374271822
The bind operator :: is an ECMAScript proposal and is implemented in Babel (stage 0).
export default class MyObject {
constructor (foo) {
this._foo = foo;
}
publicFun () {
return this::privateFun(">>");
}
}
function privateFun (prefix) {
return prefix + this._foo;
}
You can simulate private methods like this:
function Restaurant() {
}
Restaurant.prototype = (function() {
var private_stuff = function() {
// Private code here
};
return {
constructor:Restaurant,
use_restroom:function() {
private_stuff();
}
};
})();
var r = new Restaurant();
// This will work:
r.use_restroom();
// This will cause an error:
r.private_stuff();
More information on this technique here: http://webreflection.blogspot.com/2008/04/natural-javascript-private-methods.html
In these situations when you have a public API, and you would like private and public methods/properties, I always use the Module Pattern. This pattern was made popular within the YUI library, and the details can be found here:
http://yuiblog.com/blog/2007/06/12/module-pattern/
It is really straightforward, and easy for other developers to comprehend. For a simple example:
var MYLIB = function() {
var aPrivateProperty = true;
var aPrivateMethod = function() {
// some code here...
};
return {
aPublicMethod : function() {
aPrivateMethod(); // okay
// some code here...
},
aPublicProperty : true
};
}();
MYLIB.aPrivateMethod() // not okay
MYLIB.aPublicMethod() // okay
Here is the class which I created to understand what Douglas Crockford's has suggested in his site Private Members in JavaScript
function Employee(id, name) { //Constructor
//Public member variables
this.id = id;
this.name = name;
//Private member variables
var fName;
var lName;
var that = this;
//By convention, we create a private variable 'that'. This is used to
//make the object available to the private methods.
//Private function
function setFName(pfname) {
fName = pfname;
alert('setFName called');
}
//Privileged function
this.setLName = function (plName, pfname) {
lName = plName; //Has access to private variables
setFName(pfname); //Has access to private function
alert('setLName called ' + this.id); //Has access to member variables
}
//Another privileged member has access to both member variables and private variables
//Note access of this.dataOfBirth created by public member setDateOfBirth
this.toString = function () {
return 'toString called ' + this.id + ' ' + this.name + ' ' + fName + ' ' + lName + ' ' + this.dataOfBirth;
}
}
//Public function has access to member variable and can create on too but does not have access to private variable
Employee.prototype.setDateOfBirth = function (dob) {
alert('setDateOfBirth called ' + this.id);
this.dataOfBirth = dob; //Creates new public member note this is accessed by toString
//alert(fName); //Does not have access to private member
}
$(document).ready()
{
var employee = new Employee(5, 'Shyam'); //Create a new object and initialize it with constructor
employee.setLName('Bhaskar', 'Ram'); //Call privileged function
employee.setDateOfBirth('1/1/2000'); //Call public function
employee.id = 9; //Set up member value
//employee.setFName('Ram'); //can not call Private Privileged method
alert(employee.toString()); //See the changed object
}
ES12 Private Methods
You can do this now with es12 private methods. You just need to add a # before the method name.
class ClassWithPrivateMethod {
#privateMethod() {
return 'hello world';
}
getPrivateMessage() {
return #privateMethod();
}
}
I conjured up this: EDIT: Actually, someone has linked to a identical solution. Duh!
var Car = function() {
}
Car.prototype = (function() {
var hotWire = function() {
// Private code *with* access to public properties through 'this'
alert( this.drive() ); // Alerts 'Vroom!'
}
return {
steal: function() {
hotWire.call( this ); // Call a private method
},
drive: function() {
return 'Vroom!';
}
};
})();
var getAwayVechile = new Car();
hotWire(); // Not allowed
getAwayVechile.hotWire(); // Not allowed
getAwayVechile.steal(); // Alerts 'Vroom!'
ES2021 / ES12 - Private Methods
Private method names start with a hash # prefix and can be accessed only inside the class where it is defined.
class Restaurant {
// private method
#private_stuff() {
console.log("private stuff");
}
// public method
buy_food() {
this.#private_stuff();
}
};
const restaurant = new Restaurant();
restaurant.buy_food(); // "private stuff";
restaurant.private_stuff(); // Uncaught TypeError: restaurant.private_stuff is not a function
I think such questions come up again and again because of the lack of understanding of the closures. Сlosures is most important thing in JS. Every JS programmer have to feel the essence of it.
1. First of all we need to make separate scope (closure).
function () {
}
2. In this area, we can do whatever we want. And no one will know about it.
function () {
var name,
secretSkills = {
pizza: function () { return new Pizza() },
sushi: function () { return new Sushi() }
}
function Restaurant(_name) {
name = _name
}
Restaurant.prototype.getFood = function (name) {
return name in secretSkills ? secretSkills[name]() : null
}
}
3. For the world to know about our restaurant class,
we have to return it from the closure.
var Restaurant = (function () {
// Restaurant definition
return Restaurant
})()
4. At the end, we have:
var Restaurant = (function () {
var name,
secretSkills = {
pizza: function () { return new Pizza() },
sushi: function () { return new Sushi() }
}
function Restaurant(_name) {
name = _name
}
Restaurant.prototype.getFood = function (name) {
return name in secretSkills ? secretSkills[name]() : null
}
return Restaurant
})()
5. Also, this approach has potential for inheritance and templating
// Abstract class
function AbstractRestaurant(skills) {
var name
function Restaurant(_name) {
name = _name
}
Restaurant.prototype.getFood = function (name) {
return skills && name in skills ? skills[name]() : null
}
return Restaurant
}
// Concrete classes
SushiRestaurant = AbstractRestaurant({
sushi: function() { return new Sushi() }
})
PizzaRestaurant = AbstractRestaurant({
pizza: function() { return new Pizza() }
})
var r1 = new SushiRestaurant('Yo! Sushi'),
r2 = new PizzaRestaurant('Dominos Pizza')
r1.getFood('sushi')
r2.getFood('pizza')
I hope this helps someone better understand this subject
Personally, I prefer the following pattern for creating classes in JavaScript :
var myClass = (function() {
// Private class properties go here
var blueprint = function() {
// Private instance properties go here
...
};
blueprint.prototype = {
// Public class properties go here
...
};
return {
// Public class properties go here
create : function() { return new blueprint(); }
...
};
})();
As you can see, it allows you to define both class properties and instance properties, each of which can be public and private.
Demo
var Restaurant = function() {
var totalfoodcount = 0; // Private class property
var totalrestroomcount = 0; // Private class property
var Restaurant = function(name){
var foodcount = 0; // Private instance property
var restroomcount = 0; // Private instance property
this.name = name
this.incrementFoodCount = function() {
foodcount++;
totalfoodcount++;
this.printStatus();
};
this.incrementRestroomCount = function() {
restroomcount++;
totalrestroomcount++;
this.printStatus();
};
this.getRestroomCount = function() {
return restroomcount;
},
this.getFoodCount = function() {
return foodcount;
}
};
Restaurant.prototype = {
name : '',
buy_food : function(){
this.incrementFoodCount();
},
use_restroom : function(){
this.incrementRestroomCount();
},
getTotalRestroomCount : function() {
return totalrestroomcount;
},
getTotalFoodCount : function() {
return totalfoodcount;
},
printStatus : function() {
document.body.innerHTML
+= '<h3>Buying food at '+this.name+'</h3>'
+ '<ul>'
+ '<li>Restroom count at ' + this.name + ' : '+ this.getRestroomCount() + '</li>'
+ '<li>Food count at ' + this.name + ' : ' + this.getFoodCount() + '</li>'
+ '<li>Total restroom count : '+ this.getTotalRestroomCount() + '</li>'
+ '<li>Total food count : '+ this.getTotalFoodCount() + '</li>'
+ '</ul>';
}
};
return { // Singleton public properties
create : function(name) {
return new Restaurant(name);
},
printStatus : function() {
document.body.innerHTML
+= '<hr />'
+ '<h3>Overview</h3>'
+ '<ul>'
+ '<li>Total restroom count : '+ Restaurant.prototype.getTotalRestroomCount() + '</li>'
+ '<li>Total food count : '+ Restaurant.prototype.getTotalFoodCount() + '</li>'
+ '</ul>'
+ '<hr />';
}
};
}();
var Wendys = Restaurant.create("Wendy's");
var McDonalds = Restaurant.create("McDonald's");
var KFC = Restaurant.create("KFC");
var BurgerKing = Restaurant.create("Burger King");
Restaurant.printStatus();
Wendys.buy_food();
Wendys.use_restroom();
KFC.use_restroom();
KFC.use_restroom();
Wendys.use_restroom();
McDonalds.buy_food();
BurgerKing.buy_food();
Restaurant.printStatus();
BurgerKing.buy_food();
Wendys.use_restroom();
McDonalds.buy_food();
KFC.buy_food();
Wendys.buy_food();
BurgerKing.buy_food();
McDonalds.buy_food();
Restaurant.printStatus();
See also this Fiddle.
All of this closure will cost you. Make sure you test the speed implications especially in IE. You will find you are better off with a naming convention. There are still a lot of corporate web users out there that are forced to use IE6...
Don't be so verbose. It's Javascript. Use a Naming Convention.
After years of working in es6 classes, I recently started work on an es5 project (using requireJS which is already very verbose-looking). I've been over and over all the strategies mentioned here and it all basically boils down to use a naming convention:
Javascript doesn't have scope keywords like private. Other developers entering Javascript will know this upfront. Therefore, a simple naming convention is more than sufficient. A simple naming convention of prefixing with an underscore solves the problem of both private properties and private methods.
Let's take advantage of the Prototype for speed reasons, but lets not get anymore verbose than that. Let's try to keep the es5 "class" looking as closely to what we might expect in other backend languages (and treat every file as a class, even if we don't need to return an instance).
Let's demonstrate with a more realistic module situation (we'll use old es5 and old requireJs).
my-tooltip.js
define([
'tooltip'
],
function(
tooltip
){
function MyTooltip() {
// Later, if needed, we can remove the underscore on some
// of these (make public) and allow clients of our class
// to set them.
this._selector = "#my-tooltip"
this._template = 'Hello from inside my tooltip!';
this._initTooltip();
}
MyTooltip.prototype = {
constructor: MyTooltip,
_initTooltip: function () {
new tooltip.tooltip(this._selector, {
content: this._template,
closeOnClick: true,
closeButton: true
});
}
}
return {
init: function init() {
new MyTooltip(); // <-- Our constructor adds our tooltip to the DOM so not much we need to do after instantiation.
}
// You could instead return a new instantiation,
// if later you do more with this class.
/*
create: function create() {
return new MyTooltip();
}
*/
}
});
Take any of the solutions that follow Crockford's private or priviledged pattern. For example:
function Foo(x) {
var y = 5;
var bar = function() {
return y * x;
};
this.public = function(z) {
return bar() + x * z;
};
}
In any case where the attacker has no "execute" right on the JS context he has no way of accessing any "public" or "private" fields or methods. In case the attacker does have that access he can execute this one-liner:
eval("Foo = " + Foo.toString().replace(
/{/, "{ this.eval = function(code) { return eval(code); }; "
));
Note that the above code is generic to all constructor-type-privacy. It will fail with some of the solutions here but it should be clear that pretty much all of the closure based solutions can be broken like this with different replace() parameters.
After this is executed any object created with new Foo() is going to have an eval method which can be called to return or change values or methods defined in the constructor's closure, e.g.:
f = new Foo(99);
f.eval("x");
f.eval("y");
f.eval("x = 8");
The only problem I can see with this that it won't work for cases where there is only one instance and it's created on load. But then there is no reason to actually define a prototype and in that case the attacker can simply recreate the object instead of the constructor as long as he has a way of passing the same parameters (e.g. they are constant or calculated from available values).
In my opinion, this pretty much makes Crockford's solution useless. Since the "privacy" is easily broken the downsides of his solution (reduced readability & maintainability, decreased performance, increased memory) makes the "no privacy" prototype based method the better choice.
I do usually use leading underscores to mark __private and _protected methods and fields (Perl style), but the idea of having privacy in JavaScript just shows how it's a misunderstood language.
Therefore I disagree with Crockford except for his first sentence.
So how do you get real privacy in JS? Put everything that is required to be private on the server side and use JS to do AJAX calls.
The apotheosis of the Module Pattern: The Revealing Module Pattern
A neat little extension to a very robust pattern.
If you want the full range of public and private functions with the ability for public functions to access private functions, layout code for an object like this:
function MyObject(arg1, arg2, ...) {
//constructor code using constructor arguments...
//create/access public variables as
// this.var1 = foo;
//private variables
var v1;
var v2;
//private functions
function privateOne() {
}
function privateTwon() {
}
//public functions
MyObject.prototype.publicOne = function () {
};
MyObject.prototype.publicTwo = function () {
};
}
var TestClass = function( ) {
var privateProperty = 42;
function privateMethod( ) {
alert( "privateMethod, " + privateProperty );
}
this.public = {
constructor: TestClass,
publicProperty: 88,
publicMethod: function( ) {
alert( "publicMethod" );
privateMethod( );
}
};
};
TestClass.prototype = new TestClass( ).public;
var myTestClass = new TestClass( );
alert( myTestClass.publicProperty );
myTestClass.publicMethod( );
alert( myTestClass.privateMethod || "no privateMethod" );
Similar to georgebrock but a little less verbose (IMHO)
Any problems with doing it this way? (I haven't seen it anywhere)
edit: I realised this is kinda useless since every independent instantiation has its own copy of the public methods, thus undermining the use of the prototype.
Here's what i enjoyed the most so far regarding private/public methods/members and instantiation in javascript:
here is the article: http://www.sefol.com/?p=1090
and here is the example:
var Person = (function () {
//Immediately returns an anonymous function which builds our modules
return function (name, location) {
alert("createPerson called with " + name);
var localPrivateVar = name;
var localPublicVar = "A public variable";
var localPublicFunction = function () {
alert("PUBLIC Func called, private var is :" + localPrivateVar)
};
var localPrivateFunction = function () {
alert("PRIVATE Func called ")
};
var setName = function (name) {
localPrivateVar = name;
}
return {
publicVar: localPublicVar,
location: location,
publicFunction: localPublicFunction,
setName: setName
}
}
})();
//Request a Person instance - should print "createPerson called with ben"
var x = Person("ben", "germany");
//Request a Person instance - should print "createPerson called with candide"
var y = Person("candide", "belgium");
//Prints "ben"
x.publicFunction();
//Prints "candide"
y.publicFunction();
//Now call a public function which sets the value of a private variable in the x instance
x.setName("Ben 2");
//Shouldn't have changed this : prints "candide"
y.publicFunction();
//Should have changed this : prints "Ben 2"
x.publicFunction();
JSFiddle: http://jsfiddle.net/northkildonan/kopj3dt3/1/
The module pattern is right in most cases. But if you have thousands of instances, classes save memory. If saving memory is a concern and your objects contain a small amount of private data, but have a lot of public functions, then you'll want all public functions to live in the .prototype to save memory.
This is what I came up with:
var MyClass = (function () {
var secret = {}; // You can only getPriv() if you know this
function MyClass() {
var that = this, priv = {
foo: 0 // ... and other private values
};
that.getPriv = function (proof) {
return (proof === secret) && priv;
};
}
MyClass.prototype.inc = function () {
var priv = this.getPriv(secret);
priv.foo += 1;
return priv.foo;
};
return MyClass;
}());
var x = new MyClass();
x.inc(); // 1
x.inc(); // 2
The object priv contains private properties. It is accessible through the public function getPriv(), but this function returns false unless you pass it the secret, and this is only known inside the main closure.
What about this?
var Restaurant = (function() {
var _id = 0;
var privateVars = [];
function Restaurant(name) {
this.id = ++_id;
this.name = name;
privateVars[this.id] = {
cooked: []
};
}
Restaurant.prototype.cook = function (food) {
privateVars[this.id].cooked.push(food);
}
return Restaurant;
})();
Private variable lookup is impossible outside of the scope of the immediate function.
There is no duplication of functions, saving memory.
The downside is that the lookup of private variables is clunky privateVars[this.id].cooked is ridiculous to type. There is also an extra "id" variable.
Wrap all code in Anonymous Function: Then , all functions will be private ,ONLY functions attached to window object :
(function(w,nameSpacePrivate){
w.Person=function(name){
this.name=name;
return this;
};
w.Person.prototype.profilePublic=function(){
return nameSpacePrivate.profile.call(this);
};
nameSpacePrivate.profile=function(){
return 'My name is '+this.name;
};
})(window,{});
Use this :
var abdennour=new Person('Abdennour');
abdennour.profilePublic();
FIDDLE
I prefer to store private data in an associated WeakMap. This allows you to keep your public methods on the prototype where they belong. This seems to be the most efficient way to handle this problem for large numbers of objects.
const data = new WeakMap();
function Foo(value) {
data.set(this, {value});
}
// public method accessing private value
Foo.prototype.accessValue = function() {
return data.get(this).value;
}
// private 'method' accessing private value
function accessValue(foo) {
return data.get(foo).value;
}
export {Foo};
2021 HERE!
This polyfill effectively hides your private properties and methods returning undefined when you try to read your private property and a TypeError when you try to execute your private method thus effectively making them both PRIVATE to the outside but giving you access to them by using your public methods.
If you check it you will see it is very easy to implement. For the most part you don't need to do anything quirky like using Proxy objects, underscore functions (_myprivate), getters or setters. None of that. The only thing required is to place in your constructor that like snippet of code that is aimed to let you expose your public interface to the outside world.
((self) => ({
pubProp: self.pubProp,
// More public properties to export HERE
// ...
pubMethod: self.pubMethod.bind(self)
// More public mehods to export HERE
// Be sure bind each of them to self!!!
// ...
}))(self);
The above code is where the magic happens. It is an IIFE that returns an object with just the properties and methods you want to exposed and bound to the context of the object that was first instantiated.
You can still access your hidden properties and methods but only through your public methods just the way OOP should do.
Consider that part of the code as your module.exports
BTW, this is without using the latest ECMAScript 2022 # addition to the language.
'use strict';
class MyClass {
constructor(pubProp) {
let self = this;
self.pubProp = pubProp;
self.privProp = "I'm a private property!";
return ((self) => ({
pubProp: self.pubProp,
// More public properties to export HERE
// ...
pubMethod: self.pubMethod.bind(self)
// More public mehods to export HERE
// Be sure to bind each of them to self!!!
// ...
}))(self);
}
pubMethod() {
console.log("I'm a public method!");
console.log(this.pubProp);
return this.privMethod();
}
privMethod() {
console.log("I'm a private method!");
return this.privProp
}
}
const myObj = new MyClass("I'm a public property!");
console.log("***DUMPING MY NEW INSTANCE***");
console.dir(myObj);
console.log("");
console.log("***TESTING ACCESS TO PUBLIC PROPERTIES***");
console.log(myObj.pubProp);
console.log("");
console.log("***TESTING ACCESS TO PRIVATE PROPERTIES***");
console.log(myObj.privProp);
console.log("");
console.log("***TESTING ACCESS TO PUBLIC METHODS***");
console.log("1. pubMethod access pubProp ");
console.log("2. pubMethod calls privMethod");
console.log("3. privMethod access privProp");
console.log("")
console.log(myObj.pubMethod());
console.log("");
console.log("***TESTING ACCESS TO PRIVATE METHODS***");
console.log(myObj.privMethod());
Check my gist
Private functions cannot access the public variables using module pattern
Since everybody was posting here his own code, I'm gonna do that too...
I like Crockford because he introduced real object oriented patterns in Javascript. But he also came up with a new misunderstanding, the "that" one.
So why is he using "that = this"? It has nothing to do with private functions at all. It has to do with inner functions!
Because according to Crockford this is buggy code:
Function Foo( ) {
this.bar = 0;
var foobar=function( ) {
alert(this.bar);
}
}
So he suggested doing this:
Function Foo( ) {
this.bar = 0;
that = this;
var foobar=function( ) {
alert(that.bar);
}
}
So as I said, I'm quite sure that Crockford was wrong his explanation about that and this (but his code is certainly correct). Or was he just fooling the Javascript world, to know who is copying his code? I dunno...I'm no browser geek ;D
EDIT
Ah, that's what is all about: What does 'var that = this;' mean in JavaScript?
So Crockie was really wrong with his explanation....but right with his code, so he's still a great guy. :))
In general I added the private Object _ temporarily to the object.
You have to open the privacy exlipcitly in the "Power-constructor" for the method.
If you call the method from the prototype, you will
be able to overwrite the prototype-method
Make a public method accessible in the "Power-constructor": (ctx is the object context)
ctx.test = GD.Fabric.open('test', GD.Test.prototype, ctx, _); // is a private object
Now I have this openPrivacy:
GD.Fabric.openPrivacy = function(func, clss, ctx, _) {
return function() {
ctx._ = _;
var res = clss[func].apply(ctx, arguments);
ctx._ = null;
return res;
};
};
This is what I worked out:
Needs one class of sugar code that you can find here. Also supports protected, inheritance, virtual, static stuff...
;( function class_Restaurant( namespace )
{
'use strict';
if( namespace[ "Restaurant" ] ) return // protect against double inclusions
namespace.Restaurant = Restaurant
var Static = TidBits.OoJs.setupClass( namespace, "Restaurant" )
// constructor
//
function Restaurant()
{
this.toilets = 3
this.Private( private_stuff )
return this.Public( buy_food, use_restroom )
}
function private_stuff(){ console.log( "There are", this.toilets, "toilets available") }
function buy_food (){ return "food" }
function use_restroom (){ this.private_stuff() }
})( window )
var chinese = new Restaurant
console.log( chinese.buy_food() ); // output: food
console.log( chinese.use_restroom() ); // output: There are 3 toilets available
console.log( chinese.toilets ); // output: undefined
console.log( chinese.private_stuff() ); // output: undefined
// and throws: TypeError: Object #<Restaurant> has no method 'private_stuff'
Class({
Namespace:ABC,
Name:"ClassL2",
Bases:[ABC.ClassTop],
Private:{
m_var:2
},
Protected:{
proval:2,
fight:Property(function(){
this.m_var--;
console.log("ClassL2::fight (m_var)" +this.m_var);
},[Property.Type.Virtual])
},
Public:{
Fight:function(){
console.log("ClassL2::Fight (m_var)"+this.m_var);
this.fight();
}
}
});
https://github.com/nooning/JSClass
I have created a new tool to allow you to have true private methods on the prototype
https://github.com/TremayneChrist/ProtectJS
Example:
var MyObject = (function () {
// Create the object
function MyObject() {}
// Add methods to the prototype
MyObject.prototype = {
// This is our public method
public: function () {
console.log('PUBLIC method has been called');
},
// This is our private method, using (_)
_private: function () {
console.log('PRIVATE method has been called');
}
}
return protect(MyObject);
})();
// Create an instance of the object
var mo = new MyObject();
// Call its methods
mo.public(); // Pass
mo._private(); // Fail
You have to put a closure around your actual constructor-function, where you can define your private methods.
To change data of the instances through these private methods, you have to give them "this" with them, either as an function argument or by calling this function with .apply(this) :
var Restaurant = (function(){
var private_buy_food = function(that){
that.data.soldFood = true;
}
var private_take_a_shit = function(){
this.data.isdirty = true;
}
// New Closure
function restaurant()
{
this.data = {
isdirty : false,
soldFood: false,
};
}
restaurant.prototype.buy_food = function()
{
private_buy_food(this);
}
restaurant.prototype.use_restroom = function()
{
private_take_a_shit.call(this);
}
return restaurant;
})()
// TEST:
var McDonalds = new Restaurant();
McDonalds.buy_food();
McDonalds.use_restroom();
console.log(McDonalds);
console.log(McDonalds.__proto__);
I know it's a bit too late but how about this?
var obj = function(){
var pr = "private";
var prt = Object.getPrototypeOf(this);
if(!prt.hasOwnProperty("showPrivate")){
prt.showPrivate = function(){
console.log(pr);
}
}
}
var i = new obj();
i.showPrivate();
console.log(i.hasOwnProperty("pr"));
It might not be possible, but I'm curious. Is it possible to define a private constructor with a public factory method?
function MyParentClass() {}
MyParentClass.prototype.init = function() { ... }
function MyChildClass() {}
MyChildClass.prototype = new MyParentClass();
MyChildClass.prototype.init = function() {
...
MyParentClass.prototype.init.apply(this);
...
}
MyChildClass.Create = function() {
var instance = new MyChildClass();
instance.init();
return instance;
}
Is it possible to hide the 2 constructors and only expose Create()?
Other approaches to this overridable init() approach are welcome too. Thank you.
I am not sure what you are trying to achieve, but here's an example where MyClass would be a singleton that has a factory method create that allows creating MyClass instances.
//MyClass will be an object with a create method only
var MyClass = (function() {
function MyClass() {
this.initialized = false;
}
MyClass.prototype = {
init: function () {
this.initialized = true;
return this;
}
};
return {
create: function () {
return new MyClass().init();
}
};
})();
var m = MyClass.create();
console.log(m);
console.log(m.constructor); //Will be Object because we replaced the whole prototype
However, I am not sure why you want to have two constructor functions (init and the constructor itself)? Are you trying to abstract the object creation process away because it is complicated?
I suspect that you simply want to move the constructor logic into another function because of the way you are trying to achieve inheritance.
Are you simply trying to avoid calling the constructor logic when you do the following?
MyChildClass.prototype = new MyParentClass();
If it's the case, using Object.create would fix your problem (it is not supported in old browsers, but there's a shim for it -- the shim support the features you would need, but not everything that Object.create does).
function A(test) {
this.test = test;
}
function B(test) {
A.call(this, test); //call parent constructor
}
B.prototype = Object.create(A.prototype); //inherit from A
var b = new B('test');
console.log(b);
console.log(b instanceof A); //true
You could also use a pure prototypal approach, without using constructor functions together with the new keyword.
var A = {
init: function (test) {
this.test = test;
return this;
}
},
B = Object.create(A),
b;
//override constructor function
B.init = function (test) {
return A.init.call(this, test);
};
b = Object.create(B).init('test');
console.log(b);
What is the simplest/cleanest way to implement the singleton pattern in JavaScript?
I think the easiest way is to declare a simple object literal:
var myInstance = {
method1: function () {
// ...
},
method2: function () {
// ...
}
};
If you want private members on your singleton instance, you can do something like this:
var myInstance = (function() {
var privateVar = '';
function privateMethod () {
// ...
}
return { // public interface
publicMethod1: function () {
// All private members are accessible here
},
publicMethod2: function () {
}
};
})();
This has been called the module pattern, and it basically allows you to encapsulate private members on an object, by taking advantage of the use of closures.
If you want to prevent the modification of the singleton object, you can freeze it, using the ES5 Object.freeze method.
That will make the object immutable, preventing any modification to the its structure and values.
If you are using ES6, you can represent a singleton using ES Modules very easily, and you can even hold private state by declaring variables at the module scope:
// my-singleton.js
const somePrivateState = []
function privateFn () {
// ...
}
export default {
method1() {
// ...
},
method2() {
// ...
}
}
Then you can simply import the singleton object to use it:
import myInstance from './my-singleton.js'
// ...
I think the cleanest approach is something like:
var SingletonFactory = (function(){
function SingletonClass() {
//do stuff
}
var instance;
return {
getInstance: function(){
if (instance == null) {
instance = new SingletonClass();
// Hide the constructor so the returned object can't be new'd...
instance.constructor = null;
}
return instance;
}
};
})();
Afterwards, you can invoke the function as
var test = SingletonFactory.getInstance();
I'm not sure I agree with the module pattern being used as a replacement for a singleton pattern. I've often seen singletons used and abused in places where they're wholly unnecessary, and I'm sure the module pattern fills many gaps where programmers would otherwise use a singleton. However, the module pattern is not a singleton.
Module pattern:
var foo = (function () {
"use strict";
function aPrivateFunction() {}
return { aPublicFunction: function () {...}, ... };
}());
Everything initialized in the module pattern happens when Foo is declared. Additionally, the module pattern can be used to initialize a constructor, which could then be instantiated multiple times. While the module pattern is the right tool for many jobs, it's not equivalent to a singleton.
Singleton pattern:
short form
var Foo = function () {
"use strict";
if (Foo._instance) {
// This allows the constructor to be called multiple times
// and refer to the same instance. Another option is to
// throw an error.
return Foo._instance;
}
Foo._instance = this;
// Foo initialization code
};
Foo.getInstance = function () {
"use strict";
return Foo._instance || new Foo();
}
long form, using module pattern
var Foo = (function () {
"use strict";
var instance; //prevent modification of "instance" variable
function Singleton() {
if (instance) {
return instance;
}
instance = this;
//Singleton initialization code
}
// Instance accessor
Singleton.getInstance = function () {
return instance || new Singleton();
}
return Singleton;
}());
In both versions of the singleton pattern that I've provided, the constructor itself can be used as the accessor:
var a,
b;
a = new Foo(); // Constructor initialization happens here
b = new Foo();
console.log(a === b); //true
If you don't feel comfortable using the constructor this way, you can throw an error in the if (instance) statement, and stick to using the long form:
var a,
b;
a = Foo.getInstance(); // Constructor initialization happens here
b = Foo.getInstance();
console.log(a === b); // true
I should also mention that the singleton pattern fits well with the implicit constructor function pattern:
function Foo() {
if (Foo._instance) {
return Foo._instance;
}
// If the function wasn't called as a constructor,
// call it as a constructor and return the result
if (!(this instanceof Foo)) {
return new Foo();
}
Foo._instance = this;
}
var f = new Foo(); // Calls Foo as a constructor
-or-
var f = Foo(); // Also calls Foo as a constructor
In ES6 the right way to do this is:
class MyClass {
constructor() {
if (MyClass._instance) {
throw new Error("Singleton classes can't be instantiated more than once.")
}
MyClass._instance = this;
// ... Your rest of the constructor code goes after this
}
}
var instanceOne = new MyClass() // Executes succesfully
var instanceTwo = new MyClass() // Throws error
Or, if you don't want an error to be thrown on the second instance creation, you can just return the last instance, like so:
class MyClass {
constructor() {
if (MyClass._instance) {
return MyClass._instance
}
MyClass._instance = this;
// ... Your rest of the constructor code goes after this
}
}
var instanceOne = new MyClass()
var instanceTwo = new MyClass()
console.log(instanceOne === instanceTwo) // Logs "true"
In ECMAScript 2015 (ES6):
class Singleton {
constructor () {
if (!Singleton.instance) {
Singleton.instance = this
}
// Initialize object
return Singleton.instance
}
// Properties & Methods
}
const instance = new Singleton()
Object.freeze(instance)
export default instance
If you're using node.JS then you can take advantage of node.JS caching mechanism and your Singleton will be as simple as:
class Singleton {
constructor() {
this.message = 'I am an instance';
}
}
module.exports = new Singleton();
Please note that we export not the class Singleton but instance Singleton().
Node.JS will cache and reuse the same object each time it’s required.
For more details please check: Node.JS and Singleton Pattern
The following works in Node.js version 6:
class Foo {
constructor(msg) {
if (Foo.singleton) {
return Foo.singleton;
}
this.msg = msg;
Foo.singleton = this;
return Foo.singleton;
}
}
We test:
const f = new Foo('blah');
const d = new Foo('nope');
console.log(f); // => Foo { msg: 'blah' }
console.log(d); // => Foo { msg: 'blah' }
The simplest/cleanest for me means also simply to understand and no bells & whistles as are much discussed in the Java version of the discussion:
What is an efficient way to implement a singleton pattern in Java?
The answer that would fit simplest/cleanest best there from my point of view is:
Jonathan's answer to What is an efficient way to implement a singleton pattern in Java?
And it can only partly be translated to JavaScript. Some of the difference in JavaScript are:
constructors can't be private
Classes can't have declared fields
But given the latest ECMA syntax, it is possible to get close with:
Singleton pattern as a JavaScript class example
class Singleton {
constructor(field1,field2) {
this.field1=field1;
this.field2=field2;
Singleton.instance=this;
}
static getInstance() {
if (!Singleton.instance) {
Singleton.instance=new Singleton('DefaultField1','DefaultField2');
}
return Singleton.instance;
}
}
Example Usage
console.log(Singleton.getInstance().field1);
console.log(Singleton.getInstance().field2);
Example Result
DefaultField1
DefaultField2
If you want to use classes:
class Singleton {
constructor(name, age) {
this.name = name;
this.age = age;
if(this.constructor.instance)
return this.constructor.instance;
this.constructor.instance = this;
}
}
let x = new Singleton('s', 1);
let y = new Singleton('k', 2);
Output for the above will be:
console.log(x.name, x.age, y.name, y.age) // s 1 s 1
Another way of writing Singleton using function
function AnotherSingleton (name,age) {
this.name = name;
this.age = age;
if(this.constructor.instance)
return this.constructor.instance;
this.constructor.instance = this;
}
let a = new AnotherSingleton('s', 1);
let b = new AnotherSingleton('k', 2);
Output for the above will be:
console.log(a.name, a.age, b.name, b.age) // s 1 s 1
There is more than one way to skin a cat :) Depending on your taste or specific need you can apply any of the proposed solutions. I personally go for Christian C. Salvadó's first solution whenever possible (when you don't need privacy).
Since the question was about the simplest and cleanest, that's the winner. Or even:
var myInstance = {}; // Done!
This (quote from my blog)...
var SingletonClass = new function() {
this.myFunction() {
// Do stuff
}
this.instance = 1;
}
doesn't make much sense (my blog example doesn't either) because it doesn't need any private variables, so it's pretty much the same as:
var SingletonClass = {
myFunction: function () {
// Do stuff
},
instance: 1
}
I deprecate my answer, see my other one.
Usually the module pattern (see Christian C. Salvadó's answer) which is not the singleton pattern is good enough. However, one of the features of the singleton is that its initialization is delayed till the object is needed. The module pattern lacks this feature.
My proposition (CoffeeScript):
window.singleton = (initializer) ->
instance = undefined
() ->
return instance unless instance is undefined
instance = initializer()
Which compiled to this in JavaScript:
window.singleton = function(initializer) {
var instance;
instance = void 0;
return function() {
if (instance !== void 0) {
return instance;
}
return instance = initializer();
};
};
Then I can do following:
window.iAmSingleton = singleton(function() {
/* This function should create and initialize singleton. */
alert("creating");
return {property1: 'value1', property2: 'value2'};
});
alert(window.iAmSingleton().property2); // "creating" will pop up; then "value2" will pop up
alert(window.iAmSingleton().property2); // "value2" will pop up but "creating" will not
window.iAmSingleton().property2 = 'new value';
alert(window.iAmSingleton().property2); // "new value" will pop up
I got this example from the *JavaScript Patterns
Build Better Applications with Coding and Design Patterns book (by Stoyan Stefanov). In case you need some simple implementation class like a singleton object, you can use an immediate function as in the following:
var ClassName;
(function() {
var instance;
ClassName = function ClassName() {
// If the private instance variable is already initialized, return a reference
if(instance) {
return instance;
}
// If the instance is not created, save a pointer of the original reference
// to the private instance variable.
instance = this;
// All constructor initialization will be here
// i.e.:
this.someProperty = 0;
this.someMethod = function() {
// Some action here
};
};
}());
And you can check this example by following test case:
// Extending defined class like singleton object using the new prototype property
ClassName.prototype.nothing = true;
var obj_1 = new ClassName();
// Extending the defined class like a singleton object using the new prototype property
ClassName.prototype.everything = true;
var obj_2 = new ClassName();
// Testing makes these two objects point to the same instance
console.log(obj_1 === obj_2); // Result is true, and it points to the same instance object
// All prototype properties work
// no matter when they were defined
console.log(obj_1.nothing && obj_1.everything
&& obj_2.nothing && obj_2.everything); // Result true
// Values of properties which are defined inside of the constructor
console.log(obj_1.someProperty); // Outputs 0
console.log(obj_2.someProperty); // Outputs 0
// Changing property value
obj_1.someProperty = 1;
console.log(obj_1.someProperty); // Output 1
console.log(obj_2.someProperty); // Output 1
console.log(obj_1.constructor === ClassName); // Output true
This approach passes all test cases while a private static implementation will fail when a prototype extension is used (it can be fixed, but it will not be simple) and a public static implementation less advisable due to an instance is exposed to the public.
jsFiddly demo.
Short answer:
Because of the non-blocking nature of JavaScript, singletons in JavaScript are really ugly in use. Global variables will give you one instance through the whole application too without all these callbacks, and module pattern gently hides internals behind the interface. See Christian C. Salvadó's answer.
But, since you wanted a singleton…
var singleton = function(initializer) {
var state = 'initial';
var instance;
var queue = [];
var instanceReady = function(createdInstance) {
state = 'ready';
instance = createdInstance;
while (callback = queue.shift()) {
callback(instance);
}
};
return function(callback) {
if (state === 'initial') {
state = 'waiting';
queue.push(callback);
initializer(instanceReady);
} else if (state === 'waiting') {
queue.push(callback);
} else {
callback(instance);
}
};
};
Usage:
var singletonInitializer = function(instanceReady) {
var preparedObject = {property: 'value'};
// Calling instanceReady notifies the singleton that the instance is ready to use
instanceReady(preparedObject);
}
var s = singleton(singletonInitializer);
// Get the instance and use it
s(function(instance) {
instance.doSomething();
});
Explanation:
Singletons give you more than just one instance through the whole application: their initialization is delayed till the first use. This is really a big thing when you deal with objects whose initialization is expensive. Expensive usually means I/O and in JavaScript I/O always mean callbacks.
Don't trust answers which give you interface like instance = singleton.getInstance(), they all miss the point.
If they don't take a callback to be run when an instance is ready, then they won't work when the initializer does I/O.
Yeah, callbacks always look uglier than a function call which immediately returns an object instance. But again: when you do I/O, callbacks are obligatory. If you don't want to do any I/O, then instantiation is cheap enough to do it at program start.
Example 1, cheap initializer:
var simpleInitializer = function(instanceReady) {
console.log("Initializer started");
instanceReady({property: "initial value"});
}
var simple = singleton(simpleInitializer);
console.log("Tests started. Singleton instance should not be initalized yet.");
simple(function(inst) {
console.log("Access 1");
console.log("Current property value: " + inst.property);
console.log("Let's reassign this property");
inst.property = "new value";
});
simple(function(inst) {
console.log("Access 2");
console.log("Current property value: " + inst.property);
});
Example 2, initialization with I/O:
In this example, setTimeout fakes some expensive I/O operation. This illustrates why singletons in JavaScript really need callbacks.
var heavyInitializer = function(instanceReady) {
console.log("Initializer started");
var onTimeout = function() {
console.log("Initializer did his heavy work");
instanceReady({property: "initial value"});
};
setTimeout(onTimeout, 500);
};
var heavy = singleton(heavyInitializer);
console.log("In this example we will be trying");
console.log("to access singleton twice before it finishes initialization.");
heavy(function(inst) {
console.log("Access 1");
console.log("Current property value: " + inst.property);
console.log("Let's reassign this property");
inst.property = "new value";
});
heavy(function(inst) {
console.log("Access 2. You can see callbacks order is preserved.");
console.log("Current property value: " + inst.property);
});
console.log("We made it to the end of the file. Instance is not ready yet.");
I think I have found the cleanest way to program in JavaScript, but you'll need some imagination. I got this idea from a working technique in the book JavaScript: The Good Parts.
Instead of using the new keyword, you could create a class like this:
function Class()
{
var obj = {}; // Could also be used for inheritance if you don't start with an empty object.
var privateVar;
obj.publicVar;
obj.publicMethod = publicMethod;
function publicMethod(){}
function privateMethod(){}
return obj;
}
You can instantiate the above object by saying:
var objInst = Class(); // !!! NO NEW KEYWORD
Now with this work method in mind, you could create a singleton like this:
ClassSingleton = function()
{
var instance = null;
function Class() // This is the class like the above one
{
var obj = {};
return obj;
}
function getInstance()
{
if( !instance )
instance = Class(); // Again no 'new' keyword;
return instance;
}
return { getInstance : getInstance };
}();
Now you can get your instance by calling
var obj = ClassSingleton.getInstance();
I think this is the neatest way as the complete "Class" is not even accessible.
Christian C. Salvadó's and zzzzBov's answer have both given wonderful answers, but just to add my own interpretation based on my having moved into heavy Node.js development from PHP/Zend Framework where singleton patterns were common.
The following, comment-documented code is based on the following requirements:
one and only one instance of the function object may be instantiated
the instance is not publicly available and may only be accessed through a public method
the constructor is not publicly available and may only be instantiated if there is not already an instance available
the declaration of the constructor must allow its prototype chain to be modified. This will allow the constructor to inherit from other prototypes, and offer "public" methods for the instance
My code is very similar to zzzzBov's answer except I've added a prototype chain to the constructor and more comments that should help those coming from PHP or a similar language translate traditional OOP to JavaScript's prototypical nature. It may not be the "simplest" but I believe it is the most proper.
// Declare 'Singleton' as the returned value of a self-executing anonymous function
var Singleton = (function () {
"use strict";
// 'instance' and 'constructor' should not be available in a "public" scope
// here they are "private", thus available only within
// the scope of the self-executing anonymous function
var _instance=null;
var _constructor = function (name) {
this.name = name || 'default';
}
// Prototypes will be "public" methods available from the instance
_constructor.prototype.getName = function () {
return this.name;
}
// Using the module pattern, return a static object
// which essentially is a list of "public static" methods
return {
// Because getInstance is defined within the same scope
// it can access the "private" 'instance' and 'constructor' vars
getInstance:function (name) {
if (!_instance) {
console.log('creating'); // This should only happen once
_instance = new _constructor(name);
}
console.log('returning');
return _instance;
}
}
})(); // Self execute
// Ensure 'instance' and 'constructor' are unavailable
// outside the scope in which they were defined
// thus making them "private" and not "public"
console.log(typeof _instance); // undefined
console.log(typeof _constructor); // undefined
// Assign instance to two different variables
var a = Singleton.getInstance('first');
var b = Singleton.getInstance('second'); // passing a name here does nothing because the single instance was already instantiated
// Ensure 'a' and 'b' are truly equal
console.log(a === b); // true
console.log(a.getName()); // "first"
console.log(b.getName()); // Also returns "first" because it's the same instance as 'a'
Note that technically, the self-executing anonymous function is itself a singleton as demonstrated nicely in the code provided by Christian C. Salvadó. The only catch here is that it is not possible to modify the prototype chain of the constructor when the constructor itself is anonymous.
Keep in mind that to JavaScript, the concepts of “public” and “private” do not apply as they do in PHP or Java. But we have achieved the same effect by leveraging JavaScript’s rules of functional scope availability.
You could just do:
var singleton = new (function() {
var bar = 123
this.foo = function() {
// Whatever
}
})()
The clearest answer should be this one from the book Learning JavaScript Design Patterns by Addy Osmani.
var mySingleton = (function () {
// Instance stores a reference to the singleton
var instance;
function init() {
// Singleton
// Private methods and variables
function privateMethod(){
console.log( "I am private" );
}
var privateVariable = "I'm also private";
var privateRandomNumber = Math.random();
return {
// Public methods and variables
publicMethod: function () {
console.log( "The public can see me!" );
},
publicProperty: "I am also public",
getRandomNumber: function() {
return privateRandomNumber;
}
};
};
return {
// Get the singleton instance if one exists
// or create one if it doesn't
getInstance: function () {
if ( !instance ) {
instance = init();
}
return instance;
}
};
})();
For me the cleanest way to do so is:
const singleton = new class {
name = "foo"
constructor() {
console.log(`Singleton ${this.name} constructed`)
}
}
With this syntax you are certain your singleton is and will remain unique. You can also enjoy the sugarness of class syntax and use this as expected.
(Note that class fields require node v12+ or a modern browser.)
This is how I implement singleton pattern using ES6 features. Yes, I know this does not look like an Object-oriented approach, but I find this method is easy to implement and a clean way to implement.
const Singleton = (() => {
var _instance = !_instance && new Object('Object created....');
return () => _instance;
})();
//************************************************************************
var instance1 = Singleton();
var instance2 = Singleton();
console.log(instance1 === instance2); // true
This should work:
function Klass() {
var instance = this;
Klass = function () { return instance; }
}
I believe this is the simplest/cleanest and most intuitive way though it requires ECMAScript 2016 (ES7):
export default class Singleton {
static instance;
constructor(){
if(instance){
return instance;
}
this.state = "duke";
this.instance = this;
}
}
The source code is from: adam-bien.com
I've found the following to be the easiest singleton pattern, because using the new operator makes this immediately available within the function, eliminating the need to return an object literal:
var singleton = new (function () {
var private = "A private value";
this.printSomething = function() {
console.log(private);
}
})();
singleton.printSomething();
Using ES6 classes and private static fields. Invoking new instances of the Singleton class will return the same instance. The instance variable is also private and can't be accessed outside the class.
class Singleton {
// # is a new Javascript feature that denotes private
static #instance;
constructor() {
if (!Singleton.#instance) {
Singleton.#instance = this
}
return Singleton.#instance
}
get() {
return Singleton.#instance;
}
}
const a = new Singleton();
const b = new Singleton();
console.log(a.get() === b.get()) // true
console.log(Singleton.instance === undefined) // true
function Once() {
return this.constructor.instance || (this.constructor.instance = this);
}
function Application(name) {
let app = Once.call(this);
app.name = name;
return app;
}
If you are into classes:
class Once {
constructor() {
return this.constructor.instance || (this.constructor.instance = this);
}
}
class Application extends Once {
constructor(name) {
super();
this.name = name;
}
}
Test:
console.log(new Once() === new Once());
let app1 = new Application('Foobar');
let app2 = new Application('Barfoo');
console.log(app1 === app2);
console.log(app1.name); // Barfoo
Following is the snippet from my walkthrough to implement a singleton pattern. This occurred to me during an interview process and I felt that I should capture this somewhere.
/*************************************************
* SINGLETON PATTERN IMPLEMENTATION *
*************************************************/
// Since there aren't any classes in JavaScript, every object
// is technically a singleton if you don't inherit from it
// or copy from it.
var single = {};
// Singleton Implementations
//
// Declaring as a global object...you are being judged!
var Logger = function() {
// global_log is/will be defined in the GLOBAL scope here
if(typeof global_log === 'undefined'){
global_log = this;
}
return global_log;
};
// The below 'fix' solves the GLOABL variable problem, but
// the log_instance is publicly available and thus can be
// tampered with.
function Logger() {
if(typeof Logger.log_instance === 'undefined') {
Logger.log_instance = this;
}
return Logger.log_instance;
};
// The correct way to do it to give it a closure!
function logFactory() {
var log_instance; // Private instance
var _initLog = function() { // Private init method
log_instance = 'initialized';
console.log("logger initialized!")
}
return {
getLog : function(){ // The 'privileged' method
if(typeof log_instance === 'undefined') {
_initLog();
}
return log_instance;
}
};
}
/***** TEST CODE ************************************************
// Using the Logger singleton
var logger = logFactory(); // Did I just give LogFactory a closure?
// Create an instance of the logger
var a = logger.getLog();
// Do some work
// Get another instance of the logger
var b = logger.getLog();
// Check if the two logger instances are same
console.log(a === b); // true
*******************************************************************/
The same can be found on my gist page.
My two cents: I have a constructor function (CF), for example,
var A = function(arg1){
this.arg1 = arg1
};
I need just every object created by this CF to be the same.
var X = function(){
var instance = {};
return function(){ return instance; }
}();
Test
var x1 = new X();
var x2 = new X();
console.log(x1 === x2)
Singleton:
Ensure a class has only one instance and provides a global point of access to it.
The singleton pattern limits the number of instances of a particular object to just one. This single instance is called the singleton.
defines getInstance() which returns the unique instance.
responsible for creating and managing the instance object.
The singleton object is implemented as an immediate anonymous function. The function executes immediately by wrapping it in brackets followed by two additional brackets. It is called anonymous because it doesn't have a name.
Sample Program
var Singleton = (function () {
var instance;
function createInstance() {
var object = new Object("I am the instance");
return object;
}
return {
getInstance: function () {
if (!instance) {
instance = createInstance();
}
return instance;
}
};
})();
function run() {
var instance1 = Singleton.getInstance();
var instance2 = Singleton.getInstance();
alert("Same instance? " + (instance1 === instance2));
}
run()
Here is a simple example to explain the singleton pattern in JavaScript.
var Singleton = (function() {
var instance;
var init = function() {
return {
display:function() {
alert("This is a singleton pattern demo");
}
};
};
return {
getInstance:function(){
if(!instance){
alert("Singleton check");
instance = init();
}
return instance;
}
};
})();
// In this call first display alert("Singleton check")
// and then alert("This is a singleton pattern demo");
// It means one object is created
var inst = Singleton.getInstance();
inst.display();
// In this call only display alert("This is a singleton pattern demo")
// it means second time new object is not created,
// it uses the already created object
var inst1 = Singleton.getInstance();
inst1.display();
let MySingleton = (function () {
var _instance
function init() {
if(!_instance) {
_instance = { $knew: 1 }
}
return _instance
}
let publicAPIs = {
getInstance: function() {
return init()
}
}
// this prevents customize the MySingleton, like MySingleton.x = 1
Object.freeze(publicAPIs)
// this prevents customize the MySingleton.getInstance(), like MySingleton.getInstance().x = 1
Object.freeze(publicAPIs.getInstance())
return publicAPIs
})();
I needed several singletons with:
lazy initialisation
initial parameters
And so this was what I came up with:
createSingleton ('a', 'add', [1, 2]);
console.log(a);
function createSingleton (name, construct, args) {
window[name] = {};
window[construct].apply(window[name], args);
window[construct] = null;
}
function add (a, b) {
this.a = a;
this.b = b;
this.sum = a + b;
}
args must be Array for this to work, so if you have empty variables, just pass in []
I used the window object in the function, but I could have passed in a parameter to create my own scope
name and construct parameters are only String in order for window[] to work, but with some simple typechecking, window.name and window.construct are also possible.