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What is the simplest/cleanest way to implement the singleton pattern in JavaScript?

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  • 38
    Downvote for the accepted answer not being a singleton at all. It's just a global variable.
    – mlibby
    Feb 25, 2013 at 12:53
  • 7
    This is a ton of information, but really lays out the differences amongst the different JS design patterns. It helped me a lot: addyosmani.com/resources/essentialjsdesignpatterns/book
    – Justin
    Jul 19, 2013 at 5:10

46 Answers 46

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This knowledge is base from I am learning Java, though Java and Javascript is different, the concept of Singleton and how Java do it is just the same. In my opinion, The class style from JS is clean by itself rather than var initialization.

class Singleton {
    // use hashtag which entails that the variable can only be accessed from self scope
    static #instance = null;
    static getInstance() {
        if (this.#instance === null) this.#instance = new Singleton();
        return this.#instance;
    }

    // some class property
    hello = 'world';

    // or initialize the variable in the constructor, depend on your preference
    constructor() {
        // this.hello = 'world';
    }

    /* you can also add parameters on the constructor & getInstance
     * e.g. 
     * static getInstance(param1, param2) {...new Singleton(param1, param2)}
     * constructor(param1, param2) {...}
     */

}




// this is the same code for java and normal way for singleton for class
// just use static so you can get instance


// testing the singleton
var s1,s2;
s1 = Singleton.getInstance();
s2 = Singleton.getInstance();

// you cannot access the property, immediately
if (Singleton.hello === undefined) console.log('getInstance so you can access this');

console.log(s1.hello);
// result: "world"

console.log(s2.hello);
// result: "world"


// set the value of Singleton object
s2.hello = "hi";
    console.log(s1.hello);
    // result: "hi"

    console.log(s2.hello);
    // result: "hi"
// this is just an evidence which means that they are the same even in property level

if (s1 === s2) console.log("S1 & S2 is the same object");
// result: "S1 & S2 is the same object"

// don't use something like `var s1 = new Singleton();`
// this will defeat your purpose of just (1 object), one instance of class
2
  • Singleton Design Pattern Link Oct 5, 2022 at 22:16
  • This is not a Singleton pattern. Nothing stops the consumer to just use new Singleton() instead of Singleton.getInstance() and it will create a new instance of the class
    – Seangle
    Feb 15 at 23:02
1

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.

1

Module pattern: in "more readable style". You can see easily which methods are public and which ones are private

var module = (function(_name){
   /* Local Methods & Values */
   var _local = {
      name : _name,
      flags : {
        init : false
      }
   }

   function init(){
     _local.flags.init = true;
   }

   function imaprivatemethod(){
     alert("Hi, I'm a private method");
   }

   /* Public Methods & variables */

   var $r = {}; // This object will hold all public methods.

   $r.methdo1 = function(){
       console.log("method1 calls it");
   }

   $r.method2 = function(){
      imaprivatemethod(); // Calling private method
   }

   $r.init = function(){
      inti(); // Making 'init' public in case you want to init manually and not automatically
   }

   init(); // Automatically calling the init method

   return $r; // Returning all public methods

})("module");

Now you can use public methods like

module.method2(); // -> I'm calling a private method over a public method alert("Hi, I'm a private method")

http://jsfiddle.net/ncubica/xMwS9/

1

Another way - just insure the class can not new again.

By this, you can use the instanceof op. Also, you can use the prototype chain to inherit the class. It's a regular class, but you can not new it. If you want to get the instance, just use getInstance:

function CA()
{
    if(CA.instance)
    {
        throw new Error('can not new this class');
    }
    else
    {
        CA.instance = this;
    }
}


/**
 * @protected
 * @static
 * @type {CA}
 */
CA.instance = null;

/* @static */
CA.getInstance = function()
{
    return CA.instance;
}


CA.prototype =
/** @lends CA# */
{
    func: function(){console.log('the func');}
}

// Initialise the instance
new CA();

// Test here
var c = CA.getInstance()
c.func();
console.assert(c instanceof CA)

// This will fail
var b = new CA();

If you don't want to expose the instance member, just put it into a closure.

1
function Unicode()
{
  var i = 0, unicode = {}, zero_padding = "0000", max = 9999;

  // Loop through code points
  while (i < max) {
    // Convert decimal to hex value, find the character,
    // and then pad zeroes to the code point
    unicode[String.fromCharCode(parseInt(i, 16))] = ("u" + zero_padding + i).substr(-4);
    i = i + 1;
  }

  // Replace this function with the resulting lookup table
  Unicode = unicode;
}

// Usage
Unicode();

// Lookup
Unicode["%"]; // Returns 0025
1

This is also a singleton:

function Singleton() {
    var i = 0;
    var self = this;

    this.doStuff = function () {
        i = i + 1;
        console.log('do stuff', i);
    };

    Singleton = function () { return self };
    return this;
}

s = Singleton();
s.doStuff();
1

You can do it with decorators like in this example below for TypeScript:

class YourClass {

    @Singleton static singleton() {}

}

function Singleton(target, name, descriptor) {
    var instance;
    descriptor.value = () => {
        if(!instance) instance = new target;
        return instance;
    };
}

Then you use your singleton like this:

var myInstance = YourClass.singleton();

As of this writing, decorators are not readily available in JavaScript engines. You would need to make sure your JavaScript runtime has decorators actually enabled or use compilers like Babel and TypeScript.

Also note that the singleton instance is created "lazy", i.e., it is created only when you use it for the first time.

1
  • TypeScript is not a compiler. It is a programming language. Can you clarify (by editing your answer)? Dec 19, 2020 at 23:09
1

Simple Example

class Settings {

  constructor() {
    if (Settings.instance instanceof Settings) {
      return Settings.instance;
    }
    this.settings = {
      id: Math.floor(Math.random() * 4000),
      name: "background",
    };
    Object.freeze(this.settings);
    Object.freeze(this);
    Settings.instance = this;
  }

}

var o1 = new Settings();
var o2 = new Settings();

console.dir(o1);
console.dir(o2);

if (o1 === o2) {
  console.log("Matched");
}
0

You can return the same instance in every new execution -

function Singleton() {
    // lazy 
    if (Singleton.prototype.myInstance == undefined) {
        Singleton.prototype.myInstance = { description: "I am the instance"};
    }
    return Singleton.prototype.myInstance;
}

a = new Singleton();
b = new Singleton();
console.log(a); // { description: "I am the instance"};
console.log(b); // { description: "I am the instance"};
console.log(a==b); // true
0

I like to use a combination of the singleton pattern with the module pattern, and init-time branching with a Global NS check, wrapped within a closure.

In a case where the environment isn't going to change after the initialization of the singleton, the use of an immediately invoked object-literal to return a module full of utilities that will persist for some duration should be fine.

I'm not passing any dependencies, just invoking the singletons within their own little world - the only goal being to: create a utilities module for event binding / unbinding (device orientation / orientation changes could also work in this case).

window.onload = ( function( _w ) {
    console.log.apply( console, ['it', 'is', 'on'] );
    ( {
        globalNS : function() {
            var nameSpaces = ["utils", "eventUtils"],
                nsLength = nameSpaces.length,
                possibleNS = null;

            outerLoop:
            for ( var i = 0; i < nsLength; i++ ) {
                if ( !window[nameSpaces[i]] ) {
                    window[nameSpaces[i]] = this.utils;
                    break outerLoop;
                };
            };
        },
        utils : {
            addListener : null,
            removeListener : null
        },
        listenerTypes : {
            addEvent : function( el, type, fn ) {
                el.addEventListener( type, fn, false );
            },
            removeEvent : function( el, type, fn ) {
                el.removeEventListener( type, fn, false );
            },
            attachEvent : function( el, type, fn ) {
                el.attachEvent( 'on'+type, fn );
            },
            detatchEvent : function( el, type, fn ) {
                el.detachEvent( 'on'+type, fn );
            }
        },
        buildUtils : function() {
            if ( typeof window.addEventListener === 'function' ) {
                this.utils.addListener = this.listenerTypes.addEvent;
                this.utils.removeListener = this.listenerTypes.removeEvent;
            } else {
                this.utils.attachEvent = this.listenerTypes.attachEvent;
                this.utils.removeListener = this.listenerTypes.detatchEvent;
            };
            this.globalNS();
        },
        init : function() {
            this.buildUtils();
        }
    } ).init();
} ( window ) );
0

You did not say "in the browser". Otherwise, you can use Node.js modules. These are the same for each require call. Basic example:

The contents of foo.js:

const circle = require('./circle.js');
console.log(`The area of a circle of radius 4 is ${circle.area(4)}`);

The contents of circle.js:

const PI = Math.PI;

exports.area = (r) => PI * r * r;

exports.circumference = (r) => 2 * PI * r;

Note that you cannot access circle.PI, as it is not exported.

While this does not work in the browser, it is simple and clean.

0

The main key is to understand the closure's importance behind this. So a property even inside the inner function will be private with the help of the closure.

var Singleton = function () {
    var instance;

    function init() {

       function privateMethod() {
           console.log("private via closure");
       }

       var privateVariable = "Private Property";

       var privateRandomNumber = Math.random(); // This is also private

       return {
           getRandomNumber: function () {  // Access via getter in init call
               return privateRandomNumber;
           }
       };
    };

    return {
        getInstance: function () {

            if (!instance) {
                instance = init();
            }
            return instance;
        }
    };
};
0

Simply use a class expression:

const singleton = new (class {
    hello() { return 'world'; }
})();

console.log(singleton.hello()); //=> world
-1

A singleton in JavaScript is achieved using the module pattern and closures.

Below is the code which is pretty much self-explanatory -

// Singleton example.
var singleton = (function() {
  var instance;

  function init() {
    var privateVar1 = "this is a private variable";
    var privateVar2 = "another var";

    function pubMethod() {
      // Accessing private variables from inside.
      console.log(this.privateVar1);
      console.log(this.privateVar2);
      console.log("inside of a public method");
    };
  }

  function getInstance() {
    if (!instance) {
      instance = init();
    }
    return instance;
  };

  return {
    getInstance: getInstance
  }
})();

var obj1 = singleton.getInstance();
var obj2 = singleton.getInstance();

console.log(obj1 === obj2); // Check for type and value.
-1

So to be fair the simplest answer is usually the best. An object literal is always a single instance. Not much reason for anything more complex other than, perhaps allocation of memory on demand.

That being said, here is a classical implementation of a singleton using ES6.

  • The instance "field" is "private". This really means we hide the instance as a property of the constructor. Somewhere not Constructor.prototype, which will be available to the instance through prototipical inheritance.
  • The constructor is "private". We really are just throwing an error when the caller is not the static getInstance method.

Also of note. It’s important to understand what the keyword this means in different contexts.

In the constructor, this points to the instance created.

In the static getInstance method, this points to the left of the dot, Universe constructor function which, is an object like most things in JS and can hold properties.

class Universe {
    constructor() {
       if (!((new Error).stack.indexOf("getInstance") > -1)) {
           throw new Error("Constructor is private. Use static method getInstance.");  
       } 
       this.constructor.instance = this;
       this.size = 1;
    }
    static getInstance() {
        if (this.instance) {
            return this.instance;
        }
        return new this;
    }
    expand() {
        this.size *= 2;
        return this.size;
    }
}


console.log(Universe.getInstance())
console.log(Universe.getInstance().expand())
console.log(Universe.getInstance())
console.log(new Universe())

3
  • Universe.instance is not exactly private, everybody can access and even overwrite it. It also is inherited by subclasses (although subclassing singletons is a bad idea anyway).
    – Bergi
    Jul 29, 2022 at 16:41
  • right, hence the use of the quotations "private". This is a hacky imitation. It works if you don't go looking into [[prototype]] to find the reference to use. Best use case is an object literal IMO. Jul 29, 2022 at 17:02
  • It's just confusing given there are actual private fields now, as shown in numerous of the other answers
    – Bergi
    Jul 29, 2022 at 17:05
-3
var singleton = (function () {

    var singleton = function(){
        // Do stuff
    }
    var instance = new singleton();
    return function(){
        return instance;
    }
})();

A solution without the getInstance method.

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