javascript - Use of .apply() with 'new' operator. Is this possible? - Stack Overflow

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In JavaScript, I want to create an object instance (via the new operator), but pass an arbitrary number of arguments to the constructor. Is this possible?

What I want to do is something like this (but the code below does not work):

function Something(){
    // init stuff
}
function createSomething(){
    return new Something.apply(null, arguments);
}
var s = createSomething(a,b,c); // 's' is an instance of Something

---

The Answer

From the responses here, it became clear that there's no built-in way to call .apply() with the new operator. However, people suggested a number of really interesting solutions to the problem.

My preferred solution was this one from Matthew Crumley (I've modified it to pass the arguments property):

var createSomething = (function() {
    function F(args) {
        return Something.apply(this, args);
    }
    F.prototype = Something.prototype;

    return function() {
        return new F(arguments);
    }
})();

In JavaScript, I want to create an object instance (via the new operator), but pass an arbitrary number of arguments to the constructor. Is this possible?

What I want to do is something like this (but the code below does not work):

function Something(){
    // init stuff
}
function createSomething(){
    return new Something.apply(null, arguments);
}
var s = createSomething(a,b,c); // 's' is an instance of Something

---

The Answer

From the responses here, it became clear that there's no built-in way to call .apply() with the new operator. However, people suggested a number of really interesting solutions to the problem.

My preferred solution was this one from Matthew Crumley (I've modified it to pass the arguments property):

var createSomething = (function() {
    function F(args) {
        return Something.apply(this, args);
    }
    F.prototype = Something.prototype;

    return function() {
        return new F(arguments);
    }
})();

• javascript
• oop
• class
• inheritance
• constructor

Share Improve this question Follow edited Aug 6, 2017 at 15:18 Prisoner ZERO 14.2k2121 gold badges100100 silver badges145145 bronze badges asked Oct 22, 2009 at 12:15 PremPrem 16.2k1111 gold badges3232 silver badges3535 bronze badges 6

• 2 [Matthew Crumley's solution][1] in CoffeeScript: construct = (constructor, args) -> F = -> constructor.apply this,args F.prototype = constructor.prototype new F createSomething = (()-> F = (args) -> Something.apply this.args F.prototype = Something.prototype return -> new Something arguments )() [1]: stackoverflow.com/questions/1606797/… – Benjie Commented Sep 6, 2011 at 14:28
• 4 I think the takeaway from this thread is that new does two things: (i) sets up the prototype, and (ii) applies that constructor with this set to the said object/prototype combo. You can make that happen either with Object.create(), or by rolling your own take on Object.create() and capturing context with a closure. – Dmitry Minkovsky Commented Aug 11, 2013 at 5:16
• I generalized it by passing the class in as an argument into the outer function. So this is basically a factory-factory. – Killroy Commented May 7, 2014 at 14:23
• The answer by @Pumbaa80 is seems better solution, and also used by ES6 Traceur to polyfill spread operator. =) Also it lil bit faster in Chrome: jsperf.com/dynamic-arguments-to-the-constructor – Sergey Kamardin Commented Jul 29, 2014 at 7:10
• Can someone explain me why this guy couldn't do just like that var s = new Something(a,b,c) ? I can't get it :/ – through.a.haze Commented Nov 24, 2017 at 17:28

 |  Show 1 more comment

36 Answers 36

Sorted by: Reset to default 1 2 Next 388

With ECMAScript5's Function.prototype.bind things get pretty clean:

function newCall(Cls) {
    return new (Function.prototype.bind.apply(Cls, arguments));
    // or even
    // return new (Cls.bind.apply(Cls, arguments));
    // if you know that Cls.bind has not been overwritten
}

It can be used as follows:

var s = newCall(Something, a, b, c);

or even directly:

var s = new (Function.prototype.bind.call(Something, null, a, b, c));

var s = new (Function.prototype.bind.apply(Something, [null, a, b, c]));

This and the eval-based solution are the only ones that always work, even with special constructors like Date:

var date = newCall(Date, 2012, 1);
console.log(date instanceof Date); // true

---

edit

A bit of explanation: We need to run new on a function that takes a limited number of arguments. The bind method allows us to do it like so:

var f = Cls.bind(anything, arg1, arg2, ...);
result = new f();

The anything parameter doesn't matter much, since the new keyword resets f's context. However, it is required for syntactical reasons. Now, for the bind call: We need to pass a variable number of arguments, so this does the trick:

var f = Cls.bind.apply(Cls, [anything, arg1, arg2, ...]);
result = new f();

Let's wrap that in a function. Cls is passed as argument 0, so it's gonna be our anything.

function newCall(Cls /*, arg1, arg2, ... */) {
    var f = Cls.bind.apply(Cls, arguments);
    return new f();
}

Actually, the temporary f variable is not needed at all:

function newCall(Cls /*, arg1, arg2, ... */) {
    return new (Cls.bind.apply(Cls, arguments))();
}

Finally, we should make sure that bind is really what we need. (Cls.bind may have been overwritten). So replace it by Function.prototype.bind, and we get the final result as above.

Here's a generalized solution that can call any constructor (except native constructors that behave differently when called as functions, like String, Number, Date, etc.) with an array of arguments:

function construct(constructor, args) {
    function F() {
        return constructor.apply(this, args);
    }
    F.prototype = constructor.prototype;
    return new F();
}

An object created by calling construct(Class, [1, 2, 3]) would be identical to an object created with new Class(1, 2, 3).

You could also make a more specific version so you don't have to pass the constructor every time. This is also slightly more efficient, since it doesn't need to create a new instance of the inner function every time you call it.

var createSomething = (function() {
    function F(args) {
        return Something.apply(this, args);
    }
    F.prototype = Something.prototype;

    return function(args) {
        return new F(args);
    }
})();

The reason for creating and calling the outer anonymous function like that is to keep function F from polluting the global namespace. It's sometimes called the module pattern.

[UPDATE]

For those who want to use this in TypeScript, since TS gives an error if F returns anything:

function construct(constructor, args) {
    function F() : void {
        constructor.apply(this, args);
    }
    F.prototype = constructor.prototype;
    return new F();
}

If your environment supports ECMA Script 2015's spread operator (...), you can simply use it like this

function Something() {
    // init stuff
}

function createSomething() {
    return new Something(...arguments);
}

Note: Now that the ECMA Script 2015's specifications are published and most JavaScript engines are actively implementing it, this would be the preferred way of doing this.

You can check the Spread operator's support in few of the major environments, here.

In ES6, Reflect.construct() is quite convenient:

Reflect.construct(F, args)

Suppose you've got an Items constructor which slurps up all the arguments you throw at it:

function Items () {
    this.elems = [].slice.call(arguments);
}

Items.prototype.sum = function () {
    return this.elems.reduce(function (sum, x) { return sum + x }, 0);
};

You can create an instance with Object.create() and then .apply() with that instance:

var items = Object.create(Items.prototype);
Items.apply(items, [ 1, 2, 3, 4 ]);

console.log(items.sum());

Which when run prints 10 since 1 + 2 + 3 + 4 == 10:

$ node t.js
10

@Matthew I think it's better to fix the constructor property also.

// Invoke new operator with arbitrary arguments
// Holy Grail pattern
function invoke(constructor, args) {
    var f;
    function F() {
        // constructor returns **this**
        return constructor.apply(this, args);
    }
    F.prototype = constructor.prototype;
    f = new F();
    f.constructor = constructor;
    return f;
}

You could move the init stuff out into a separate method of Something's prototype:

function Something() {
    // Do nothing
}

Something.prototype.init = function() {
    // Do init stuff
};

function createSomething() {
    var s = new Something();
    s.init.apply(s, arguments);
    return s;
}

var s = createSomething(a,b,c); // 's' is an instance of Something

An improved version of @Matthew's answer. This form has the slight performance benefits obtained by storing the temp class in a closure, as well as the flexibility of having one function able to be used to create any class

var applyCtor = function(){
    var tempCtor = function() {};
    return function(ctor, args){
        tempCtor.prototype = ctor.prototype;
        var instance = new tempCtor();
        ctor.prototype.constructor.apply(instance,args);
        return instance;
    }
}();

This would be used by calling applyCtor(class, [arg1, arg2, argn]);

This answer is a little late, but figured anyone who sees this might be able to use it. There is a way to return a new object using apply. Though it requires one little change to your object declaration.

function testNew() {
    if (!( this instanceof arguments.callee ))
        return arguments.callee.apply( new arguments.callee(), arguments );
    this.arg = Array.prototype.slice.call( arguments );
    return this;
}

testNew.prototype.addThem = function() {
    var newVal = 0,
        i = 0;
    for ( ; i < this.arg.length; i++ ) {
        newVal += this.arg[i];
    }
    return newVal;
}

testNew( 4, 8 ) === { arg : [ 4, 8 ] };
testNew( 1, 2, 3, 4, 5 ).addThem() === 15;

For the first if statement to work in testNew you have to return this; at the bottom of the function. So as an example with your code:

function Something() {
    // init stuff
    return this;
}
function createSomething() {
    return Something.apply( new Something(), arguments );
}
var s = createSomething( a, b, c );

Update: I've changed my first example to sum any number of arguments, instead of just two.

I just came across this problem, and I solved it like this:

function instantiate(ctor) {
    switch (arguments.length) {
        case 1: return new ctor();
        case 2: return new ctor(arguments[1]);
        case 3: return new ctor(arguments[1], arguments[2]);
        case 4: return new ctor(arguments[1], arguments[2], arguments[3]);
        //...
        default: throw new Error('instantiate: too many parameters');
    }
}

function Thing(a, b, c) {
    console.log(a);
    console.log(b);
    console.log(c);
}

var thing = instantiate(Thing, 'abc', 123, {x:5});

Yeah, it's a bit ugly, but it solves the problem, and it's dead simple.

This works!

var cls = Array; //eval('Array'); dynamically
var data = [2];
new cls(...data);

if you're interested in an eval-based solution

function createSomething() {
    var q = [];
    for(var i = 0; i < arguments.length; i++)
        q.push("arguments[" + i + "]");
    return eval("new Something(" + q.join(",") + ")");
}

See also how CoffeeScript does it.

s = new Something([a,b,c]...)

becomes:

var s;
s = (function(func, args, ctor) {
  ctor.prototype = func.prototype;
  var child = new ctor, result = func.apply(child, args);
  return Object(result) === result ? result : child;
})(Something, [a, b, c], function(){});

This constructor approach works both with and without the new keyword:

function Something(foo, bar){
  if (!(this instanceof Something)){
    var obj = Object.create(Something.prototype);
    return Something.apply(obj, arguments);
  }
  this.foo = foo;
  this.bar = bar;
  return this;
}

It assumes support for Object.create but you could always polyfill that if you're supporting older browsers. See the support table on MDN here.

Here's a JSBin to see it in action with console output.

Solution without ES6 or polyfills:

var obj = _new(Demo).apply(["X", "Y", "Z"]);


function _new(constr)
{
    function createNamedFunction(name)
    {
        return (new Function("return function " + name + "() { };"))();
    }

    var func = createNamedFunction(constr.name);
    func.prototype = constr.prototype;
    var self = new func();

    return { apply: function(args) {
        constr.apply(self, args);
        return self;
    } };
}

function Demo()
{
    for(var index in arguments)
    {
        this['arg' + (parseInt(index) + 1)] = arguments[index];
    }
}
Demo.prototype.tagged = true;


console.log(obj);
console.log(obj.tagged);

output

Demo {arg1: "X", arg2: "Y", arg3: "Z"}


... or "shorter" way:

var func = new Function("return function " + Demo.name + "() { };")();
func.prototype = Demo.prototype;
var obj = new func();

Demo.apply(obj, ["X", "Y", "Z"]);

edit:
I think this might be a good solution:

this.forConstructor = function(constr)
{
    return { apply: function(args)
    {
        let name = constr.name.replace('-', '_');

        let func = (new Function('args', name + '_', " return function " + name + "() { " + name + "_.apply(this, args); }"))(args, constr);
        func.constructor = constr;
        func.prototype = constr.prototype;

        return new func(args);
    }};
}

You can't call a constructor with a variable number of arguments like you want with the new operator.

What you can do is change the constructor slightly. Instead of:

function Something() {
    // deal with the "arguments" array
}
var obj = new Something.apply(null, [0, 0]);  // doesn't work!

Do this instead:

function Something(args) {
    // shorter, but will substitute a default if args.x is 0, false, "" etc.
    this.x = args.x || SOME_DEFAULT_VALUE;

    // longer, but will only put in a default if args.x is not supplied
    this.x = (args.x !== undefined) ? args.x : SOME_DEFAULT_VALUE;
}
var obj = new Something({x: 0, y: 0});

Or if you must use an array:

function Something(args) {
    var x = args[0];
    var y = args[1];
}
var obj = new Something([0, 0]);

Matthew Crumley's solutions in CoffeeScript:

construct = (constructor, args) ->
    F = -> constructor.apply this, args
    F.prototype = constructor.prototype
    new F

or

createSomething = (->
    F = (args) -> Something.apply this, args
    F.prototype = Something.prototype
    return -> new Something arguments
)()

function createSomething() {
    var args = Array.prototype.concat.apply([null], arguments);
    return new (Function.prototype.bind.apply(Something, args));
}

If your target browser doesn't support ECMAScript 5 Function.prototype.bind, the code won't work. It is not very likely though, see compatibilty table.

modified @Matthew answer. Here I can pass any number of parameters to function as usual (not array). Also 'Something' is not hardcoded into:

function createObject( constr ) {   
  var args =  arguments;
  var wrapper =  function() {  
    return constr.apply( this, Array.prototype.slice.call(args, 1) );
  }

  wrapper.prototype =  constr.prototype;
  return  new wrapper();
}


function Something() {
    // init stuff
};

var obj1 =     createObject( Something, 1, 2, 3 );
var same =     new Something( 1, 2, 3 );

This one-liner should do it:

new (Function.prototype.bind.apply(Something, [null].concat(arguments)));

While the other approaches are workable, they're unduly complex. In Clojure you generally create a function that instantiates types/records and use that function as the mechanism for instantiation. Translating this to JavaScript:

function Person(surname, name){
  this.surname = surname;
  this.name = name;
}

function person(surname, name){ 
  return new Person(surname, name);
}

By taking this approach you avoid the use of new except as described above. And this function, of course, has no issues working with apply or any number of other functional programming features.

var doe  = _.partial(person, "Doe");
var john = doe("John");
var jane = doe("Jane");

By using this approach, all of your type constructors (e.g. Person) are vanilla, do-nothing constructors. You just pass in arguments and assign them to properties of the same name. The hairy details go in the constructor function (e.g. person).

It is of little bother having to create these extra constructor functions since they are a good practice anyhow. They can be convenient since they allow you to potentially have several constructor functions with different nuances.

since ES6 this is possible through the Spread operator, see https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/Spread_operator#Apply_for_new

This answer was already, sort of given in comment https://stackoverflow.com/a/42027742/7049810, but seems to have been missed by most

It's also intresting to see how the issue of reusing the temporary F() constructor, was addressed by using arguments.callee, aka the creator/factory function itself: http://www.dhtmlkitchen.com/?category=/JavaScript/&date=2008/05/11/&entry=Decorator-Factory-Aspect

Any function (even a constructor) can take a variable number of arguments. Each function has an "arguments" variable which can be cast to an array with [].slice.call(arguments).

function Something(){
  this.options  = [].slice.call(arguments);

  this.toString = function (){
    return this.options.toString();
  };
}

var s = new Something(1, 2, 3, 4);
console.log( 's.options === "1,2,3,4":', (s.options == '1,2,3,4') );

var z = new Something(9, 10, 11);
console.log( 'z.options === "9,10,11":', (z.options == '9,10,11') );

The above tests produce the following output:

s.options === "1,2,3,4": true
z.options === "9,10,11": true

Here is my version of createSomething:

function createSomething() {
    var obj = {};
    obj = Something.apply(obj, arguments) || obj;
    obj.__proto__ = Something.prototype; //Object.setPrototypeOf(obj, Something.prototype); 
    return o;
}

Based on that, I tried to simulate the new keyword of JavaScript:

//JavaScript 'new' keyword simulation
function new2() {
    var obj = {}, args = Array.prototype.slice.call(arguments), fn = args.shift();
    obj = fn.apply(obj, args) || obj;
    Object.setPrototypeOf(obj, fn.prototype); //or: obj.__proto__ = fn.prototype;
    return obj;
}

I tested it and it seems that it works perfectly fine for all scenarios. It also works on native constructors like Date. Here are some tests:

//test
new2(Something);
new2(Something, 1, 2);

new2(Date);         //"Tue May 13 2014 01:01:09 GMT-0700" == new Date()
new2(Array);        //[]                                  == new Array()
new2(Array, 3);     //[undefined × 3]                     == new Array(3)
new2(Object);       //Object {}                           == new Object()
new2(Object, 2);    //Number {}                           == new Object(2)
new2(Object, "s");  //String {0: "s", length: 1}          == new Object("s")
new2(Object, true); //Boolean {}                          == new Object(true)

Yes we can, javascript is more of prototype inheritance in nature.

function Actor(name, age){
  this.name = name;
  this.age = age;
}

Actor.prototype.name = "unknown";
Actor.prototype.age = "unknown";

Actor.prototype.getName = function() {
    return this.name;
};

Actor.prototype.getAge = function() {
    return this.age;
};

when we create an object with "new" then our created object INHERITS getAge(), But if we used apply(...) or call(...) to call Actor, then we are passing an object for "this" but the object we pass WON'T inherit from Actor.prototype

unless, we directly pass apply or call Actor.prototype but then.... "this" would point to "Actor.prototype" and this.name would write to: Actor.prototype.name. Thus affecting all other objects created with Actor...since we overwrite the prototype rather than the instance

var rajini = new Actor('Rajinikanth', 31);
console.log(rajini);
console.log(rajini.getName());
console.log(rajini.getAge());

var kamal = new Actor('kamal', 18);
console.log(kamal);
console.log(kamal.getName());
console.log(kamal.getAge());

Let's try with apply

var vijay = Actor.apply(null, ["pandaram", 33]);
if (vijay === undefined) {
    console.log("Actor(....) didn't return anything 
           since we didn't call it with new");
}

var ajith = {};
Actor.apply(ajith, ['ajith', 25]);
console.log(ajith); //Object {name: "ajith", age: 25}
try {
    ajith.getName();
} catch (E) {
    console.log("Error since we didn't inherit ajith.prototype");
}
console.log(Actor.prototype.age); //Unknown
console.log(Actor.prototype.name); //Unknown

By passing Actor.prototype to Actor.call() as the first argument, when the Actor() function is ran, it executes this.name=name, Since "this" will point to Actor.prototype, this.name=name; means Actor.prototype.name=name;

var simbhu = Actor.apply(Actor.prototype, ['simbhu', 28]);
if (simbhu === undefined) {
    console.log("Still undefined since the function didn't return anything.");
}
console.log(Actor.prototype.age); //simbhu
console.log(Actor.prototype.name); //28

var copy = Actor.prototype;
var dhanush = Actor.apply(copy, ["dhanush", 11]);
console.log(dhanush);
console.log("But now we've corrupted Parent.prototype in order to inherit");
console.log(Actor.prototype.age); //11
console.log(Actor.prototype.name); //dhanush

Coming back to orginal question how to use new operator with apply, here is my take....

Function.prototype.new = function(){
    var constructor = this;
    function fn() {return constructor.apply(this, args)}
    var args = Array.prototype.slice.call(arguments);
    fn.prototype = this.prototype;
    return new fn
};

var thalaivar = Actor.new.apply(Parent, ["Thalaivar", 30]);
console.log(thalaivar);

Actually the simplest method is:

function Something (a, b) {
  this.a = a;
  this.b = b;
}
function createSomething(){
    return Something;
}
s = new (createSomething())(1, 2); 
// s == Something {a: 1, b: 2}

A revised solution from @jordancpaul's answer.

var applyCtor = function(ctor, args)
{
    var instance = new ctor();
    ctor.prototype.constructor.apply(instance, args);
    return instance;
}; 

Make an anonymous prototype and apply the Something prototype to it using the arguments and then create a new instance of that anonymous prototype. The one disadavantage of this is it will not pass the s instanceof Something check, though it is identical, it is basically an instance of a clone.

function Something(){
    // init stuff
}
function createSomething(){
    return new (function(){Something.apply(this, arguments)});
}
var s = createSomething(a,b,c); // 's' is an instance of Something

function FooFactory() {
    var prototype, F = function(){};

    function Foo() {
        var args = Array.prototype.slice.call(arguments),
            i;     
        for (i = 0, this.args = {}; i < args.length; i +=1) {
            this.args[i] = args[i];
        }
        this.bar = 'baz';
        this.print();

        return this;
    }

    prototype = Foo.prototype;
    prototype.print = function () {
        console.log(this.bar);
    };

    F.prototype = prototype;

    return Foo.apply(new F(), Array.prototype.slice.call(arguments));
}

var foo = FooFactory('a', 'b', 'c', 'd', {}, function (){});
console.log('foo:',foo);
foo.print();

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