const instance = Symbol('instance');

class Parent {

    constructor() {
        const Class = this.constructor;

        if (!Class[instance]) Class[instance] = this;
        return Class[instance];

    set_number (number) {
        this.number = number;

class Child extends Parent {
    test () { }

class Child2 extends Parent {
    test () { }

const child = new Child();
const parent = new Parent();
const child2 = new Child2();


child2.test(); // child2.test is not a function


console.log(child.number); // output : 1
console.log(child2.number); // output : 3 (I want it to be 2.)
console.log(parent.number); // output : 3

I implmented Singleton by assigning instances to the constructor.

I want to be implemented in singleton for each of the three classes Parent, Child, and Child2. But there is a problem, when I instantiate Parent class before other classes.

I tried to come up with good idea, but fail. Is there any way I can solve it?

test URL

  • 1
    singleton class means only one instance (which means only one memory location for number), and that's y (child.number == child2.number) will be true always, you have to declare number as class variable of child to get your required output
    – Vivek
    Jun 6 '18 at 5:28
  • @Vivek Thank you :) Um... (I'm not accustomed to English, I'm hard to explain it in plain English.) I want to implmenet three singleton pattern to each of the classes. For example, if I instantiate Parent class many times, parent.number, parent2.number and parent3.number will be exactly the same, but I don't wanted that to be the same as child.number or child2.number. So I chose the way assigning instacnces to the constrctor.
    – left click
    Jun 6 '18 at 5:55
  • @Vivek I didn't understand to declare number as class variable of child.. You mean declare a number variable to Child and Child2 like a top line in Parent? (I knew that variable has no initiation, so any code is converted by babel.)
    – left click
    Jun 6 '18 at 5:55

Class[instance] looks up instance throughout the prototype (inheritance) chain. So in case of Child2 it starts with Child2, and if there is no property it continues with Parent, then with Object. The result is that you return an instance of Parent when you want create the instance of Child2.

Instead of checking the existence of the property by using a lookup, you should use hasOwnProperty():

if (!Class.hasOwnProperty(instance)) Class[instance] = this;

That means if Child2 itself(!) does not have an instance, then assign one to it.

  • Yes! that's rihgt. Thank you so much. I just read over a converted source code, and I found subClass.__proto__ = superClass;. I thought whether check class name at if statement. But your way of hasOwnProperty() is good. Everything is comfortable. :D
    – left click
    Jun 6 '18 at 6:59

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