324

I want to implement constants in a class, because that's where it makes sense to locate them in the code.

So far, I have been implementing the following workaround with static methods:

class MyClass {
    static constant1() { return 33; }
    static constant2() { return 2; }
    // ...
}

I know there is a possibility to fiddle with prototypes, but many recommend against this.

Is there a better way to implement constants in ES6 classes?

  • 7
    Personally I just use uppercase VARNAMES, and tell myself to not touch them ;) – twicejr Jul 29 '16 at 12:18
  • 3
    @twicejr I think this is not the same, for static variables can be accessed without first instantiating an object of that class? – Lucas Morgan Feb 7 '17 at 20:18

15 Answers 15

396

Here's a few things you could do:

Export a const from the module. Depending on your use case, you could just:

export const constant1 = 33;

And import that from the module where necessary. Or, building on your static method idea, you could declare a static get accessor:

const constant1 = 33,
      constant2 = 2;
class Example {

  static get constant1() {
    return constant1;
  }

  static get constant2() {
    return constant2;
  }
}

That way, you won't need parenthesis:

const one = Example.constant1;

Babel REPL Example

Then, as you say, since a class is just syntactic sugar for a function you can just add a non-writable property like so:

class Example {
}
Object.defineProperty(Example, 'constant1', {
    value: 33,
    writable : false,
    enumerable : true,
    configurable : false
});
Example.constant1; // 33
Example.constant1 = 15; // TypeError

It may be nice if we could just do something like:

class Example {
    static const constant1 = 33;
}

But unfortunately this class property syntax is only in an ES7 proposal, and even then it won't allow for adding const to the property.

| improve this answer | |
  • is there any confirmation that static properties get computed once for things like this, or is it safer to use IIFE and add the property manually in the IIFE to avoid repeated construction of return values. I'm worried that if the result of the getter is really heavy, like a 100000 entry JSObject, then the poor getter will have to construct it each time the getter is called. Its easy to test by performance.now/date diff, but it might be implemented differently, its certaintly easier to implement getters as literal evaluation rather than advanced decisions whether its constant or not. – Dmitry Aug 16 '17 at 13:35
  • 4
    while the above cleverly adds a constant property to a class, the actual value for the constant is "outside" the class definition "{}", which really violates one of the definitions of encapsulation. I guess it is sufficient to just define a constant property "inside" the class and there is no need for the get in this case. – NoChance Oct 5 '17 at 8:43
  • 1
    @NoChance Good points. That was just illustrative. There's no reason the getter method couldn't fully encapsulate the value if required. – CodingIntrigue Oct 5 '17 at 8:47
  • Looking forward to use the ES7 proposal because it looks to me more natural and equivalent to the the majority of OO languages. – Sangimed Apr 13 '18 at 8:50
  • the super keyword is a little bit more than syntactic sugar – Rivenfall Mar 25 '19 at 12:55
36
class Whatever {
    static get MyConst() { return 10; }
}

let a = Whatever.MyConst;

Seems to work for me.

| improve this answer | |
  • is this accessible inside the class in a normal method? – PirateApp Apr 21 '19 at 4:52
  • 3
    @PirateApp you can access it anywhere as a static method, even from inside an instance of the class. However, since it's static you can't use this.MyConst from inside a Whatever instance, you always have to write it like this: Whatever.MyConst – Chunky Chunk Apr 28 '19 at 16:55
  • or this.constructor.MyConst – Martijn Scheffer Oct 13 at 17:38
21

I'm using babel and the following syntax is working for me:

class MyClass {
    static constant1 = 33;
    static constant2 = {
       case1: 1,
       case2: 2,
    };
    // ...
}

MyClass.constant1 === 33
MyClass.constant2.case1 === 1

Please consider that you need the preset "stage-0".
To install it:

npm install --save-dev babel-preset-stage-0

// in .babelrc
{
    "presets": ["stage-0"]
}

Update:

currently use stage-3

| improve this answer | |
  • 22
    Problem is that constant is reassignable. Op doesn't want that – CodingIntrigue Aug 27 '16 at 20:29
  • 3
    FYI, this is now in babel stage-2 – bmaupin Aug 6 '17 at 19:48
  • 4
    those aren't constants – Dave L. Aug 15 '17 at 19:09
  • 1
    @CodingIntrigue Would calling Object.freeze() on the class fix that? – Antimony Sep 12 '17 at 2:07
  • 1
    @Antimony I haven't tested that but I would think so. The problem is it would apply to all properties of the class. Non-static too. – CodingIntrigue Sep 12 '17 at 5:51
14

In this document it states:

There is (intentionally) no direct declarative way to define either prototype data properties (other than methods) class properties, or instance property

This means that it is intentionally like this.

Maybe you can define a variable in the constructor?

constructor(){
    this.key = value
}
| improve this answer | |
  • 2
    Yes, this can work. Also, I want to mention, that constructor invokes when instance created and for each instance this.key will be not the same. Static method and properties allow us to use them directly from class, without creating instance. There are good and weak points of static methods / properties. – Kirill Gusyatin Feb 23 '17 at 14:08
  • 1
    Constants should be immutable. Assigning to properties on the object during construction will yield properties that can be modified. – philraj Jun 13 '18 at 19:10
12

It is also possible to use Object.freeze on you class(es6)/constructor function(es5) object to make it immutable:

class MyConstants {}
MyConstants.staticValue = 3;
MyConstants.staticMethod = function() {
  return 4;
}
Object.freeze(MyConstants);
// after the freeze, any attempts of altering the MyConstants class will have no result
// (either trying to alter, add or delete a property)
MyConstants.staticValue === 3; // true
MyConstants.staticValue = 55; // will have no effect
MyConstants.staticValue === 3; // true

MyConstants.otherStaticValue = "other" // will have no effect
MyConstants.otherStaticValue === undefined // true

delete MyConstants.staticMethod // false
typeof(MyConstants.staticMethod) === "function" // true

Trying to alter the class will give you a soft-fail (won't throw any errors, it will simply have no effect).

| improve this answer | |
  • 3
    That soft-fail is pretty scary for those of us coming from other languages - just adapting to the idea that the tools don't help us much in finding errors, now even the runtime won't help. (Otherwise I like your solution.) – Tom Aug 2 '16 at 21:01
  • 1
    I love Object.freeze() for enforcing immutability, and have been using it a lot lately. Just don't forget to apply it recursively! – jeffwtribble Mar 6 '17 at 21:47
8

Maybe just put all your constants in a frozen object?

class MyClass {

    constructor() {
        this.constants = Object.freeze({
            constant1: 33,
            constant2: 2,
        });
    }

    static get constant1() {
        return this.constants.constant1;
    }

    doThisAndThat() {
        //...
        let value = this.constants.constant2;
        //...
    }
}
| improve this answer | |
  • 1
    The static function can't use the variable 'this'. – PokerFace Jul 24 '19 at 9:44
4

Like https://stackoverflow.com/users/2784136/rodrigo-botti said, I think you're looking for Object.freeze(). Here's an example of a class with immutable statics:

class User {
  constructor(username, age) {
    if (age < User.minimumAge) {
      throw new Error('You are too young to be here!');
    }
    this.username = username;
    this.age = age;
    this.state = 'active';
  }
}

User.minimumAge = 16;
User.validStates = ['active', 'inactive', 'archived'];

deepFreeze(User);

function deepFreeze(value) {
  if (typeof value === 'object' && value !== null) {
    Object.freeze(value);
    Object.getOwnPropertyNames(value).forEach(property => {
      deepFreeze(value[property]);
    });
  }
  return value;
}
| improve this answer | |
3

Here is one more way you can do

/*
one more way of declaring constants in a class,
Note - the constants have to be declared after the class is defined
*/
class Auto{
   //other methods
}
Auto.CONSTANT1 = "const1";
Auto.CONSTANT2 = "const2";

console.log(Auto.CONSTANT1)
console.log(Auto.CONSTANT2);

Note - the Order is important, you cannot have the constants above

Usage

console.log(Auto.CONSTANT1);
| improve this answer | |
  • 5
    They aren't immutable though – John Harding Sep 14 '17 at 8:31
2

You can create a way to define static constants on a class using an odd feature of ES6 classes. Since statics are inherited by their subclasses, you can do the following:

const withConsts = (map, BaseClass = Object) => {
  class ConstClass extends BaseClass { }
  Object.keys(map).forEach(key => {
    Object.defineProperty(ConstClass, key, {
      value: map[key],
      writable : false,
      enumerable : true,
      configurable : false
    });
  });
  return ConstClass;
};

class MyClass extends withConsts({ MY_CONST: 'this is defined' }) {
  foo() {
    console.log(MyClass.MY_CONST);
  }
}
| improve this answer | |
2

You can make the "constants" read-only (immutable) by freezing the class. e.g.

class Foo {
    static BAR = "bat"; //public static read-only
}

Object.freeze(Foo); 

/*
Uncaught TypeError: Cannot assign to read only property 'BAR' of function 'class Foo {
    static BAR = "bat"; //public static read-only
}'
*/
Foo.BAR = "wut";
| improve this answer | |
1

I did this.

class Circle
{
    constuctor(radius)
    {
        this.radius = radius;
    }
    static get PI()
    {
        return 3.14159;
    }
}

The value of PI is protected from being changed since it is a value being returned from a function. You can access it via Circle.PI. Any attempt to assign to it is simply dropped on the floor in a manner similar to an attempt to assign to a string character via [].

| improve this answer | |
0

If you are comfortable mixing and matching between function and class syntax you can declare constants after the class (the constants are 'lifted') . Note that Visual Studio Code will struggle to auto-format the mixed syntax, (though it works).

class MyClass {
    // ...

}
MyClass.prototype.consts = { 
    constant1:  33,
    constant2: 32
};
mc = new MyClass();
console.log(mc.consts.constant2);    

| improve this answer | |
0

You can define it like this:

class Foo {
  static MyConst = 200;

  myFunc() {
    const doubleConst = Foo.MyConst * 2;
  }
}
| improve this answer | |
0

You could use import * as syntax. Although not a class, they are real const variables.

Constants.js

export const factor = 3;
export const pi = 3.141592;

index.js

import * as Constants from 'Constants.js'
console.log( Constants.factor );
| improve this answer | |
0

Adding up to other answers you need to export the class to use in a different class. This is a typescript version of it.

//Constants.tsx
const DEBUG: boolean = true;

export class Constants {
  static get DEBUG(): boolean {
    return DEBUG;
  }
}

//Anotherclass.tsx
import { Constants } from "Constants";

if (Constants.DEBUG) {
  console.log("debug mode")
}

| improve this answer | |
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