923

Is there any way to get something like the following to work in JavaScript?

var foo = {
    a: 5,
    b: 6,
    c: this.a + this.b  // Doesn't work
};

In the current form, this code obviously throws a reference error since this doesn't refer to foo. But is there any way to have values in an object literal's properties depend on other properties declared earlier?

0

32 Answers 32

1027

Well, the only thing that I can tell you about are getter:

var foo = {
  a: 5,
  b: 6,
  get c() {
    return this.a + this.b;
  }
}

console.log(foo.c) // 11

This is a syntactic extension introduced by the ECMAScript 5th Edition Specification, the syntax is supported by most modern browsers (including IE9).

13
  • 38
    Very helpful answer. More info on 'get' can be found here: developer.mozilla.org/en-US/docs/JavaScript/Reference/Operators/…
    – jake
    Feb 2, 2013 at 16:21
  • 70
    Beware that with this solution if the values of foo.a or foo.b are changed then the value of foo.c will also change in synchronism. This may or may not be what is required.
    – HBP
    May 2, 2015 at 6:21
  • 4
    @HBP That would be the exact same thing as what would happen in the question, so it seems to me like that is exactly what the expected result had to be.
    – Randy
    Mar 11, 2016 at 14:28
  • 17
    Note that this binds to the deepest nested object. E.g.: ... x: { get c () { /*this is x, not foo*/ } } ... Apr 18, 2018 at 20:22
  • 3
    To complete my above statement, since foo is beeing declared as a variable and c will only be evaluated at the time it is invoked, using foo inside c will work, as opposed to this (be careful though) Apr 19, 2018 at 20:11
353

You could do something like:

var foo = {
   a: 5,
   b: 6,
   init: function() {
       this.c = this.a + this.b;
       return this;
   }
}.init();

This would be some kind of one time initialization of the object.

Note that you are actually assigning the return value of init() to foo, therefore you have to return this.

15
  • 112
    you can also delete this.init before return this so that foo is not poluted
    – Billy Moon
    Jul 26, 2011 at 1:12
  • 17
    @BillyMoon: Yes indeed, although doing so impacts performance of all subsequent property accesses on that object, on many engines (V8, for instance). May 19, 2014 at 7:30
  • 9
    @MuhammadUmer: Not sure how ES6 classes are relevant to the question. Jun 1, 2015 at 3:02
  • 9
    @MuhammadUmer: classes are just syntactic sugar for constructor functions, so they don't really provide anything new. Either way, the main focus of this question are object literals. Jun 1, 2015 at 3:45
  • 3
    @akantoword: Great :) since object literals are a single expression, the init() call was directly appended the literal to keep it a single expression. But of course you can call the function separately of you want to. Jul 26, 2016 at 19:51
228

The obvious, simple answer is missing, so for completeness:

But is there any way to have values in an object literal's properties depend on other properties declared earlier?

No. All of the solutions here defer it until after the object is created (in various ways) and then assign the third property. The simplest way is to just do this:

var foo = {
    a: 5,
    b: 6
};
foo.c = foo.a + foo.b;

All others are just more indirect ways to do the same thing. (Felix's is particularly clever, but requires creating and destroying a temporary function, adding complexity; and either leaves an extra property on the object or [if you delete that property] impacts the performance of subsequent property accesses on that object.)

If you need it to all be within one expression, you can do that without the temporary property:

var foo = function(o) {
    o.c = o.a + o.b;
    return o;
}({a: 5, b: 6});

Or of course, if you need to do this more than once:

function buildFoo(a, b) {
    var o = {a: a, b: b};
    o.c = o.a + o.b;
    return o;
}

then where you need to use it:

var foo = buildFoo(5, 6);
4
  • For my own sanity, I'm trying to find some kinda of official documentation that says basically the same thing - that an object's this is only available to methods of said object, and no other kinds of properties. Any idea where I could find that? Thanks! May 5, 2018 at 1:27
  • 1
    @DavidKennell: Doesn't get more official than the specification. :-) You'd probably start here and follow it through. It's fairly awkard language, but basically you'll see in the various subclauses of Property Definition Evaluation that the object isn't available to the operations determining the values of property initializers. May 5, 2018 at 9:24
  • I can't see the browserscope results here, but this is no more the case right? In my environment, v8: delete is 10% faster and gecko : delete is just 1% slower.
    – TheMaster
    May 7, 2020 at 15:32
  • 1
    @TheMaster - Yeah, I don't think BrowserScope is really a thing anymore. Looks like deleting isn't as bad as it used to be, at least not in V8 (Chrome, etc.) or SpiderMonkey. Still slower, but only a tiny bit, and these things are freaky fast these days. May 7, 2020 at 16:02
72

Simply instantiate an anonymous function:

var foo = new function () {
    this.a = 5;
    this.b = 6;
    this.c = this.a + this.b;
};
7
  • 1
    @Bergi, why? Because someone might instantiate another of the same object from it? It's not like they can't just clone an object literal. It's no different than passing an argument like new Point(x, y) except that the function isn't named for reuse.
    – zzzzBov
    Aug 1, 2015 at 16:54
  • 1
    @zzzzBov: Of course they can just clone the object, but compared to an IEFE solution (like in TJCrowder's answer) your solution leaks the constructor function and creates a superfluous prototype object.
    – Bergi
    Aug 1, 2015 at 18:16
  • 9
    @zzzzBov: Just use var foo = function() { this.…; return this; }.call({}); which is syntactically not much different but semantically sane.
    – Bergi
    Aug 1, 2015 at 19:13
  • 1
    @Bergi, if you feel it's that important, why not add your own answer to the mix?
    – zzzzBov
    Aug 1, 2015 at 19:22
  • 3
    You've got this. I indeed did not notice the new keyword.
    – Randy
    Mar 11, 2016 at 14:58
42

Now in ES6 you can create lazy cached properties. On first use the property evaluates once to become a normal static property. Result: The second time the math function overhead is skipped.

The magic is in the getter.

const foo = {
    a: 5,
    b: 6,
    get c() {
        delete this.c;
        return this.c = this.a + this.b
    }
};

In the arrow getter this picks up the surrounding lexical scope.

foo     // {a: 5, b: 6}
foo.c   // 11
foo     // {a: 5, b: 6 , c: 11}  
5
  • 1
    es5 also has properties you just need to use Object.defineProperty(foo, 'c', {get:function() {...}}) to define them. This is easily done in an unobtrusive way in a factory such as this one. Of course if you can use the get sugar it is more readable but the capability has been there. Apr 18, 2017 at 1:56
  • 1
    this works perfectly, but may I know why are you deleting this.c when it doesn't even exists ? I tried without writing delete this.c but it didn't work
    – Ahsan Alii
    Mar 30, 2021 at 12:07
  • 2
    I was scratching my head about the delete as well. I think what it's doing is removing the get c property from the object and overwriting it with a standard property. I think this way it will only compute once and then foo.c will not update its values if a or b change later, but this also only works/caches/computes upon calling foo.c.
    – CTS_AE
    Jan 27, 2022 at 17:34
  • Yes this is what is called lazy evaluation. More here: en.wikipedia.org/wiki/Lazy_evaluation
    – voscausa
    Jan 28, 2022 at 0:07
  • The point of delete this.c is to remove the getter and then proceed to replace it with a single numeric value. Doing it this way avoids needing to execute the getter every time foo.c is used. The return statement both creates the replacement property foo.c and returns its value. It would be possible to use get c() { return this.a + this + b } but that would be re-evaluated every time foo.c is used. Sep 29, 2022 at 11:34
27

Some closure should deal with this;

var foo = function() {
    var a = 5;
    var b = 6;
    var c = a + b;

    return {
        a: a,
        b: b,
        c: c
    }
}();

All the variables declared within foo are private to foo, as you would expect with any function declaration and because they are all in scope, they all have access to each other without needing to refer to this, just as you would expect with a function. The difference is that this function returns an object that exposes the private variables and assigns that object to foo. In the end, you return just the interface you want to expose as an object with the return {} statement.

The function is then executed at the end with the () which causes the entire foo object to be evaluated, all the variables within instantiated and the return object added as properties of foo().

1
  • 17
    It is confusing and misleading to call this a "closure". Although opinions differ on the precise meaning returning an ojbect value from a function does not constitute a closure in anyone's book.
    – user663031
    Sep 6, 2014 at 17:17
18

You could do it like this

var a, b
var foo = {
    a: a = 5,
    b: b = 6,
    c: a + b
}

That method has proven useful to me when I had to refer to the object that a function was originally declared on. The following is a minimal example of how I used it:

function createMyObject() {
    var count = 0, self
    return {
        a: self = {
            log: function() {
                console.log(count++)
                return self
            }
        }
    }
}

By defining self as the object that contains the print function you allow the function to refer to that object. This means you will not have to 'bind' the print function to an object if you need to pass it somewhere else.

If you would, instead, use this as illustrated below

function createMyObject() {
    var count = 0
    return {
        a: {
            log: function() {
                console.log(count++)
                return this
            }
        }
    }
}

Then the following code will log 0, 1, 2 and then give an error

var o = createMyObject()
var log = o.a.log
o.a.log().log() // this refers to the o.a object so the chaining works
log().log() // this refers to the window object so the chaining fails!

By using the self method you guarantee that print will always return the same object regardless of the context in which the function is ran. The code above will run just fine and log 0, 1, 2 and 3 when using the self version of createMyObject().

0
12

For completion, in ES6 we've got classes (supported at the time of writing this only by latest browsers, but available in Babel, TypeScript and other transpilers)

class Foo {
  constructor(){
    this.a = 5;
    this.b = 6;
    this.c = this.a + this.b;
  }  
}

const foo = new Foo();
8

just for the sake of thought - place object's properties out of a timeline:

var foo = {
    a: function(){return 5}(),
    b: function(){return 6}(),
    c: function(){return this.a + this.b}
}

console.log(foo.c())

there are better answers above too. This is how I modified example code you questioned with.

UPDATE:

var foo = {
    get a(){return 5},
    get b(){return 6},
    get c(){return this.a + this.b}
}
// console.log(foo.c);
2
  • 2
    In ES6 you can make this general approach much more elegant: var foo = { get a(){return 5}, get b(){return 6}, get c(){return this.a + this.b} } so now you can just do foo.c instead of foo.c() :) (Feel free to paste that into your answer so formatting is better!)
    – user993683
    Dec 6, 2016 at 5:42
  • Note that this recomputes foo.c every time it's used. This may or may not be what you're looking for. Sep 29, 2022 at 11:40
7

You can do it using the module pattern. Just like:

var foo = function() {
  var that = {};

  that.a = 7;
  that.b = 6;

  that.c = function() {
    return that.a + that.b;
  }

  return that;
};
var fooObject = foo();
fooObject.c(); //13

With this pattern you can instantiate several foo objects according to your need.

http://jsfiddle.net/jPNxY/1/

2
  • 2
    This isn't an example of the module pattern, just a function. If the last line of the foo definition was }();, it would self execute and return an object, not a function. Also, foo.c is a function, so writing to it clobbers that function and the next invocation via fooObject.c() will fail. Maybe this fiddle is closer to what you're going for (it's also a singleton, not designed to be instantiated).
    – Hollister
    Dec 26, 2013 at 1:24
  • 2
    "The Module pattern was originally defined as a way to provide both private and public encapsulation for classes in conventional software engineering". From: Learning JavaScript Design Patterns. That's object follow the module pattern described above but maybe it isn't the best one to explain that because is not showing public and private properties/methods. This one jsfiddle.net/9nnR5/2 is the same object with public and private properties/methods. So both of them are following this pattern Jan 16, 2014 at 19:48
6

There are several ways to accomplish this; this is what I would use:

function Obj() {
 this.a = 5;
 this.b = this.a + 1;
 // return this; // commented out because this happens automatically
}

var o = new Obj();
o.b; // === 6
2
  • 2
    This works, but eliminates the advantages of the object literal notation.
    – kpozin
    Jan 15, 2011 at 17:01
  • True, sorry I missed the object-literal tag originally. I mostly only use object literals for data structures, and anytime I want any additional logic (which might resemble a class) I create the object as the result of a function for this very reason.
    – ken
    Jan 16, 2011 at 0:16
6

The get property works great, and you can also use a binded closure for "expensive" functions that should only run once (this only works with var, not with const or let)

var info = {
  address: (function() {
    return databaseLookup(this.id)
  }).bind(info)(),

  get fullName() {
    console.log('computing fullName...')
    return `${this.first} ${this.last}`
  },

  id: '555-22-9999',
  first: 'First',
  last: 'Last',
}

function databaseLookup() {
  console.log('fetching address from remote server (runs once)...')
  return Promise.resolve(`22 Main St, City, Country`)
}

// test
(async () => {
  console.log(info.fullName)
  console.log(info.fullName)
  console.log(await info.address)
  console.log(await info.address)
  console.log(await info.address)
  console.log(await info.address)
})()

6

Just for everyone's amusement:

var foo = (                        (This={
    a: 5,
    b: 6,                          })=>({...This,
    c: This.a + This.b             }))(
);

console.log(foo);

4
  • 4
    haha :-)...........
    – Royi Namir
    Apr 12, 2022 at 10:39
  • Interesting hack. You would need to add var or let in front of first This to make it work in strict mode. Sep 29, 2022 at 11:38
  • @MikkoRantalainen No, This is a parameter (this isn't exactly obvious, I know). It doesn't need a preceding variable declaration keyword.
    – InSync
    Jul 31, 2023 at 0:20
  • Oh, I originally read that code as using object initializer for defining This and as far as I know, those always require declaration in strict mode. However, as you correctly point out, that's actually function definition with arrow syntax and This is the function parameter that simply "happens" to have default value that matches an implicit object. I consider this as an yet another example where arrow functions reduce readability of JS code a lot because you have to do lots of backtracking to correctly parse the code. Aug 2, 2023 at 10:07
5

Creating new function on your object literal and invoking a constructor seems a radical departure from the original problem, and it's unnecessary.

You cannot reference a sibling property during object literal initialization.

var x = { a: 1, b: 2, c: a + b } // not defined 
var y = { a: 1, b: 2, c: y.a + y.b } // not defined 

The simplest solution for computed properties follows (no heap, no functions, no constructor):

var x = { a: 1, b: 2 };

x.c = x.a + x.b; // apply computed property
4

I use the following code as alternative, and it works. And the variable can be array too. (@ Fausto R.)

var foo = {
  a: 5,
  b: 6,
  c: function() {
    return this.a + this.b;
  },

  d: [10,20,30],
  e: function(x) {
    this.d.push(x);
    return this.d;
  }
};
foo.c(); // 11
foo.e(40); // foo.d = [10,20,30,40]
3

The other answers posted here are better but here's an alternative that:

  • Sets the value at initialization (not a getter, or derived, etc)
  • Doesn't require any type of init() or code outside of the object literal
  • Is an object literal and not a factory function or other object creation mechanic.
  • Shouldn't have any performance impact (except at initialization)

Self-executing anonymous functions and window storage

var foo = {
    bar:(function(){
        window.temp = "qwert";
        return window.temp;
    })(),
    baz: window.temp
};

The order is guaranteed (bar before baz).

It pollutes window of course, but I can't imagine someone writing a script that requires window.temp to be persistent. Maybe tempMyApp if you're paranoid.

It's also ugly but occasionally useful. An example is when you are using an API with rigid initialization conditions and don't feel like refactoring so the scoping is correct.

And it's dry, of course.

3

Here is an example of behavior of 'this' in the object.

this.prop = 'external';
global.prop = 'global.prop';
const that = this;

const a = {
  prop: 'internal',
  prop1: this.prop, //external

  log() {
    return this.prop //internal
  },
  log1: () => {
    return this.prop //external
  },
  log2: () => {
    return function () {
      return this.prop; //'global.prop' in node; 'external' in chrome
    }()
  },
  log3: function () {
    return (() => {
      return this.prop; //internal
    })()
  },
}
2

The key to all this is SCOPE.

You need to encapsulate the "parent" (parent object) of the property you want to define as it's own instantiated object, and then you can make references to sibling properties using the key word this

It's very, very important to remember that if you refer to this without first so doing, then this will refer to the outer scope... which will be the window object.

var x = 9   //this is really window.x
var bar = {
  x: 1,
  y: 2,
  foo: new function(){
    this.a = 5, //assign value
    this.b = 6,
    this.c = this.a + this.b;  // 11
  },
  z: this.x   // 9 (not 1 as you might expect, b/c *this* refers `window` object)
};
0
2

if your object is written as a function which returns an object, AND you use ES6 object-attribute 'methods', then it's possible:

const module = (state) => ({
  a: 1,
  oneThing() {
    state.b = state.b + this.a
  },
  anotherThing() {
    this.oneThing();
    state.c = state.b + this.a
  },
});

const store = {b: 10};
const root = module(store);

root.oneThing();
console.log(store);

root.anotherThing();
console.log(store);

console.log(root, Object.keys(root), root.prototype);
2

Here's a neat ES6 way:

var foo = (o => ({
    ...o,
    c: o.a + o.b
  }))({
    a: 5,
    b: 6
  });
  
console.log(foo);

I use it to do something like this:

const constants = Object.freeze(
  (_ => ({
    ..._,
    flag_data: {
      [_.a_flag]: 'foo',
      [_.b_flag]: 'bar',
      [_.c_flag]: 'oof'
    }
  }))({
    a_flag: 5,
    b_flag: 6,
    c_flag: 7,
  })
);

console.log(constants.flag_data[constants.b_flag]);

1

How about this solution this will work with nested objects with array as well

      Object.prototype.assignOwnProVal
     = function (to,from){ 
            function compose(obj,string){ 
                var parts = string.split('.'); 
                var newObj = obj[parts[0]]; 
                if(parts[1]){ 
                    parts.splice(0,1);
                    var newString = parts.join('.'); 
                    return compose(newObj,newString); 
                } 
                return newObj; 
            } 
            this[to] = compose(this,from);
     } 
     var obj = { name : 'Gaurav', temp : 
                  {id : [10,20], city:
                        {street:'Brunswick'}} } 
     obj.assignOwnProVal('street','temp.city.street'); 
     obj.assignOwnProVal('myid','temp.id.1');
1

Throwing in an option since I didn't see this exact scenario covered. If you don't want c updated when a or b update, then an ES6 IIFE works well.

var foo = ((a,b) => ({
    a,
    b,
    c: a + b
}))(a,b);

For my needs, I have an object that relates to an array which will end up being used in a loop, so I only want to calculate some common setup once, so this is what I have:

let processingState = ((indexOfSelectedTier) => ({
    selectedTier,
    indexOfSelectedTier,
    hasUpperTierSelection: tiers.slice(0,indexOfSelectedTier)
                         .some(t => pendingSelectedFiltersState[t.name]),
}))(tiers.indexOf(selectedTier));

Since I need to set a property for indexOfSelectedTier and I need to use that value when setting the hasUpperTierSelection property, I calculate that value first and pass it in as a param to the IIFE

1

I think following is best code for maintanability even though it's not in object literal syntax:

var foo = function() {
   this.a = 5;
   this.b = 6;
   this.c = this.a + this.b;
   return this;
}.call({});

This creates a new empty object with {} and then uses the anonymous function to set its properties (executed with call()). I think the only bad part is the need for return this which feels like one extra line of code. Unfortunately, I cannot figure out any nicer way to move the reference to newly created anonymous object to foo.

I think this is better than syntax var foo = new function() {...} because this one doesn't create one extra level in the prototype chain as explained by @Bergi in the comments in one of the existing answers.

However, if this is truly literal without any other logic but one addition, it would make more sense to just write

const foo = {
    a:5,
    b:6,
    c:11, // sum of a + b
};

because there's no need to calculate that sum during runtime or even compile time.

1

Alternative syntax with pretty good maintanability:

let a = 5;
let b = 6;
let foo = {
  a,
  b,
  c: a+b,
};

This works because JavaScript will use the variable name as the property name for the newly created object if you don't specify the name explicitly. For a short array like this, I'd personally go with single line syntax with return if this were inside a function:

let a = 5;
let b = 6;
return { a, b, c:a+b };
0

Two lazy solutions

There are already excellent answers here and I'm no expert on this, but I am an expert in being lazy and to my expert eye these answers don't seem lazy enough.

First: return object from anonymous function

A very slight variation from T.J. Crowder, Henry Wrightson and Rafael Rocha answers:

var foo = (() => {

  // Paste in your original object
  const foo = {
    a: 5,
    b: 6,
  };
  
  // Use their properties
  foo.c = foo.a + foo.b;

  // Do whatever else you want

  // Finally, return object
  return foo;
})();

console.log(foo);

The slight advantage here is just pasting your original object as it was, without worrying about arguments etc. (IMHO the wrapper function becomes quite transparent this way).

Second: using setTimeout

This here may work, if you don't need foo.c right away:

var foo = {
  a: 5,
  b: 6,
  c: setTimeout(() => foo.c = foo.a + foo.b, 0)
};

// Though, at first, foo.c will be the integer returned by setTimeout
console.log(foo);
// But if this isn't an issue, the value will be updated when time comes in the event loop
setTimeout( () => console.log(foo), 0);

0

Ok I came up with another solution. Here I want to initialize an object representing the amount of milliseconds for each unit of time. It turns out enum in typescript can not be used in my case, so I declared multiple variables that I assign to an object as follow:

const SECOND = 1000
const MINUTE = 60 * SECOND
const HOUR = 60 * MINUTE
const DAY = 24 * HOUR
const WEEK = 7 * DAY

export const TimeInMS = {
  SECOND,
  MINUTE,
  HOUR,
  DAY,
  WEEK
}

The drawbacks of this method are:

  • variables are defined as constants, even if we dont need them. Thus it needs useless memory.
  • each value of the object must be declared as standalone variable
0

Although an object declaration does not allow you to reference prior properties, the default values in a function declaration do.

Therefore, you can do this:

const foo = ((a=5, b=6, c=a+b) => ({a,b,c}))()

console.log(foo)

-1

Other approach would be to declare the object first before assigning properties into it:

const foo = {};
foo.a = 5;
foo.b = 6;
foo.c = foo.a + foo.b;  // Does work
foo.getSum = () => foo.a + foo.b + foo.c;  // foo.getSum() === 22

With that, you can use the object variable name to access the already assigned values.
Best for config.js file.

1
  • 1
    That isn't a self reference, but rather a reference to the declared variable foo which points to the object in question. Sep 9, 2019 at 20:57
-1

If you want to use native JS, the other answers provide good solutions.

But if you're willing to write self-referencing objects like:

{ 
  a: ...,
  b: "${this.a + this.a}",
}

I wrote an npm library called self-referenced-object that supports that syntax and returns a native object.

5
  • 1
    Please avoid link only answers. Answers that are "barely more than a link to an external site” may be deleted.
    – Quentin
    May 14, 2019 at 13:51
  • 1
    @Quentin do you have any suggestions on how I can improve my answer? The other answers to this question cover how you might be able to write self-referencing objects in native javascript, but if you want to write self-referencing objects with a syntax similar to the syntax in the posters original question I think that the library that I wrote may be useful to others looking for a solution. Happy to get some feedback. May 15, 2019 at 14:26
  • Couple things to improve here. First, and most obviously, you're using template literal syntax without back ticks. Your b property's value should be: ${this.a + this.a}. Second, but less importantly, you'd want to return a number, not a string by using something like parseInt. Last and MOST importantly, when I tried this example it simply doesn't work, for the same reason the OP is asking. The this returns undefined when used its own object declaration. @alex-e-leon May 12, 2020 at 18:42
  • @AlecDonaldMather - thanks for taking the time to take a look and provide some feedback! If you're interested in the project it might be better to move this discussion over to github, but to answer some of your feedback: - Using backticks: As mentioned in previous comments, this syntax isnt supported by JS, and so using strings instead of backticks is required here to avoid js trying to resolve "this" before the obj has been defined - returning a number, this should work if a + b are already numbers, since a + b will return a number if both a and b are already numbers. May 14, 2020 at 2:16
  • Re this returning undefined, can you explain how you tried to use the library? This shouldn't happen, but maybe there's an edge case I've left out? That said, this library doesn't solve the issue completely, and has it's own set of tradeoffs, but if you're interested in helping me to improve it/use it let me know! May 14, 2020 at 2:19
-1

Note: This solution uses Typescript (you can use the vanilla JS which TS compiles to if needed)

class asd {
    def = new class {
        ads= 'asd';
        qwe= this.ads + '123';
    };
    
    // this method is just to check/test this solution 
    check(){
        console.log(this.def.qwe);
    }
}

// these two lines are just to check
let instance = new asd();
instance.check();

Here were using class expressions to get the nested object literal interface we'd want. This is the next best thing IMHO to being able to reference the properties of an object during creation.

Main thing to note is while using this solution, you have exact same interface as you'd have had from an object literal. And the syntax is pretty close to an object literal itself (vs using a function, etc).

Compare the following

Solution I've proposed

class asd {
    def = new class {
        ads= 'asd';
        qwe= this.ads + '123';
    };

Solution if object literals would've sufficed

var asd = {
    def : {
        ads:'asd',
        qwe: this.ads + '123';, //ILLEGAL CODE; just to show ideal scenario
    }
}

Another example

Here in this class, you can combine multiple relative path among themselves, which is not possible with an object literal.

class CONSTANT {
    static readonly PATH = new class {
        /** private visibility because these relative paths don't make sense for direct access, they're only useful to path class
         *
         */
        private readonly RELATIVE = new class {
            readonly AFTER_EFFECTS_TEMPLATE_BINARY_VERSION: fs.PathLike = '\\assets\\aep-template\\src\\video-template.aep';
            readonly AFTER_EFFECTS_TEMPLATE_XML_VERSION: fs.PathLike = '\\assets\\aep-template\\intermediates\\video-template.aepx';
            readonly RELATIVE_PATH_TO_AFTER_EFFECTS: fs.PathLike = '\\Adobe\\Adobe After Effects CC 2018\\Support Files\\AfterFX.exe';
            readonly OUTPUT_DIRECTORY_NAME: fs.PathLike = '\\output';
            readonly INPUT_DIRECTORY_NAME: fs.PathLike = '\\input';
            readonly ASSETS_DIRECTORY_NAME: fs.PathLike = '\\assets';
        };
    }
}
3
  • 3
    Could it be because your answer is totally irrelevant? I agree that downvoters should explain, but your answer clear has nothing to do with the question …
    – Manngo
    Jul 8, 2018 at 0:44
  • @Manngo thanks for pointing it out. Honestly, I'd the same question as OP and I use solution I've suggested. Unsure, why it's being considered irrelevant. If you do have the time, please explain so I can make the answer better or at least know where I'm wrong. I'm unfortunately, not understanding why this is not a reasonable solution. Jul 9, 2018 at 7:18
  • This doesn't address the problem of self reference at all. What you proposed is a rather convoluted way of emulating self reference by introducing unnecessary closure in your code. Mar 9, 2021 at 17:27

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