UPDATE: Recently a brilliant article from Mozilla came up. Read it if you're curious.

As you may know they are planning to include new Symbol primitive type in ECMAScript 6 (not to mention some other crazy stuff). I always thought that the :symbol notion in Ruby is needless; we could easily use plain strings instead, like we do in JavaScript. And now they decide to complicate things in JS with that.

I don't understand the motivation. Could someone explain to me whether we really need symbols in JavaScript?

  • 6
    I don't know how authentic this explanation is, but it's a start: tc39wiki.calculist.org/es6/symbols. – Felix Kling Feb 12 '14 at 9:59
  • 6
    Symbols enable so much , they allow scoped unique identifiers on objects. For example, having properties on objects that are only accessible in one place. – Benjamin Gruenbaum Feb 16 '14 at 1:13
  • 5
    Not sure about that since you can use Object.getOwnPropertySymbols(o) – Yanis Feb 17 '14 at 10:25
  • 2
    It's more uniqueness rather than privacy. – Qantas 94 Heavy Feb 19 '14 at 6:44
  • 2
    They were going to have a more complicated class implementation with private and public class attribute keywords that they decided to ditch for a simpler class implementation. Instead of this.x = x you were supposed to do public x = x and for private variables private y = y. They decided to ditch that for a much more minimal class implementation. Symbol would then be a required workaround to get private properties in the minimal implementation. – lyschoening Apr 16 '14 at 14:45
up vote 157 down vote accepted

The original motivation for introducing symbols to Javascript was to enable private properties.

Unfortunately, they ended up being severely downgraded. They are no longer private, since you can find them via reflection, for example, using Object.getOwnPropertySymbols or proxies.

They are now known as unique symbols and their only intended use is to avoid name clashes between properties. For example, ECMAScript itself can now introduce extension hooks via certain methods that you can put on objects (e.g. to define their iteration protocol) without risking them to clash with user names.

Whether that is strong enough a motivation to add symbols to the language is debatable.

  • 70
    Most languages (all mainstream ones afaik) provide some mechanism, usually reflection, to get access to private anyway. – Esailija May 14 '14 at 10:58
  • 16
    @Esailija, I don't think that's true -- in particular, since many languages don't offer reflection in the first place. Leaking private state through reflection (like e.g. in Java) should be considered a bug, not a feature. This is especially true on web pages, where having reliable private state can be security-relevant. Currently, the only way to achieve it in JS is through closures, which can be both tedious and costly. – Andreas Rossberg May 14 '14 at 14:37
  • 31
    The mechanism doesn't have to be reflection - C++, Java, C#, Ruby, Python, PHP, Objective-C all allow access one way or another if one really wants to. It's not really about ability but communication. – Esailija May 14 '14 at 15:48
  • 2
    @plalx, on the web, encapsulation sometimes is about security, too. – Andreas Rossberg Mar 1 '15 at 18:27
  • 2
    @RolandPihlakas, unfortunately, Object.getOwnPropertySymbols is not the only leak; the more difficult one is the ability to use proxies to intercept access to a "private" property. – Andreas Rossberg May 2 '15 at 17:27

Symbols do not guarantee true privacy but can be used to separate public and internal properties of objects. Let's take an example where we can use Symbol for having private properties.

Let's take an example where a property of an object is not private.

var Pet = (function() {
  function Pet(type) {
    this.type = type;
  }
  Pet.prototype.getType = function() {
    return this.type;
  }
  return Pet;
}());

var a = new Pet('dog');
console.log(a.getType());//Output: dog
a.type = null;
//Modified outside
console.log(a.getType());//Output: null

Above, the Pet class property type is not private. To make it private we have to create a closure. The below example illustrates how we can make type private using a closure.

var Pet = (function() {
  function Pet(type) {
    this.getType = function(){
      return type;
    };
  }
  return Pet;
}());

var b = new Pet('dog');
console.log(b.getType());//dog
b.type = null;
//Stays private
console.log(b.getType());//dog

Disadvantage of above approach: We are introducing an extra closure for each Pet instance created, which can harm performance.

Now we introduce Symbol. This can help us make a property private without using extra unnecessary closures. Code example below:

var Pet = (function() {
  var typeSymbol = Symbol('type');
  function Pet(type) {
    this[typeSymbol] = type;
  }
  Pet.prototype.getType = function(){
    return this[typeSymbol];
  }
  return Pet;
}());

var a = new Pet('dog');
console.log(a.getType());//Output: dog
a.type = null;
//Stays private
console.log(a.getType());//Output: dog
  • 10
    Notice that symbol properties are not private! Symbols are collision-free. You may want to read the accepted answer. – Bergi Apr 28 '15 at 3:03
  • 3
    Yes, symbol do not guarantee true privacy but can be used to separate public and internal properties of objects. Sorry, forgot to add this point to my answer. Will update my answer accordingly. – Samar Panda Apr 28 '15 at 5:15
  • 9
    I wouldn't say pointless, as symbols are by default not enumerable, also it cannot be accessed by 'mistake', while any other key can. – Patrick May 5 '17 at 21:14
  • 2
    upvte for describing with an example :) – Lakshay Jul 27 '17 at 6:13
  • 1
    I find your answer the only one that actually have an example that makes sense, on why you would want to define the private attribute of the object as a Symbol, instead of just a normal attribute. – Luis Lobo Borobia Sep 20 at 17:17
up vote 23 down vote
+100

Symbols are a new, special kind of object that can be used as a unique property name in objects. Using Symbol instead of string's allows different modules to create properties that don't conflict with one another. Symbols can also be made private, so that their properties can't be accessed by anyone who doesn't already have direct access to the Symbol.

Symbols are a new primitive. Just like the number, string, and boolean primitives, Symbol have a function which can be used to create them. Unlike the other primitives, Symbols do not have a literal syntax (e.g how string have '') - the only way to create them is with the Symbol constructor in the following way:

let symbol = Symbol();

In reality, Symbol's are just a slightly different way to attach properties to an object - you could easily provide the well-known Symbols as standard methods, just like Object.prototype.hasOwnProperty which appears in everything that inherits from Object.

Here are some of the benefits of the Symbol primitive type.

Symbols have debuggability built in

Symbols can be given a description, which is really just used for debugging to make life a little easier when logging them to a console.

Symbols can be used as Object keys

This is where Symbol's get really interesting. They are heavily intertwined with objects. Symbol can be assigned as keys to objects, meaning you can assign an unlimited number of unique Symbol's to an object and be guaranteed that these will never conflict with string keys, or other unique Symbols.

Symbols can be used as a unique value.

Let’s assume you have a logging library, which includes multiple log levels such as logger.levels.DEBUG, logger.levels.INFO, logger.levels.WARN and so on. In ES5 code you’d like make these strings (so logger.levels.DEBUG === 'debug'), or numbers (logger.levels.DEBUG === 10). Both of these aren’t ideal as those values aren’t unique values, but Symbols are! So logger.levels simply becomes:

log.levels = {
  DEBUG: Symbol('debug'),
  INFO: Symbol('info'),
  WARN: Symbol('warn'),
};
log(log.levels.DEBUG, 'debug message');
log(log.levels.INFO, 'info message');

Read more in this great article.

  • 1
    I'm not sure I understand your example, and why would you need log.levels = {DEBUG: Symbol('debug') and not simply log.levels = {DEBUG:'debug'}. at the end it's the same. I think it's worth mentioning that Symbols are invisible when iterating over an Object's keys. that's their "thing" – vsync Sep 18 at 12:01

This post is about the Symbol(), supplied with actual examples I could find/make and facts & definitions I could find.

TLDR;

The Symbol() is the data type, introduced with the release of ECMAScript 6 (ES6).

There're two curious facts about the Symbol.

  • the first data type and only data type in JavaScript which has got no literal

  • any variable, defined with Symbol(), gets unique content, but it's not really private.

  • any data has its own Symbol, and for the same data the Symbols would be the same. More info in the following paragraph, otherwise it's not a TLRD; :)

How do I initialise the symbol?

1. To get a unique identifier with a debuggable value

You can do it either this way:

var mySymbol1 = Symbol();

Or this way:

var mySymbol2 = Symbol("some text here");

The "some text here" string can't be extracted from the symbol, it's just a description for debugging purposes. It doesn't change the behaviour of symbol in any way. Although, you could console.log it (which is fair, since the value is for debugging, so as not to mistake that log with some other log entry):

console.log(mySymbol2);
// Symbol(some text here)

2. To obtain a symbol for some string data

In this case the value of symbol is actually taken into account and this way two symbols may be non-unique.

var a1 = Symbol.for("test");
var a2 = Symbol.for("test");
console.log(a1 == a2); //true!

Let's call those symbols "second-type" symbols. They do not intersect with the "first-type" symbols (i.e. the ones defined with Symbol(data)) in any way.

The next two paragraphs pertain only the the first-type symbol.

How do I benefit from using Symbol instead of the older data types?

Let's first consider an object, a standard data type. We could define some key-values pairs there and have an access to the values by specifying the key.

var persons = {"peter":"pan","jon":"doe"};
console.log(persons.peter);
// pan

What if we have two persons with the name Peter?

Doing this:

var persons = {"peter":"first", "peter":"pan"};

wouldn't make much sense.

So, appears to be a problem of two absolutely different persons having a same name. Let's then refer out new Symbol(). It's like a person in real life - any person is unique, but their names can be equal. Let's define two "persons".

 var a = Symbol("peter");
 var b = Symbol("peter");

Now we have got two different persons with the same name. Are our persons different indeed? They are; you can check this:

 console.log(a == b);
 // false

How do we benefit there?

We can make two entries in your object for the different persons and they can't be mistaken in any way.

 var firstPerson = Symbol("peter");
 var secondPerson = Symbol("peter");
 var persons = {[firstPerson]:"first", [secondPerson]:"pan"};

Note:
It's worth to notice, though, that stringifying the object with JSON.stringify will drop all the pairs initialised with a Symbol as a key.
Executing Object.keys won't either return such Symbol()->value pairs.

Using this initialisation, it's absolutely impossible to mistake the entries for the first and second persons. Calling console.log for them will correctly output their second names.

 console.log(persons[a]);
 // first
 console.log(persons[b]);
 // pan

When used in object, how it is different compared to defining non-enumerable property?

Indeed, there already existed a way to define a property to be hidden from Object.keys and enumeration. Here it is:

var anObject = {};
var fruit = "apple";    

Object.defineProperty( anObject, fruit, {
    enumerable: false,
    value: "green"
});

What difference does Symbol() bring there? The difference is that you can still get the property defined with Object.defineProperty in the usual way:

console.log(anObject[fruit]); //green
console.log(anObject["apple"]); //green
console.log(anObject.apple); //green

And if defined with Symbol as in previous paragraph:

fruit = Symbol("apple");

You will have an ability to receive its value only if knowing its variable, i.e.

console.log(anObject[fruit]); //green
console.log(anObject["apple"]); //undefined
console.log(anObject.apple); //undefined

Moreover, defining another property under the key "apple" will make the object drop the older one (and if hard-coded, it could throw an error). So, no more apples! That's a pity. Referring the previous paragraph, the Symbols are unique and defining a key as Symbol() will make it unique.

Type conversion and checking

  • Unlike other data types, it's impossible to convert the Symbol() to any other data type.

  • It's possible to "make" a symbol based on primitive data type by calling Symbol(data).

  • In terms of checking the type, nothing changes.

    function isSymbol ( variable ) {
        return typeof someSymbol === "symbol";
    }
    
    var a_Symbol = Symbol("hey!");
    var totally_Not_A_Symbol = "hey";
    
    console.log(isSymbol(a_Symbol)); //true
    console.log(isSymbol(totally_Not_A_Symbol)); //false
    

  • Was this migrated from SO Documentation? – Knu Apr 14 at 23:57
  • @KNU it wasn't; I've gathered the info and wrote this answer myself – nicael Apr 15 at 20:13
  • Really beautiful answer! – Mihai Alexandru-Ionut Apr 17 at 13:04

Here is how I see it. Symbols provide 'an extra level of privacy', by preventing the keys/properties of an object from being exposed through some popular methods such as Object.keys() and JSON.stringify().

var age = Symbol();  // declared in another module perhaps?
class Person {
   constructor(n,a){
      this.name = n;
      this[age] = a;  
   }
   introduce(){
       console.log(`My name is ${this.name}. I am ${this[age]-10}.`);
   }
}
var j = new Person('Jane',45);
j.introduce();  // My name is Jane. I am 35.
console.log(JSON.stringify(j)); // {"name":"Jane"}
console.log(Object.keys(j)); // ["name"]
console.log(j[age]); // 45   (well…only if you know the age in the first place…)

Although given an object per se, such properties can still be exposed through reflection, proxy, Object.getOwnPropertySymbols() etc., there is no natural means to access them through a few direct methods, which may be sufficient sometimes from an OOP perspective.

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