I just heard about the JavaScript methods freeze and seal, which can be used to make any Object immutable.

Here's a short example how to use it:

var o1 = {}, o2 = {};

o1["a"] = "worked";
o2["a"] = "worked";

alert(o1["a"]);   //prints "worked"
alert(o2["a"]);   //prints "undefined"

What is the difference between freeze and seal? Can they increase performance?

  • 6
    Just a note to anyone looking at this question, the accepted answer is factually incorrect. @tungd's answer is correct.
    – Bjorn
    Aug 23 '14 at 23:03
  • 2
    Another note, there's also Object.preventExtensions in addition to Object.seal and Object.freeze. Object.preventExtensions just prevents new items from being added to an object. You can delete, configure, and change the values of properties on objects that had their extensibility turned off with Object.preventExtensions.
    – Bjorn
    Aug 23 '14 at 23:06
  • 1


  • It prevents adding and/or removing properties from the sealed object; using delete will return false
  • It makes every existing property non-configurable: they cannot be converted from 'data descriptors' to 'accessor descriptors' (and vice versa), and no attribute of accessor descriptors can be modified at all (whereas data descriptors can change their writable attribute, and their value attribute if writeable is true).
  • Can throw a TypeError when attempting to modify the value of the sealed object itself (most commonly in strict mode)


  • Exactly what Object.seal does, plus:
  • It prevents modifying any existing properties

Neither one affects 'deep'/grandchildren objects. E.g., if obj is frozen, obj.el can’t be reassigned, but the value of obj.el could be modified, e.g. obj.el.id can be changed.


Sealing or freezing an object may affect its enumeration speed, depending on the browser:

  • Firefox: enumeration performance is not impacted
  • IE: enumeration performance impact is negligible
  • Chrome: enumeration performance is faster with sealed or frozen objects
  • Safari: sealed or frozen objects enumerate 92% slower (as of 2014)

Tests: Sealed objects, Frozen objects.

  • 2
    Can you talk about why we would ever use these methods? Just because we can?
    – Alan Dong
    Aug 1 '14 at 21:59
  • 3
    In the future I think they're going to be used a lot (if optimized correctly) when developing a library/framework. They allow you to prevent the user to (even unintentionally) break your code (and, as stated in the answer, optimizations should lead to great speed improvements). But this is pure speculation :) Aug 1 '14 at 22:17
  • 2
    This answer has many factual errors. For one, seal also makes existing properties non-configurable, see jsfiddle.net/btipling/6m743whn Number 2, you can still edit, that is change the values of existing properties on a sealed object.
    – Bjorn
    Aug 23 '14 at 23:02
  • 8
    FWIW, frozen and sealed objects are now faster than their unfrozen and unsealed counterparts in Chrome Canary v43.0.2317.0.
    – lammy
    Feb 28 '15 at 22:57
  • 2
    @AlanDong A bit late in coming, but here is why you want to lock down an object.One of JavaScript’s features is that you can add a property any time you like; you can also do this accidentally by mis-typing. Many of my students have tried to add an event handler called onClick or onlick and wondered why it’s not working. If JavaScript throws an error, then that’s one less thing to get wrong. Secondly, this allows you to implement constant properties on an object which prevents changes. This is particularly useful on object methjods.
    – Manngo
    Nov 25 '17 at 8:37

I wrote a test project which compares these 3 methods:

  • Object.freeze()
  • Object.seal()
  • Object.preventExtensions()

My unit tests cover CRUD cases:

  • [C] add new property
  • [R] read existed property
  • [U] modify existed property
  • [D] remove existed property


enter image description here

  • 2
    This is brilliant. Does UPDATE take into account modifying (via defineProperty) the descriptor attributes e.g. configurable, enumerable, writable?
    – Drenai
    Sep 22 '17 at 0:13
  • I always though that DOM objects should be sealed (after polyfills, of course). That would help to prevent a lot of typo errors.
    – Manngo
    Nov 25 '17 at 8:49
  • @Manngo You can seal your DOM objects. Simply create a DEBUGMODE variable and set it to true. Then, do if (DEBUGMODE) { ... }. In the ..., put your functionality for ensuring all DOM objects are always sealed. Then, when you are ready to distribute your webpage script, change DEBUGMODE to false, run your script through the closure compiler, and distribute it. It's as simple as that.
    – Jack G
    Sep 5 '18 at 16:53
  • @JackGiffin Thanks for the comment. I was just saying that I always thought it would be a good idea. I have a lot of students who end up typing something like element.onlick=something and getting frustrated because it doesn’t work, but it’s not technically an error.
    – Manngo
    Sep 5 '18 at 19:53
  • 2
    @Lonely Then it wouldn’t spell CRUD. You’d have to settle for something like RUDE ;)
    – Manngo
    Sep 5 '18 at 21:14

You can always looks these up in MDN. In short:

  • Freeze: makes the object immutable, meaning no change to defined property allowed, unless they are objects.
  • Seal: prevent addition of properties, however defined properties still can be changed.
  • 2
    Object.seal() also seems to freeze the prototype properties :\
    – K..
    Apr 30 '15 at 20:48

Object.freeze() creates a frozen object, which means it takes an existing object and essentially calls Object.seal() on it, but it also marks all “data accessor” properties as writable:false, so that their values cannot be changed.

-- Kyle Simpson, You Don't Know JS - This & Object Prototypes


I have created a simple table to compare the below functions and explain the difference between these functions.

  • Object.freeze()
  • Object.seal()
  • Object.preventExtensions()

table that explains the difference between the above three methods


I was looking at the differences between Freeze and Seal in ECMAScript 5 and created a script to clarify the differences. Frozen creates an immutable object including data and structure. Seal prevents changes to the named interfaces - no adds, deletes - but you can mutate the object and redefine the meaning of its interface.

function run()
    var myObject = function() 
        this.test = "testing"; 


    var frozenObj = new myObject();
    var sealedObj = new myObject();

    var allFrozen = Object.freeze(frozenObj);
    var allSealed = Object.seal(sealedObj);
    alert("frozenObj of myObject type now frozen - Property test= " + frozenObj.test);
    alert("sealedObj of myObject type now frozen - Property test= " + sealedObj.test);


    frozenObj.addedProperty = "added Property"; //ignores add
    alert("Frozen addedProperty= " + frozenObj.addedProperty);
    delete frozenObj.test; //ignores delete
    alert("Frozen so deleted property still exists= " + frozenObj.test);
    frozenObj.test = "Howdy"; //ignores update
    alert("Frozen ignores update to value= " + frozenObj.test);
    frozenObj.test = function() { return "function"; } //ignores
    alert("Frozen so ignores redefinition of value= " + frozenObj.test);

    alert("Is frozen " + Object.isFrozen(frozenObj));
    alert("Is sealed " + Object.isSealed(frozenObj));
    alert("Is extensible " + Object.isExtensible(frozenObj));

    alert("Cannot unfreeze");
    alert("result of freeze same as the original object: " + (frozenObj === allFrozen).toString());

    alert("Date.now = " + Date.now());


    sealedObj.addedProperty = "added Property"; //ignores add
    alert("Sealed addedProperty= " + sealedObj.addedProperty);
    sealedObj.test = "Howdy"; //allows update
    alert("Sealed allows update to value unlike frozen= " + sealedObj.test);
    sealedObj.test = function() { return "function"; } //allows
    alert("Sealed allows redefinition of value unlike frozen= " + sealedObj.test);
    delete sealedObj.test; //ignores delete
    alert("Sealed so deleted property still exists= " + sealedObj.test);
    alert("Is frozen " + Object.isFrozen(sealedObj));
    alert("Is sealed " + Object.isSealed(sealedObj));
    alert("Is extensible " + Object.isExtensible(sealedObj));

    alert("Cannot unseal");
    alert("result of seal same as the original object: " + (sealedObj === allSealed).toString());

    alert("Date.now = " + Date.now());

I know I may be little late but

  • Similarity: both of them are used for creating non extensible objects.
  • Difference : In Freeze configurable , enumerable and writable attributes of the object are set to false. where as in Sealed writable attribute is set to true and rest of the attributes are false.
  • 6
    This is not entirely correct. Object.getOwnPropertyDescriptor(Object.freeze({ prop: 1 }), 'prop').enumerable === true.
    – Leon Adler
    Jul 28 '16 at 15:28

You can now force a single object property to be frozen instead of freezing the whole object. You can achieve this with Object.defineProperty with writable: false as a parameter.

var obj = {
    "first": 1,
    "second": 2,
    "third": 3
Object.defineProperty(obj, "first", {
    writable: false,
    value: 99

In this example, obj.first now has its value locked to 99.

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