Basically, I'm trying to create an object of unique objects, a set. I had the brilliant idea of just using a JavaScript object with objects for the property names. Such as,

set[obj] = true;

This works, up to a point. It works great with string and numbers, but with other objects, they all seem to "hash" to the same value and access the same property. Is there some kind of way I can generate a unique hash value for an object? How do strings and numbers do it, can I override the same behavior?

  • 31
    The reason the objects all 'hash' to the same value is because you have not overridden their toString methods. Since keys are required to be strings, the toString method is automatically called to obtain a valid key so all of your objects are converting to the same default string: "[object Object]". – alanning Feb 16 '12 at 17:45
  • 4
    JSON.stringify(obj) or obj.toSource() may work for you depending on the problem and target platform. – Annan Jul 9 '13 at 23:07
  • 4
    @Annan JSON.stringify(obj) literally just converts the (whole) object into a string. So you would be basically just copying the object onto itself. This is pointless, a waste of space and not optimal. – Metalstorm Apr 26 '14 at 16:40
  • 1
    @Metalstorm True, which is why it depends what your problem is. When I found this question through google my final solution was calling toSource() on objects. Another method would just be to use a conventional hash on the source. – Annan Apr 27 '14 at 17:53
  • @Annan, toSource don't work in Chrome btw – Pacerier Sep 18 '17 at 22:41

18 Answers 18


JavaScript objects can only use strings as keys (anything else is converted to a string).

You could, alternatively, maintain an array which indexes the objects in question, and use its index string as a reference to the object. Something like this:

var ObjectReference = [];

set['ObjectReference.' + ObjectReference.indexOf(obj)] = true;

Obviously it's a little verbose, but you could write a couple of methods that handle it and get and set all willy nilly.


Your guess is fact -- this is defined behaviour in JavaScript -- specifically a toString conversion occurs meaning that you can can define your own toString function on the object that will be used as the property name. - olliej

This brings up another interesting point; you can define a toString method on the objects you want to hash, and that can form their hash identifier.

  • another option would be to give each object a random value as it's hash - maybe a random number + total ticks - then have a set of functions to add/remove the object from the array. – Sugendran Oct 12 '08 at 0:52
  • 4
    This will fail if you add the same object twice. It will think that it is different. – Daniel X Moore May 24 '09 at 22:46
  • 8
    I like this solution, because it does not need any additional properties in the object. But it's getting problematic, if you try to have a clean garbage collector. In your approach it will save the object although it's other references were already deleted. This can lead to problems in bigger applications. – Johnny Feb 19 '13 at 9:06
  • 33
    Why is the accepted answer? It's wrong in many ways. – Metalstorm Apr 25 '14 at 17:48
  • 31
    What's the point of hashing the objects if every time you refer to them you need a linear scan of an array? – Bordaigorl Nov 16 '14 at 11:36

If you want a hashCode() function like Java's in JavaScript, that is yours:

String.prototype.hashCode = function(){
    var hash = 0;
    for (var i = 0; i < this.length; i++) {
        var character = this.charCodeAt(i);
        hash = ((hash<<5)-hash)+character;
        hash = hash & hash; // Convert to 32bit integer
    return hash;

That is the way of implementation in Java (bitwise operator).

  • 5
    this creates -hash, not perfect – qodeninja Sep 14 '12 at 0:15
  • 6
    @qodeninja What's wrong with negative numbers? – szeryf Feb 8 '13 at 19:28
  • 12
    @qodeninja says who? It's the first time I heard such a claim. Can you link to some source? Hashes are usually calculated using fixed-size integer arithmetic and bit operations, so getting positive or negative results is something to be expected. – szeryf Feb 14 '13 at 18:26
  • 7
    Picky, but... "if (this.length == 0) return hash;" is redundant :) And would personally change "character" to "code". – Metalstorm Jul 13 '13 at 23:43
  • 10
    @qodeninja and @szeryf: you just have to be careful how you use it. For instance, I tried to do pickOne["helloo".hashCode() % 20] for an array pickOne with 20 elements. I got undefined because the hash code is negative, so this is an example in which someone (me) implicitly assumed positive hash codes. – Jim Pivarski Feb 10 '14 at 20:20

The easiest way to do this is to give each of your objects its own unique toString method:

(function() {
    var id = 0;

    /*global MyObject */
    MyObject = function() {
        this.objectId = '<#MyObject:' + (id++) + '>';
        this.toString= function() {
            return this.objectId;

I had the same problem and this solved it perfectly for me with minimal fuss, and was a lot easier that re-implementing some fatty Java style Hashtable and adding equals() and hashCode() to your object classes. Just make sure that you don't also stick a string '<#MyObject:12> into your hash or it will wipe out the entry for your exiting object with that id.

Now all my hashes are totally chill. I also just posted a blog entry a few days ago about this exact topic.

  • 23
    But this misses the whole point. Java has equals() and hashCode() so that two equivalent objects have the same hash value. Using the above method means that every instance of MyObject will have a unique string, which means you will have to keep a reference to that object to ever retrieve the correct value from the map. Having a key is meaningless, because it has nothing to do with the uniqueness of an object. A useful toString() function will need to be implemented for the specific type of object you are using as a key. – sethro Jan 17 '14 at 21:16
  • @sethro you can implement the toString for the objects such that it directly maps to an equivalence relation so that two objects create the same string iff they are considered "equal". – Daniel X Moore Jan 18 '14 at 20:16
  • 3
    Right, and that is the only correct way to use toString() to allow you to use an Object as a Set. I think I misunderstood your answer as trying to provide a generic solution to avoid writing a toString() equivalent of equals() or hashCode() on a case by case basis. – sethro Jan 23 '14 at 18:07
  • 3
    Dowvoted. This is not what a hashcode is, see my answers to: stackoverflow.com/a/14953738/524126 And a true implementation of a hashcode: stackoverflow.com/a/15868654/524126 – Metalstorm Apr 26 '14 at 16:37
  • 5
    @Metalstorm the question wasn't asking about a "true" hashcode, but rather how to successfully use an object as a set in JavaScript. – Daniel X Moore Apr 26 '14 at 17:42

The solution I chose is similar to Daniel's, but rather than use an object factory and override the toString, I explicitly add the hash to the object when it is first requested through a getHashCode function. A little messy, but better for my needs :)

Function.prototype.getHashCode = (function(id) {
    return function() {
        if (!this.hashCode) {
            this.hashCode = '<hash|#' + (id++) + '>';
        return this.hashCode;
  • Dowvoted. See my answer to Daniel's: stackoverflow.com/a/885944/524126 – Metalstorm Apr 26 '14 at 16:37
  • 7
    If you want to go this way, it's much better to set the hashCode via Object.defineProperty with enumerable set to false, so you won't crash any for .. in loops. – Sebastian Nowak Aug 7 '14 at 13:36

What you described is covered by Harmony WeakMaps, part of the ECMAScript 6 specification (next version of JavaScript). That is: a set where the keys can be anything (including undefined) and is non-enumerable.

This means it's impossible to get a reference to a value unless you have a direct reference to the key (any object!) that links to it. It's important for a bunch of engine implementation reasons relating to efficiency and garbage collection, but it's also super cool for in that it allows for new semantics like revokable access permissions and passing data without exposing the data sender.

From MDN:

var wm1 = new WeakMap(),
    wm2 = new WeakMap();
var o1 = {},
    o2 = function(){},
    o3 = window;

wm1.set(o1, 37);
wm1.set(o2, "azerty");
wm2.set(o1, o2); // A value can be anything, including an object or a function.
wm2.set(o3, undefined);
wm2.set(wm1, wm2); // Keys and values can be any objects. Even WeakMaps!

wm1.get(o2); // "azerty"
wm2.get(o2); // Undefined, because there is no value for o2 on wm2.
wm2.get(o3); // Undefined, because that is the set value.

wm1.has(o2); // True
wm2.has(o2); // False
wm2.has(o3); // True (even if the value itself is 'undefined').

wm1.has(o1);   // True
wm1.has(o1);   // False

WeakMaps are available in current Firefox, Chrome and Edge. They're also supported in Node v7 , and in v6 with the --harmony-weak-maps flag.

  • What is the difference between these and Map? – smac89 Jul 11 '17 at 3:47
  • @smac89 WeakMap has limitations: 1) Takes only objects as keys 2) No size property 3) No iterator or forEach method 4) No clear method. Key is object - so when the object will be deleted from memory - data from WeakMap connected with this object will be deleted too. It's very useful when we want to keep the information, which should exist only while the object exists. So WeakMap has only methods: set, delete for write and get, has for read – Ekaterina Tokareva Aug 27 '17 at 12:35
  • This doesn't exactly work correctly... var m = new Map();m.set({},"abc"); console.log(m.get({}) //=>undefined It only works if you have the same variable you originally referenced in the set command. E.G. var m = new Map();a={};m.set(a,"abc"); console.log(m.get(a) //=>undefined – Sancarn Sep 4 '18 at 16:51

For my specific situation I only care about the equality of the object as far as keys and primitive values go. The solution that worked for me was converting the object to its JSON representation and using that as the hash. There are limitations such as order of key definition potentially being inconsistent; but like I said it worked for me because these objects were all being generated in one place.

var hashtable = {};

var myObject = {a:0,b:1,c:2};

var hash = JSON.stringify(myObject);
// '{"a":0,"b":1,"c":2}'

hashtable[hash] = myObject;
// {
//   '{"a":0,"b":1,"c":2}': myObject
// }

The JavaScript specification defines indexed property access as performing a toString conversion on the index name. For example,

myObject[myProperty] = ...;

is the same as

myObject[myProperty.toString()] = ...;

This is necessary as in JavaScript


is the same as


And yes, it makes me sad as well :-(


I put together a small JavaScript module a while ago to produce hashcodes for strings, objects, arrays, etc. (I just committed it to GitHub :) )


// -2559914341
Hashcode.value({ 'site' : "stackoverflow" })
// -3579752159
  • 1
    That's cool but it chokes on circular references – Ryan Long Jun 22 '13 at 1:41
  • Doesn't javascript's GC choke on circular references too? – Clayton Rabenda Jul 2 '13 at 21:43
  • 3
    DOM elements have circular references up the wazoo... – Michael May 27 '14 at 23:24
  • 9
    @Metalstorm "then you need to refactor your code" Are you kidding? Every DOM element parent and child pair constitutes a circular reference. – Chris Middleton Jan 4 '15 at 13:49
  • 8
    It does a poor job hashing objects that have numerical properties, returning the same value in many cases, i.e. var hash1 = Hashcode.value({ a: 1, b: 2 }); var hash2 = Hashcode.value({ a: 2, b: 1 }); console.log(hash1, hash2); will log 2867874173 2867874173 – Julien Bérubé Mar 17 '15 at 16:35

In ECMAScript 6 there's now a Set that works how you'd like: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Set

It's already available in the latest Chrome, FF, and IE11.


Reference: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Symbol

you can use Es6 symbol to create unique key and access object. Every symbol value returned from Symbol() is unique. A symbol value may be used as an identifier for object properties; this is the data type's only purpose.

var obj = {};

obj[Symbol('a')] = 'a';
obj[Symbol.for('b')] = 'b';
obj['c'] = 'c';
obj.d = 'd';

Here's my simple solution that returns a unique integer.

function hashcode(obj) {
    var hc = 0;
    var chars = JSON.stringify(obj).replace(/\{|\"|\}|\:|,/g, '');
    var len = chars.length;
    for (var i = 0; i < len; i++) {
        // Bump 7 to larger prime number to increase uniqueness
        hc += (chars.charCodeAt(i) * 7);
    return hc;
  • 2
    Complexity of this undermines the whole idea behind hashCode() – tuxSlayer Sep 27 '17 at 3:47

My solution introduces a static function for the global Object object.

(function() {
    var lastStorageId = 0;

    this.Object.hash = function(object) {
        var hash = object.__id;

        if (!hash)
             hash = object.__id = lastStorageId++;

        return '#' + hash;

I think this is more convenient with other object manipulating functions in JavaScript.

  • 1
    Objects with the same internal values will hash to different hashes, this is not what a hash(code) does. – Metalstorm Apr 25 '14 at 17:44
  • In JavaScript (and I think in almost every other language too) two objects created with the same internal values are still different objects, because the underlaying data type is represented by a new object instance each. jsfiddle.net/h4G9f – Johnny Apr 25 '14 at 19:56
  • 4
    Yes but that is not what a hashcode is for, hashcodes are used for checking equality of an objects state. Just like a hash, same inputs go in (variable values) same hash comes out. What you are looking for is an UUID (which is what your function provides). – Metalstorm Apr 25 '14 at 22:15
  • 1
    You're right. I missunderstand the question. Really to bad, that the accepted answer does not provide a good solution either. – Johnny Apr 26 '14 at 12:05
  • Taking your function as well, I would be inclined to so it more like this: jsfiddle.net/xVSsd Same result, shorter (LoC + chars), and probably a tiny tiny bit faster :) – Metalstorm Apr 26 '14 at 16:32

If you truly want set behavior (I'm going by Java knowledge), then you will be hard pressed to find a solution in JavaScript. Most developers will recommend a unique key to represent each object, but this is unlike set, in that you can get two identical objects each with a unique key. The Java API does the work of checking for duplicate values by comparing hash code values, not keys, and since there is no hash code value representation of objects in JavaScript, it becomes almost impossible to do the same. Even the Prototype JS library admits this shortcoming, when it says:

"Hash can be thought of as an associative array, binding unique keys to values (which are not necessarily unique)..."



In addition to eyelidlessness's answer, here is a function that returns a reproducible, unique ID for any object:

var uniqueIdList = [];
function getConstantUniqueIdFor(element) {
    // HACK, using a list results in O(n), but how do we hash e.g. a DOM node?
    if (uniqueIdList.indexOf(element) < 0) {
    return uniqueIdList.indexOf(element);

As you can see it uses a list for look-up which is very inefficient, however that's the best I could find for now.


If you want to use objects as keys you need to overwrite their toString Method, as some already mentioned here. The hash functions that were used are all fine, but they only work for the same objects not for equal objects.

I've written a small library that creates hashes from objects, which you can easily use for this purpose. The objects can even have a different order, the hashes will be the same. Internally you can use different types for your hash (djb2, md5, sha1, sha256, sha512, ripemd160).

Here is a small example from the documentation:

var hash = require('es-hash');

// Save data in an object with an object as a key
Object.prototype.toString = function () {
    return '[object Object #'+hash(this)+']';

var foo = {};

foo[{bar: 'foo'}] = 'foo';

 * Output:
 *  foo
 *  undefined
console.log(foo[{bar: 'foo'}]);

The package can be used either in browser and in Node-Js.

Repository: https://bitbucket.org/tehrengruber/es-js-hash


If you want to have unique values in a lookup object you can do something like this:

Creating a lookup object

var lookup = {};

Setting up the hashcode function

function getHashCode(obj) {
    var hashCode = '';
    if (typeof obj !== 'object')
        return hashCode + obj;
    for (var prop in obj) // No hasOwnProperty needed
        hashCode += prop + getHashCode(obj[prop]); // Add key + value to the result string
    return hashCode;


var key = getHashCode({ 1: 3, 3: 7 });
// key = '1337'
lookup[key] = true;


var key = getHashCode([1, 3, 3, 7]);
// key = '01132337'
lookup[key] = true;

Other types

var key = getHashCode('StackOverflow');
// key = 'StackOverflow'
lookup[key] = true;

Final result

{ 1337: true, 01132337: true, StackOverflow: true }

Do note that getHashCode doesn't return any value when the object or array is empty

// '012'
// '012'

This is similar to @ijmacd solution only getHashCode doesn't has the JSON dependency.

  • You gotta have a problem with circular references with that – tuxSlayer Sep 27 '17 at 3:50
  • @tuxSlayer Thanks for letting me know. You could easily expand this code with your needs but I hope the idea is somewhat clear :) – A1rPun Sep 27 '17 at 15:09
  • This will produce very long keys for large objects which could hit memory and performance quite hard – Gershom Maes Dec 25 '17 at 22:46

I will try to go a little deeper than other answers.

Even if JS had better hashing support it would not magically hash everything perfectly, in many cases you will have to define your own hash function. For example Java has good hashing support, but you still have to think and do some work.

One problem is with the term hash/hashcode ... there is cryptographic hashing and non-cryptographic hashing. The other problem, is you have to understand why hashing is useful and how it works.

When we talk about hashing in JavaScript or Java most of the time we are talking about non-cryptographic hashing, usually about hashing for hashmap/hashtable (unless we are working on authentication or passwords, which you could be doing server-side using NodeJS ...).

It depends on what data you have and what you want to achieve.

Your data has some natural "simple" uniqueness:

  • The hash of an integer is ... the integer, as it is unique, lucky you !
  • The hash of a string ... it depends on the string, if the string represents a unique identifier, you may consider it as a hash (so no hashing needed).
  • Anything which is indirectly pretty much a unique integer is the simplest case
  • This will respect: hashcode equal if objects are equal

Your data has some natural "composite" uniqueness:

  • For example with a person object, you may compute a hash using firstname, lastname, birthdate, ... see how Java does it: Good Hash Function for Strings, or use some other ID info that is cheap and unique enough for your usecase

You have no idea what your data will be:

  • Good luck ... you could serialize to string and hash it Java style, but that may be expensive if the string is large and it will not avoid collisions as well as say the hash of an integer (self).

There is no magically efficient hashing technique for unknown data, in some cases it is quite easy, in other cases you may have to think twice. So even if JavaScript/ECMAScript adds more support, there is no magic language solution for this problem.

In practice you need two things: enough uniqueness, enough speed

In addition to that it is great to have: "hashcode equal if objects are equal"


I combined the answers from eyelidlessness and KimKha.

The following is an angularjs service and it supports numbers, strings, and objects.

exports.Hash = () => {
  let hashFunc;
  function stringHash(string, noType) {
    let hashString = string;
    if (!noType) {
      hashString = `string${string}`;
    var hash = 0;
    for (var i = 0; i < hashString.length; i++) {
        var character = hashString.charCodeAt(i);
        hash = ((hash<<5)-hash)+character;
        hash = hash & hash; // Convert to 32bit integer
    return hash;

  function objectHash(obj, exclude) {
    if (exclude.indexOf(obj) > -1) {
      return undefined;
    let hash = '';
    const keys = Object.keys(obj).sort();
    for (let index = 0; index < keys.length; index += 1) {
      const key = keys[index];
      const keyHash = hashFunc(key);
      const attrHash = hashFunc(obj[key], exclude);
      hash += stringHash(`object${keyHash}${attrHash}`, true);
    return stringHash(hash, true);

  function Hash(unkType, exclude) {
    let ex = exclude;
    if (ex === undefined) {
      ex = [];
    if (!isNaN(unkType) && typeof unkType !== 'string') {
      return unkType;
    switch (typeof unkType) {
      case 'object':
        return objectHash(unkType, ex);
        return stringHash(String(unkType));

  hashFunc = Hash;

  return Hash;

Example Usage:

Hash('hello world'), Hash('hello world') == Hash('hello world')
Hash({hello: 'hello world'}), Hash({hello: 'hello world'}) == Hash({hello: 'hello world'})
Hash({hello: 'hello world', goodbye: 'adios amigos'}), Hash({hello: 'hello world', goodbye: 'adios amigos'}) == Hash({goodbye: 'adios amigos', hello: 'hello world'})
Hash(['hello world']), Hash(['hello world']) == Hash(['hello world'])
Hash(1), Hash(1) == Hash(1)
Hash('1'), Hash('1') == Hash('1')


432700947 true
-411117486 true
1725787021 true
-1585332251 true
1 true
-1881759168 true


As you can see the heart of the service is the hash function created by KimKha.I have added types to the strings so that the sturucture of the object would also impact the final hash value.The keys are hashed to prevent array|object collisions.

eyelidlessness object comparision is used to prevent infinit recursion by self referencing objects.


I created this service so that I could have an error service that is accessed with objects. So that one service can register an error with a given object and another can determine if any errors were found.



ErrorSvc({id: 1, json: '{attr: "not-valid"}'}, 'Invalid Json Syntax - key not double quoted');


ErrorSvc({id: 1, json: '{attr: "not-valid"}'});

This would return:

['Invalid Json Syntax - key not double quoted']


ErrorSvc({id: 1, json: '{"attr": "not-valid"}'});

This would return


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