I need to convert strings to some form of hash. Is this possible in JavaScript?

I'm not utilizing a server-side language so I can't do it that way.

  • 6
    MD5 is not secure, so don't look for that one. – henrikstroem Aug 20 '13 at 20:30
  • 149
    @henrikstroem Depends on what you are hashing; there's nothing wrong with using md5 to make a hash for non-security purposes. – Brad Koch Jun 26 '14 at 17:18
  • 7
    @BradKoch Depends on what you are doing; there's nothing wrong for using md5 for security purposes. There are certainly better methods for hashing passwords, but md5 is just fine for doing things like signing a URL. – Paul Ferrett Mar 16 '15 at 7:05
  • 68
    I find it funny that while MD5 is criticised in comments here, almost all answers recommend much worse hash algorithms and get lots of upvotes. – domen Jan 28 '16 at 14:35
  • 27
    Using MD5 to verify that a download came intact is not magically going to email your passwords to all your co-workers. – James M. Lay Jan 6 '18 at 1:28

20 Answers 20

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

Source: http://werxltd.com/wp/2010/05/13/javascript-implementation-of-javas-string-hashcode-method/

  • 20
    This is the same one used in Java. The hash << 5 - hash is the same as hash * 31 + char but a LOT faster. It's nice because it's so fast, and 31 is a small prime. Win win there. – corsiKa Sep 30 '11 at 21:59
  • 39
    I did a few tests on jsperf (jsperf.com/hashing-strings) and the bitwise function is actually more slow than the number based function. – skerit Jun 29 '12 at 21:23
  • 16
    @PeterAronZentai Why is it "unusable"? The output produced by the number-based code (hash * 31) + char is identical to the output produced by the shift-based code ((hash<<5)-hash)+char, even for very long strings (I've tested it with strings containing over a million characters), so it's not "unusable" in terms of accuracy. The complexity is O(n) for both the number-based and shift-based versions, so it's not "unusable" in terms of complexity. – TachyonVortex Jul 19 '13 at 1:53
  • 10
    Can anyone comment on the uniqueness (or not) of the output? Specifically, if I only use this hash for strings with length less than n, what is the largest n for which I can't possibly have a collision? – Don McCurdy May 23 '14 at 5:26
  • 29
    Is there any reason this needs (or should) be on the String prototype? Would it be any less effective/efficient to just have eg; var hashCode = function hashCode (str) {etc...}? And then use as hashCode("mystring")? – rattray Aug 4 '14 at 14:24


based on my jsperf tests, the accepted answer is actually faster: http://jsperf.com/hashcodelordvlad


if anyone is interested, here is an improved ( faster ) version, which will fail on older browsers who lack the reduce array function.

hashCode = function(s){
  return s.split("").reduce(function(a,b){a=((a<<5)-a)+b.charCodeAt(0);return a&a},0);              
  • 1
    is there a way to get hash wich is positive number only? – Prosto Trader Nov 8 '13 at 15:26
  • 36
    weird. i just tested it and it turned out to be waaay slower than the accepted answer. jsperf.com/hashcodelordvlad – lordvlad Dec 18 '13 at 16:34
  • 88
    Good guy @lordvlad, actually testing his own answer, and then reporting when it was slower. – mikemaccana Feb 24 '14 at 13:32
  • 8
    I just realized: It makes perfect sense that the accepted answer is faster, because my version has to turn the string into an array first, allocating new memory and copying every character... – lordvlad Feb 22 '15 at 10:04
  • 5
    [].reduce.call(str, (p, c, i, a) => (p << 5) - p + a.charCodeAt(i), 0); – Dizzy Mar 24 '16 at 12:46

Note: Even with the best 32-bit hash, collisions will occur sooner or later.

The hash collision probablility can be calculated as 1 - e ^ (-k(k-1) / 2N, aproximated as k^2 / 2N (see here). This may be higher than intuition suggests:
Assuming a 32-bit hash and k=10,000 items, a collision will occur with a probablility of 1.2%. For 77,163 samples the probability becomes 50%! (calculator).
I suggest a workaround at the bottom.

In an answer to this question Which hashing algorithm is best for uniqueness and speed?, Ian Boyd posted a good in depth analysis. In short (as I interpret it), he comes to the conclusion that Murmur is best, followed by FNV-1a.
Java’s String.hashCode() algorithm that esmiralha proposed seems to be a variant of DJB2.

  • FNV-1a has a a better distribution than DJB2, but is slower
  • DJB2 is faster than FNV-1a, but tends to yield more collisions
  • MurmurHash3 is better and faster than DJB2 and FNV-1a (but the optimized implementation requires more lines of code than FNV and DJB2)

Some benchmarks with large input strings here: http://jsperf.com/32-bit-hash
When short input strings are hashed, murmur's performance drops, relative to DJ2B and FNV-1a: http://jsperf.com/32-bit-hash/3

So in general I would recommend murmur3.
See here for a JavaScript implementation: https://github.com/garycourt/murmurhash-js

If input strings are short and performance is more important than distribution quality, use DJB2 (as proposed by the accepted answer by esmiralha).

If quality and small code size are more important than speed, I use this implementation of FNV-1a (based on this code).

 * Calculate a 32 bit FNV-1a hash
 * Found here: https://gist.github.com/vaiorabbit/5657561
 * Ref.: http://isthe.com/chongo/tech/comp/fnv/
 * @param {string} str the input value
 * @param {boolean} [asString=false] set to true to return the hash value as 
 *     8-digit hex string instead of an integer
 * @param {integer} [seed] optionally pass the hash of the previous chunk
 * @returns {integer | string}
function hashFnv32a(str, asString, seed) {
    /*jshint bitwise:false */
    var i, l,
        hval = (seed === undefined) ? 0x811c9dc5 : seed;

    for (i = 0, l = str.length; i < l; i++) {
        hval ^= str.charCodeAt(i);
        hval += (hval << 1) + (hval << 4) + (hval << 7) + (hval << 8) + (hval << 24);
    if( asString ){
        // Convert to 8 digit hex string
        return ("0000000" + (hval >>> 0).toString(16)).substr(-8);
    return hval >>> 0;

Improve Collision Probability

As explained here, we can extend the hash bit size using this trick:

function hash64(str) {
    var h1 = hash32(str);  // returns 32 bit (as 8 byte hex string)
    return h1 + hash32(h1 + str);  // 64 bit (as 16 byte hex string)

Use it with care and don't expect too much though.

  • Why do you do ("0000000" + (hval >>> 0).toString(16)).substr(-8);? Isn't that the same as (hval >>> 0).toString(16)? – Manuel Meurer Oct 22 '14 at 14:14
  • 2
    this add leading '0's so that the resulting hash is always 8 chars long. Easier to read and recognize in outputs, but that's my personal opinion – mar10 Oct 22 '14 at 14:53
  • Ah ok, I get it. For small hval, (hval >>> 0).toString(16) might be less than 8 characters, so you pad it with zeros. I was just confused because (hval >>> 0).toString(16) always resulted in a exactly 8 character string for me. – Manuel Meurer Oct 22 '14 at 15:02
  • Sweet! I was struggling to find out how to XOR (^) in JS because it was returning negative numbers. This thing you did with hval did the trick. Now I have an algorithm that returns the same hash in C# as in JS. I will post them both below. Thanks! – djabraham May 4 '15 at 18:25
  • 2
    I love this answer because it produces a sooo much better distributed hash: other functions proposed here will make consequent hash values. Eg `hash("example1") - hash("example2") == 1", while this one is much more unpredictable. – GavinoGrifoni Oct 7 '16 at 6:26

Based on accepted answer in ES6. Smaller, maintainable and works in modern browsers.

function hashCode(str) {
  return str.split('').reduce((prevHash, currVal) =>
    (((prevHash << 5) - prevHash) + currVal.charCodeAt(0))|0, 0);

// Test
console.log("hashCode(\"Hello!\"): ", hashCode('Hello!'));

  • Thanks for sharing I added str += "" before hashing to avoid exception str.split is not a function thrown when non-strings were passed as parameters – BeetleJuice Jul 11 '16 at 10:17
  • 3
    But much, much slower than any of these: https://jsperf.com/hashing-strings – AndyO Apr 27 '17 at 9:34
  • I also just noticed that the fastest "retro" solution is actually smaller as well if you remove the line feeds so that it's only 3 lines long. – AndyO Apr 27 '17 at 9:47
  • 1
    Any way to have this produce only positive but still unique results? – Dids Nov 6 '17 at 13:01
  • 2
    @deekshith The accepted answer uses hash |= 0 to convert to an 32 bit int. This implementation does not. Is this a bug? – Sukima Mar 29 '18 at 14:35

If it helps anyone, I combined the top two answers into an older-browser-tolerant version, which uses the fast version if reduce is available and falls back to esmiralha's solution if it's not.

 * @see http://stackoverflow.com/q/7616461/940217
 * @return {number}
String.prototype.hashCode = function(){
    if (Array.prototype.reduce){
        return this.split("").reduce(function(a,b){a=((a<<5)-a)+b.charCodeAt(0);return a&a},0);              
    var hash = 0;
    if (this.length === 0) return hash;
    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;

Usage is like:

var hash = new String("some string to be hashed").hashCode();
  • how to optimize this code to run faster in every browser. String.prototype.hashCode = function(){ var hash = 5381; if (this.length === 0) return hash; for (var i = 0; i < this.length; i++) { var character = this.charCodeAt(i); hash = ((hash<<5)+hash)^character; // Convert to 32bit integer } return hash; } – Musakkhir Sayyed Jun 24 '15 at 9:54

Almost half the answers are implementations of Java's String.hashCode, which is neither high quality nor super fast. It's nothing too special, it just multiples by 31 each time. It can be implemented efficiently in one line, and is much faster with Math.imul:

var jhashcode=s=>{for(var i=0,h;i<s.length;i++)h=Math.imul(31,h)+s.charCodeAt(i)|0;return h}

So here's something different - a simple, well-distributed 53-bit hash. It's quite fast, provides higher quality hashes, and has significantly lower collision rates compared to any 32-bit hash.

const cyrb53 = function(str, seed = 0) {
    let h1 = 0xdeadbeef ^ seed, h2 = 0x41c6ce57 ^ seed;
    for (let i = 0, ch; i < str.length; i++) {
        ch = str.charCodeAt(i);
        h1 = Math.imul(h1 ^ ch, 2654435761);
        h2 = Math.imul(h2 ^ ch, 1597334677);
    h1 = Math.imul(h1 ^ h1>>>16, 2246822507) ^ Math.imul(h2 ^ h2>>>13, 3266489909);
    h2 = Math.imul(h2 ^ h2>>>16, 2246822507) ^ Math.imul(h1 ^ h1>>>13, 3266489909);
    return 4294967296 * (2097151 & h2) + (h1>>>0);

It uses techniques similar to xxHash/MurmurHash3, but not as thorough. It achieves avalanche (non-strict), so small changes in the input have big changes in the output, making it appear random:

0xc2ba782c97901 = cyrb53("a")
0xeda5bc254d2bf = cyrb53("b")
0xe64cc3b748385 = cyrb53("revenge")
0xd85148d13f93a = cyrb53("revenue")

You can also supply a seed for alternate streams of the same input:

0xee5e6598ccd5c = cyrb53("revenue", 1)
0x72e2831253862 = cyrb53("revenue", 2)
0x0de31708e6ab7 = cyrb53("revenue", 3)

Technically it's a 64-bit hash (two uncorrelated 32-bit hashes in parallel), but JavaScript is limited to 53-bit integers. The full 64 bits can still be used by altering the return line for a hex string or array:

return (h2>>>0).toString(16).padStart(8,0)+(h1>>>0).toString(16).padStart(8,0);
// or
return [h2>>>0, h1>>>0];

The catch is, constructing the hex string becomes the bottleneck on performance, and the array needs two comparison operators instead of one, which isn't as convenient. So keep that in mind when using it for high-performance applications.

And just for fun, here's a minimal 32-bit hash in 89 chars that still beats FNV/DJB2/SMDB:

TSH=s=>{for(var i=0,h=6;i<s.length;)h=Math.imul(h^s.charCodeAt(i++),9**9);return h^h>>>9}
  • 3
    Wow, this is so much better than the usual *31 one for short (or similar) inputs. :) – lapo Oct 3 '18 at 7:59
  • 1
    Where is ch initialized? – hellowill89 Jan 9 at 5:53
  • 2
    @hellowill89 woops, i forgot to declare it and was bleeding into global scope. fixed now, thanks :') – bryc Jan 10 at 0:31
  • Lol "cyrb53" that's a cool name for a hash function! @bryc – 0x5f3759df Mar 10 at 19:42
  • Failed for I.E 11: Object doesn't support property or method 'imul'. – BachT Mar 18 at 21:01

This is a refined and better performing variant:

String.prototype.hashCode = function() {
    var hash = 0, i = 0, len = this.length;
    while ( i < len ) {
        hash  = ((hash << 5) - hash + this.charCodeAt(i++)) << 0;
    return hash;

This matches Java's implementation of the standard object.hashCode()

Here is also one that returns only positive hashcodes:

String.prototype.hashcode = function() {
    return (this.hashCode() + 2147483647) + 1;

And here is a matching one for Java that only returns positive hashcodes:

public static long hashcode(Object obj) {
    return ((long) obj.hashCode()) + Integer.MAX_VALUE + 1l;



I'm a bit surprised nobody has talked about the new SubtleCrypto API yet.

To get an hash from a string, you can use the subtle.digest method :

function getHash(str, algo = "SHA-256") {
  let strBuf = new TextEncoder('utf-8').encode(str);
  return crypto.subtle.digest(algo, strBuf)
    .then(hash => {
      window.hash = hash;
      // here hash is an arrayBuffer, 
      // so we'll connvert it to its hex version
      let result = '';
      const view = new DataView(hash);
      for (let i = 0; i < hash.byteLength; i += 4) {
        result += ('00000000' + view.getUint32(i).toString(16)).slice(-8);
      return result;

getHash('hello world')
  .then(hash => {

  • 3
    I agree. The conversion to hex could be done a little different... var promise = crypto.subtle.digest({name: "SHA-256"}, Uint8Array.from(data)); promise.then(function(result){ console.log(Array.prototype.map.call(new Uint8Array(result), x => x.toString(16).padStart(2, '0')).join('')); }); – Denis Giffeler Oct 3 '17 at 15:01
  • 1
    A cryptographic hash function for strings is a bit overkill.. crypto isn't exactly performant. – bryc Oct 3 '18 at 22:43

Thanks to the example by mar10, I found a way to get the same results in C# AND Javascript for an FNV-1a. If unicode chars are present, the upper portion is discarded for the sake of performance. Don't know why it would be helpful to maintain those when hashing, as am only hashing url paths for now.

C# Version

private static readonly UInt32 FNV_OFFSET_32 = 0x811c9dc5;   // 2166136261
private static readonly UInt32 FNV_PRIME_32 = 0x1000193;     // 16777619

// Unsigned 32bit integer FNV-1a
public static UInt32 HashFnv32u(this string s)
    // byte[] arr = Encoding.UTF8.GetBytes(s);      // 8 bit expanded unicode array
    char[] arr = s.ToCharArray();                   // 16 bit unicode is native .net 

    UInt32 hash = FNV_OFFSET_32;
    for (var i = 0; i < s.Length; i++)
        // Strips unicode bits, only the lower 8 bits of the values are used
        hash = hash ^ unchecked((byte)(arr[i] & 0xFF));
        hash = hash * FNV_PRIME_32;
    return hash;

// Signed hash for storing in SQL Server
public static Int32 HashFnv32s(this string s)
    return unchecked((int)s.HashFnv32u());

JavaScript Version

var utils = utils || {};

utils.FNV_OFFSET_32 = 0x811c9dc5;

utils.hashFnv32a = function (input) {
    var hval = utils.FNV_OFFSET_32;

    // Strips unicode bits, only the lower 8 bits of the values are used
    for (var i = 0; i < input.length; i++) {
        hval = hval ^ (input.charCodeAt(i) & 0xFF);
        hval += (hval << 1) + (hval << 4) + (hval << 7) + (hval << 8) + (hval << 24);

    return hval >>> 0;

utils.toHex = function (val) {
    return ("0000000" + (val >>> 0).toString(16)).substr(-8);
  • Any performance reason to add the & 0xFF in JS version? – mathiasrw Jul 22 '17 at 23:39
  • @mathiasrw It's possible for Unicode characters to exceed 8 bits in memory, so I assume the 0xFF simply masks off anything outside that range. See more about charCodeAt() here: developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/… – djabraham Jul 25 '17 at 17:41
  • If ES6 is available (all modern engines support it), Math.imul can be used for the multiplication step, which greatly improves performance. Only issue is, it won't work in IE11 without a shim. – bryc Jan 10 at 1:18

I needed a similar function (but different) to generate a unique-ish ID based on the username and current time. So:

window.newId = ->
  # create a number based on the username
  unless window.userNumber?
    window.userNumber = 0
  for c,i in window.MyNamespace.userName
    char = window.MyNamespace.userName.charCodeAt(i)
  ((window.MyNamespace.userNumber + Math.floor(Math.random() * 1e15) + new Date().getMilliseconds()).toString(36)).toUpperCase()


... etc 

edit Jun 2015: For new code I use shortid: https://www.npmjs.com/package/shortid

  • 2
    @t0r0X well now I use a module called shortid: npmjs.com/package/shortid – jcollum Jun 23 '15 at 17:31
  • 1
    How are you using the username with shortid? It just seems to generate ids but I don't see how you are using to generate a hash from a string – cyberwombat Sep 12 '16 at 22:14
  • I'm not. I said for new code I just use shortid. – jcollum Sep 13 '16 at 0:10
  • 1
    This answer has 3 downvotes. For the life of me I can't imagine why. No one has said anything... :-/ – jcollum Feb 16 '17 at 17:18

A fast and concise one which was adapted from here:

String.prototype.hashCode = function() {
  var hash = 5381, i = this.length
    hash = (hash * 33) ^ this.charCodeAt(--i)
  return hash >>> 0;
  • @McDonald's haven't found a good solution yet – soulmachine Aug 20 '17 at 6:43

My quick (very long) one liner based on FNV's Multiply+Xor method:


I have combined the two solutions (users esmiralha and lordvlad) to get a function that should be faster for browsers that support the js function reduce() and still compatible with old browsers:

String.prototype.hashCode = function() {

    if (Array.prototype.reduce) {
        return this.split("").reduce(function(a,b){a=((a<<5)-a)+b.charCodeAt(0);return a&a},0);   
    } else {

        var hash = 0, i, chr, len;
        if (this.length == 0) return hash;
        for (i = 0, len = this.length; i < len; i++) {
        chr   = this.charCodeAt(i);
        hash  = ((hash << 5) - hash) + chr;
        hash |= 0; // Convert to 32bit integer
        return hash;


my_string = 'xyz';

If you want to avoid collisions you may want to use a secure hash like SHA-256. There are several JavaScript SHA-256 implementations.

I wrote tests to compare several hash implementations, see https://github.com/brillout/test-javascript-hash-implementations.

Or go to http://brillout.github.io/test-javascript-hash-implementations/, to run the tests.

  • 1
    Using a secure cryptographic hash can be extremely slow. Avoiding collisions is a product of the bit width, not security. 128 bit non-cryptographic hash or even 64 bits should be more than enough for most purposes. MurmurHash3_x86_128 is quite fast and has a very low chance of collisions. – bryc Dec 9 '18 at 3:44

I'm kinda late to the party, but you can use this module: crypto:

const crypto = require('crypto');

const SALT = '$ome$alt';

function generateHash(pass) {
  return crypto.createHmac('sha256', SALT)

The result of this function is always is 64 characters string; something like this: "aa54e7563b1964037849528e7ba068eb7767b1fab74a8d80fe300828b996714a"


I went for a simple concatenation of char codes converted to hex strings. This serves a relatively narrow purpose, namely just needing a hash representation of a SHORT string (e.g. titles, tags) to be exchanged with a server side that for not relevant reasons can't easily implement the accepted hashCode Java port. Obviously no security application here.

String.prototype.hash = function() {
  var self = this, range = Array(this.length);
  for(var i = 0; i < this.length; i++) {
    range[i] = i;
  return Array.prototype.map.call(range, function(i) {
    return self.charCodeAt(i).toString(16);

This can be made more terse and browser-tolerant with Underscore. Example:

"Lorem Ipsum".hash()

I suppose if you wanted to hash larger strings in similar fashion you could just reduce the char codes and hexify the resulting sum rather than concatenate the individual characters together:

String.prototype.hashLarge = function() {
  var self = this, range = Array(this.length);
  for(var i = 0; i < this.length; i++) {
    range[i] = i;
  return Array.prototype.reduce.call(range, function(sum, i) {
    return sum + self.charCodeAt(i);
  }, 0).toString(16);

'One time, I hired a monkey to take notes for me in class. I would just sit back with my mind completely blank while the monkey scribbled on little pieces of paper. At the end of the week, the teacher said, "Class, I want you to write a paper using your notes." So I wrote a paper that said, "Hello! My name is Bingo! I like to climb on things! Can I have a banana? Eek, eek!" I got an F. When I told my mom about it, she said, "I told you, never trust a monkey!"'.hashLarge()

Naturally more risk of collision with this method, though you could fiddle with the arithmetic in the reduce however you wanted to diversify and lengthen the hash.


Slightly simplified version of @esmiralha's answer.

I don't override String in this version, since that could result in some undesired behaviour.

function hashCode(str) {
    var hash = 0;
    for (var i = 0; i < str.length; i++) {
        hash = ~~(((hash << 5) - hash) + str.charCodeAt(i));
    return hash;

Adding this because nobody did yet, and this seems to be asked for and implemented a lot with hashes, but it's always done very poorly...

This takes a string input, and a maximum number you want the hash to equal, and produces a unique number based on the string input.

You can use this to produce a unique index into an array of images (If you want to return a specific avatar for a user, chosen at random, but also chosen based on their name, so it will always be assigned to someone with that name).

You can also use this, of course, to return an index into an array of colors, like for generating unique avatar background colors based on someone's name.

function hashInt (str, max = 1000) {
    var hash = 0;
    for (var i = 0; i < str.length; i++) {
      hash = ((hash << 5) - hash) + str.charCodeAt(i);
      hash = hash & hash;
    return Math.round(max * Math.abs(hash) / 2147483648);


I’m not utilizing a server-side language so I can’t do it that way.

Are you sure you can’t do it that way?

Did you forget you’re using Javascript, the language ever-evolving?

Try SubtleCrypto. It supports SHA-1, SHA-128, SHA-256, and SHA-512 hash functions.

async function hash(message/*: string */) {
	const text_encoder = new TextEncoder;
	const data = text_encoder.encode(message);
	const message_digest = await window.crypto.subtle.digest("SHA-512", data);
	return message_digest;
} // -> ArrayBuffer

function in_hex(data/*: ArrayBuffer */) {
	const octets = new Uint8Array(data);
	const hex = [].map.call(octets, octet => octet.toString(16).padStart(2, "0")).join("");
	return hex;
} // -> string

(async function demo() {
	console.log(in_hex(await hash("Thanks for the magic.")));


I do not see any reason to use this overcomplicated crypto code instead of ready-to-use solutions, like object-hash library, or etc. relying on vendor is more productive, saves time and reduces maintenance cost.

Just use https://github.com/puleos/object-hash

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

hash({foo: 'bar'}) // => '67b69634f9880a282c14a0f0cb7ba20cf5d677e9'
hash([1, 2, 2.718, 3.14159]) // => '136b9b88375971dff9f1af09d7356e3e04281951'
  • The source code of that lib isn't even readable.. just 50k of minified code. – bryc Feb 17 at 15:05
  • 1
    @bryc that's how vendor code supposed to look like :) and for sources you can check github.com/puleos/object-hash/blob/master/index.js – Oleg Abrazhaev Feb 19 at 8:10
  • Minified code is 35.4 KB while the full source is 14.2 KB? That makes no sense. – bryc Mar 19 at 16:35
  • @bryc have you considered this line? var crypto = require('crypto');. I think it adds this dependency code from the vendor in the minified version during a build. – Oleg Abrazhaev Mar 20 at 18:00

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