For my web application (in JavaScript) I want to generate short guids (for different objects - that are actually different types - strings and arrays of strings)

I want something like "aX4j9Z" for my uids (guids).

So these uids should be lightweight enough for web transfer and js string processing and quite unique for not a huge structure (not more than 10k elements). By saying "quite unique" I mean that after the generation of the uid I could check whether this uid does already exist in the structure and regenerate it if it does.

  • 2
    What is a "uid" and a "guid"? The simplest way to generate unique values is to start with a string like "x" then append a number generated by a counter, so you get "x0", "x1", and so on. What is the context for "unique"? Element ids and names? Properties of some object? Other? – RobG Jun 6 '11 at 6:57
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    Just putting a GISTS search link regarding this topic: gist.github.com/search?l=JavaScript&q=unique+id – vsync Jan 23 '20 at 10:36

10 Answers 10


See @Mohamed's answer for a pre-packaged solution (the shortid package). Prefer that instead of any other solutions on this page if you don't have special requirements.

A 6-character alphanumeric sequence is pretty enough to randomly index a 10k collection (366 = 2.2 billion and 363 = 46656).

function generateUID() {
    // I generate the UID from two parts here 
    // to ensure the random number provide enough bits.
    var firstPart = (Math.random() * 46656) | 0;
    var secondPart = (Math.random() * 46656) | 0;
    firstPart = ("000" + firstPart.toString(36)).slice(-3);
    secondPart = ("000" + secondPart.toString(36)).slice(-3);
    return firstPart + secondPart;

UIDs generated randomly will have collision after generating ~ √N numbers (birthday paradox), thus 6 digits are needed for safe generation without checking (the old version only generates 4 digits which would have a collision after 1300 IDs if you don't check).

If you do collision checking, the number of digits can be reduced 3 or 4, but note that the performance will reduce linearly when you generate more and more UIDs.

var _generatedUIDs = {};
function generateUIDWithCollisionChecking() {
    while (true) {
        var uid = ("0000" + ((Math.random() * Math.pow(36, 4)) | 0).toString(36)).slice(-4);
        if (!_generatedUIDs.hasOwnProperty(uid)) {
            _generatedUIDs[uid] = true;
            return uid;

Consider using a sequential generator (e.g. user134_item1, user134_item2, …) if you require uniqueness and not unpredictability. You could "Hash" the sequentially generated string to recover unpredictability.

UIDs generated using Math.random is not secure (and you shouldn't trust the client anyway). Do not rely on its uniqueness or unpredictability in mission critical tasks.

  • Nice. That's very clean. Could you explain why you + "1000" at the end? – Kranu Jun 6 '11 at 7:04
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    @Kranu - in the off-chance that it generates a random number of "0", or ".000000000001", etc. and the final string ends up like "4z". The "0000" ensures that it's always at least 4-characters long – Mark Kahn Jun 6 '11 at 7:07
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    @RobG: Because OP wants a "short" UID. – kennytm Jun 6 '11 at 7:14
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    @RobG: That works well if it needs to be unique only for the client in one session ensuring no race condition. – kennytm Jun 6 '11 at 7:22
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    For small blocks of random ID's this works ++, short and sweet without the need for downloading an external lib. Currently using to generate IDs for dynamically created HTML elements. – Mark Carpenter Jr May 18 '18 at 14:37

Update 08/2020:

shortid has been deprecated in favor of nanoid which is smaller and faster:

  • Small. 108 bytes (minified and gzipped). No dependencies. Size Limit controls the size.
  • Fast. It is 40% faster than UUID.
  • Safe. It uses cryptographically strong random APIs. Can be used in clusters.
  • Compact. It uses a larger alphabet than UUID (A-Za-z0-9_-). So ID size was reduced from 36 to 21 symbols.
  • Portable. Nano ID was ported to 14 programming languages.
import { nanoid } from 'nanoid'

// 21 characters (default)
// ~149 billion years needed, in order to have a 1% probability of at least one collision.
console.log(nanoid()) //=> "V1StGXR8_Z5jdHi6B-myT"

// 11 characters
// ~139 years needed, in order to have a 1% probability of at least one collision.
console.log(nanoid(11)) //=> "bdkjNOkq9PO"

More info here : https://zelark.github.io/nano-id-cc/

Old answer

There is also an awesome npm package for this : shortid

Amazingly short non-sequential url-friendly unique id generator.

ShortId creates amazingly short non-sequential url-friendly unique ids. Perfect for url shorteners, MongoDB and Redis ids, and any other id users might see.

  • By default 7-14 url-friendly characters: A-Z, a-z, 0-9, _-
  • Non-sequential so they are not predictable.
  • Supports cluster (automatically), custom seeds, custom alphabet.
  • Can generate any number of ids without duplicates, even millions per day.
  • Perfect for games, especially if you are concerned about cheating so you don't want an easily guessable id.
  • Apps can be restarted any number of times without any chance of repeating an id.
  • Popular replacement for Mongo ID/Mongoose ID.
  • Works in Node, io.js, and web browsers.
  • Includes Mocha tests.


var shortid = require('shortid');
console.log(shortid.generate()); //PPBqWA9
  • This should be the accepted answer in my opinion. Another option, which is nowhere near as as good, is of course replacing the hyphens with spaces, replace(/[-]/g, ''), which gets down to a length of 32. – What Would Be Cool Nov 10 '19 at 15:38
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    Very much disagree that "download a potentially harmful package" should be the answer to programming questions. – Fredrik Schön Nov 10 '19 at 22:45
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    I also strongly disagree. Devs come here for code answers and to learn, not to see download links to NPM packages, regardless of their perfection. For my use-case I cannot use any package, and must integrate a solution within the code itself. – vsync Jan 22 '20 at 22:02
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    I disagree with the disagreers! The OP wants UIDs. The OP does not express your additional constraints. For most people, a well-tested library is better than reinventing the wheel, and is the correct solution. If you have a different problem, you can post a different question or an alternative answer. – charles-allen May 14 '20 at 2:54
  • @AjahnCharles But you would surely disagree with the statement that this should be the accepted answer, you would not? It's a valid solution that has its right here, but it's not an accepted answer, rightfully. – Martin Braun Jul 6 '20 at 13:11

Here is a one liner, but it gives only lowercase letters and numbers:

var uuid = Math.random().toString(36).slice(-6);


  • 2
    One can feed in Date.now() to get a sequence with some meaning: Math.floor(Date.now() / 1000).toString(36); – Campbeln Feb 21 at 9:18

The following generates 62^3 (238,328) unique values of 3 characters provided case sensitivity is unique and digits are allowed in all positions. If case insensitivity is required, remove either upper or lower case characters from chars string and it will generate 35^3 (42,875) unique values.

Can be easily adapted so that first char is always a letter, or all letters.

No dobut it can be optimised, and could also refuse to return an id when the limit is reached.

var nextId = (function() {
  var nextIndex = [0,0,0];
  var chars = '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ'.split('');
  var num = chars.length;

  return function() {
    var a = nextIndex[0];
    var b = nextIndex[1];
    var c = nextIndex[2];
    var id = chars[a] + chars[b] + chars[c];

    a = ++a % num;

    if (!a) {
      b = ++b % num; 

      if (!b) {
        c = ++c % num; 
    nextIndex = [a, b, c]; 
    return id;

Get a simple counter to start from 100000000, convert the number into radix 36.

(100000000).toString(36);  //1njchs

(2100000000).toString(36); //yqaadc

You can comfortably have 2 billion elegant unique ids, just like YouTube

var letters = 'abcdefghijklmnopqrstuvwxyz';
var numbers = '1234567890';
var charset = letters + letters.toUpperCase() + numbers;

function randomElement(array) {
    with (Math)
        return array[floor(random()*array.length)];

function randomString(length) {
    var R = '';
    for(var i=0; i<length; i++)
        R += randomElement(charset);
    return R;
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    please explain reason for downvoting a correct and elegant answer, while not downvoting the other similar answer, thanks – ninjagecko Jun 6 '11 at 7:08
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    I wasn't the down-vote, but I'm almost willing to give another simply for the with(Math) evilness :) – Mark Kahn Jun 6 '11 at 7:11
  • @cwolves - I think with has the potential to be used without issue in non-performance code, and that the "with is EVIL" is easily taken to an extreme. =) Neither is performance a factor (if it is merely don't use it), nor is creating or clobbering variables an issue (no assignments are made), nor is confusion with a global variables an issue here. I would rather take a small performance hit than have to redefine the entire Math module in global scope. – ninjagecko Jun 6 '11 at 7:20
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    @cwolves - actually nevermind, I just realized that if one does with (Math) and one defines a variable var max = ... then one will overwrite Math.max......... okay not using with anymore – ninjagecko Jun 6 '11 at 7:23
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    I don't really care about the performance of it, it's more the nuances of it, and the fact that you have to go searching previous lines of code in order to determine what floor and random actually refer to – Mark Kahn Jun 6 '11 at 7:24

This will generate a sequence of unique values. It improves on RobG's answer by growing the string length when all values have been exhaused.

var IdGenerator = (function () {

    var defaultCharset = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz1234567890!@#$%^&*()_-+=[]{};:?/.>,<|".split("");

    var IdGenerator = function IdGenerator(charset) {
        this._charset = (typeof charset === "undefined") ? defaultCharset : charset;

    IdGenerator.prototype._str = function () {
        var str = "",
            perm = this._perm,
            chars = this._charset,
            len = perm.length,
        for (i = 0; i < len; i++) {
            str += chars[perm[i]];
        return str;

    IdGenerator.prototype._inc = function () {
        var perm = this._perm,
            max = this._charset.length - 1,
        for (i = 0; true; i++) {
            if (i > perm.length - 1) {
            } else {
                if (perm[i] > max) {
                    perm[i] = 0;
                } else {

    IdGenerator.prototype.reset = function () {
        this._perm = [];

    IdGenerator.prototype.current = function () {
        return this._str();

    IdGenerator.prototype.next = function () {
        return this._str();

    return IdGenerator;



var g = new IdGenerator(),

for (i = 0; i < 100; i++) {

This gist contains the above implementation and a recursive version.


You can shorten a GUID to 20 printable ASCII characters without losing information or the uniqueness of the GUID.

Jeff Atwood blogged about that years ago:
Equipping our ASCII Armor


just randomly generate some strings:

function getUID(len){
    var chars = 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789',
          out = '';

    for(var i=0, clen=chars.length; i<len; i++){
       out += chars.substr(0|Math.random() * clen, 1);

    // ensure that the uid is unique for this page
    return getUID.uids[out] ? getUID(len) : (getUID.uids[out] = out);
getUID.uids = {};
  • 2
    It seems inefficient to generate random strings then have to test to see if they are unique. It is quite simple to generate unique strings (where unique has some scope or context), either with or without a randomly generated component using a simple counter. – RobG Jun 6 '11 at 7:02
  • @RobG - The odds of one of these being non-unique is absurdly low if you're generating 6-digit keys (there are 56.8 billion unique keys with this). There will almost never be a collision so there will almost never be re-generation. – Mark Kahn Jun 6 '11 at 7:06
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    @cwolves - why leave any chance when it can be simply avoided? And why generate a value that must then be checked for uniqueness when you can generate a guaranteed unique value in the first place? – RobG Jun 6 '11 at 7:48
  • @RobG - because the OP may not want "000", "001", ... "00z", "00A", ... and generating these randomly is the simple way around that. Even if you were to hash them, you still need basic collision detection of the hash. Also, these may be being used between page loads, etc in which case you don't always want to start at 1. My general argument is that if the OP just wants a guid for the page, a simple counter works fine. Since the OP didn't ask for a counter, providing a base-62 counter isn't that useful either. – Mark Kahn Jun 6 '11 at 7:54
  • The OP can generate the required number of IDs and randomly assign them so they aren't sequential (not specified in the question, but maybe it's needed). – RobG Jun 6 '11 at 7:59

You can use the md5 algorithm for generating a random string. md5 is the node package

 var randomChars = Math.random().toString(36).replace(/[^a-z]+/g, '').substr(0, 2);
 var shortUrl = md5(originalUrl + randomChars + new Date()).substring(0, 5).toString();

This will generate unique string every time.

  • @vsync Is it the right solution? md5 package for Node. – Prathamesh More Jan 23 '20 at 6:14

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