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How do I create GUIDs (globally-unique identifiers) in JavaScript? The GUID / UUID should be at least 32 characters and should stay in the ASCII range to avoid trouble when passing them around.

I'm not sure what routines are available on all browsers, how "random" and seeded the built-in random number generator is, etc.

7

74 Answers 74

5585
+50

[Edited 2023-03-05 to reflect latest best-practices for producing RFC4122-compliant UUIDs]

crypto.randomUUID() is now standard on all modern browsers and JS runtimes. However, because new browser APIs are restricted to secure contexts, this method is only available to pages served locally (localhost or 127.0.0.1) or over HTTPS.

For readers interested in other UUID versions, generating UUIDs on legacy platforms or in non-secure contexts, there is the uuid module. It is well-tested and supported.

Failing the above, there is this method (based on the original answer to this question):

function uuidv4() {
  return "10000000-1000-4000-8000-100000000000".replace(/[018]/g, c =>
    (c ^ crypto.getRandomValues(new Uint8Array(1))[0] & 15 >> c / 4).toString(16)
  );
}

console.log(uuidv4());

Note: The use of any UUID generator that relies on Math.random() is strongly discouraged (including snippets featured in previous versions of this answer) for reasons best explained here. TL;DR: solutions based on Math.random() do not provide good uniqueness guarantees.

15
  • 177
    Surely the answer to @Muxa's question is 'no'? It's never truly safe to trust something that came from the client. I guess it depends on how likely your users are to bring up a javascript console and manually change the variable so to something they want. Or they could just POST you back the id that they want. It would also depend on whether the user picking their own ID is going to cause vulnerabilities. Either way, if it's a random number ID that's going into a table, I would probably be generating it server-side, so that I know I have control over the process. Nov 1, 2012 at 14:34
  • 49
    @DrewNoakes - UUIDs aren't just a string of completely random #'s. The "4" is the uuid version (4 = "random"). The "y" marks where the uuid variant (field layout, basically) needs to be embedded. See sections 4.1.1 and 4.1.3 of ietf.org/rfc/rfc4122.txt for more info.
    – broofa
    Nov 27, 2012 at 22:13
  • 22
    im a bit confused, in javascript [1e7]+-1e3 does not really mean anything, an array is added to a number? what am I missing? note: in typescript it does not pass
    – Ayyash
    Oct 20, 2021 at 12:14
  • 12
    Typescript users: you can add <any> right before the first array, like this: <any>[1e7] - quick way to get it to pass. May 25, 2022 at 3:39
  • 6
    I like the custom solution, except for the expression [1e7]+-1e3+-4e3+-8e3+-1e11 in it. I personally prefer the expression `${1e7}-${1e3}-${4e3}-${8e3}-${1e11}` instead. It's somewhat longer, but also somewhat clearer to me. And it allows me to easily change the generated UUID's format as well. Jul 12, 2022 at 11:19
2631

UUIDs (Universally Unique IDentifier), also known as GUIDs (Globally Unique IDentifier), according to RFC 4122, are identifiers designed to provide certain uniqueness guarantees.

While it is possible to implement RFC-compliant UUIDs in a few lines of JavaScript code (e.g., see @broofa's answer, below) there are several common pitfalls:

  • Invalid id format (UUIDs must be of the form "xxxxxxxx-xxxx-Mxxx-Nxxx-xxxxxxxxxxxx", where x is one of [0-9, a-f] M is one of [1-5], and N is [8, 9, a, or b]
  • Use of a low-quality source of randomness (such as Math.random)

Thus, developers writing code for production environments are encouraged to use a rigorous, well-maintained implementation such as the uuid module.

14
  • 213
    Actually, the RFC allows for UUIDs that are created from random numbers. You just have to twiddle a couple of bits to identify it as such. See section 4.4. Algorithms for Creating a UUID from Truly Random or Pseudo-Random Numbers: rfc-archive.org/getrfc.php?rfc=4122 Sep 19, 2008 at 20:28
  • 70
    This should not be the accepted answer. It does not actually answer the question - instead encouraging the import of 25,000 lines of code for something you can do with one line of code in any modern browser. Jul 8, 2020 at 0:36
  • 1
    @AbhiBeckert the answer is from 2008 and for node.js projects it might be valid to choose a dependency more over project size
    – Phil
    Sep 29, 2020 at 13:48
  • 9
    @Phil this is a "highly active question", which means it should have an excellent answer with a green tick. Unfortunately that's not the case. There is nothing wrong or incorrect with this answer (if there was, I'd edit the answer) - but another far better answer exists below and I think it should be at the top of the list. Also the question is specifically relating to javascript in a browser, not node.js. Oct 8, 2020 at 3:47
  • 3
    I challenge the claim that Math.random is that low of a quality of randomness. v8.dev/blog/math-random. As you can see, it's passes a good test suite, and the same algorithm is used by v8, FF and Safari. And the RFC states, pseudo-random numbers are acceptable for UUIDs
    – Munawwar
    May 27, 2021 at 8:38
1009

I really like how clean Broofa's answer is, but it's unfortunate that poor implementations of Math.random leave the chance for collision.

Here's a similar RFC4122 version 4 compliant solution that solves that issue by offsetting the first 13 hex numbers by a hex portion of the timestamp, and once depleted offsets by a hex portion of the microseconds since pageload. That way, even if Math.random is on the same seed, both clients would have to generate the UUID the exact same number of microseconds since pageload (if high-perfomance time is supported) AND at the exact same millisecond (or 10,000+ years later) to get the same UUID:

function generateUUID() { // Public Domain/MIT
    var d = new Date().getTime();//Timestamp
    var d2 = ((typeof performance !== 'undefined') && performance.now && (performance.now()*1000)) || 0;//Time in microseconds since page-load or 0 if unsupported
    return 'xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx'.replace(/[xy]/g, function(c) {
        var r = Math.random() * 16;//random number between 0 and 16
        if(d > 0){//Use timestamp until depleted
            r = (d + r)%16 | 0;
            d = Math.floor(d/16);
        } else {//Use microseconds since page-load if supported
            r = (d2 + r)%16 | 0;
            d2 = Math.floor(d2/16);
        }
        return (c === 'x' ? r : (r & 0x3 | 0x8)).toString(16);
    });
}

var onClick = function(){
    document.getElementById('uuid').textContent = generateUUID();
}
onClick();
#uuid { font-family: monospace; font-size: 1.5em; }
<p id="uuid"></p>
<button id="generateUUID" onclick="onClick();">Generate UUID</button>

Here's a fiddle to test.


Modernized snippet for ES6

const generateUUID = () => {
  let
    d = new Date().getTime(),
    d2 = ((typeof performance !== 'undefined') && performance.now && (performance.now() * 1000)) || 0;
  return 'xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx'.replace(/[xy]/g, c => {
    let r = Math.random() * 16;
    if (d > 0) {
      r = (d + r) % 16 | 0;
      d = Math.floor(d / 16);
    } else {
      r = (d2 + r) % 16 | 0;
      d2 = Math.floor(d2 / 16);
    }
    return (c == 'x' ? r : (r & 0x7 | 0x8)).toString(16);
  });
};

const onClick = (e) => document.getElementById('uuid').textContent = generateUUID();

document.getElementById('generateUUID').addEventListener('click', onClick);

onClick();
#uuid { font-family: monospace; font-size: 1.5em; }
<p id="uuid"></p>
<button id="generateUUID">Generate UUID</button>

11
  • 38
    Bear in mind, new Date().getTime() is not updated every millisecond. I'm not sure how this affects the expected randomness of your algorithm.
    – devios1
    Mar 18, 2012 at 17:27
  • 95
    performance.now would be even better. Unlike Date.now, the timestamps returned by performance.now() are not limited to one-millisecond resolution. Instead, they represent times as floating-point numbers with up to microsecond precision. Also unlike Date.now, the values returned by performance.now() always increase at a constant rate, independent of the system clock which might be adjusted manually or skewed by software such as the Network Time Protocol. Mar 13, 2014 at 4:25
  • The actual time resolution may or may not be 17 ms (1/60 second), not 1 ms. Dec 30, 2020 at 3:28
  • Would Crypto.getRandomValues fix the main problems with Math.random??
    – John
    Apr 1, 2021 at 22:07
  • 3
    @NaveenReddyMarthala Node.js by default runs JavaScript in strict mode, which unfortunately doesn't allow boolean logic operators to shorthand check the truthiness of undefined variables. To fix this, try replacing var d2 = (performance .. with var d2 = (typeof performance !== 'undefined' .. as in the update version. The other option (which will actually utilize the enhanced precision of performance with Node.js rather than throwing it away) is to re-add const { performance } = require('perf_hooks'); in your requirements.
    – Briguy37
    Sep 13, 2021 at 14:47
552

broofa's answer is pretty slick, indeed - impressively clever, really... RFC4122 compliant, somewhat readable, and compact. Awesome!

But if you're looking at that regular expression, those many replace() callbacks, toString()'s and Math.random() function calls (where he's only using four bits of the result and wasting the rest), you may start to wonder about performance. Indeed, joelpt even decided to toss out an RFC for generic GUID speed with generateQuickGUID.

But, can we get speed and RFC compliance? I say, YES! Can we maintain readability? Well... Not really, but it's easy if you follow along.

But first, my results, compared to broofa, guid (the accepted answer), and the non-rfc-compliant generateQuickGuid:

                  Desktop   Android
           broofa: 1617ms   12869ms
               e1:  636ms    5778ms
               e2:  606ms    4754ms
               e3:  364ms    3003ms
               e4:  329ms    2015ms
               e5:  147ms    1156ms
               e6:  146ms    1035ms
               e7:  105ms     726ms
             guid:  962ms   10762ms
generateQuickGuid:  292ms    2961ms
  - Note: 500k iterations, results will vary by browser/CPU.

So by my 6th iteration of optimizations, I beat the most popular answer by over 12 times, the accepted answer by over 9 times, and the fast-non-compliant answer by 2-3 times. And I'm still RFC 4122 compliant.

Interested in how? I've put the full source on http://jsfiddle.net/jcward/7hyaC/3/ and on https://jsben.ch/xczxS

For an explanation, let's start with broofa's code:

function broofa() {
    return 'xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx'.replace(/[xy]/g, function(c) {
        var r = Math.random()*16|0, v = c == 'x' ? r : (r&0x3|0x8);
        return v.toString(16);
    });
}

console.log(broofa())

So it replaces x with any random hexadecimal digit, y with random data (except forcing the top two bits to 10 per the RFC spec), and the regex doesn't match the - or 4 characters, so he doesn't have to deal with them. Very, very slick.

The first thing to know is that function calls are expensive, as are regular expressions (though he only uses 1, it has 32 callbacks, one for each match, and in each of the 32 callbacks it calls Math.random() and v.toString(16)).

The first step toward performance is to eliminate the RegEx and its callback functions and use a simple loop instead. This means we have to deal with the - and 4 characters whereas broofa did not. Also, note that we can use String Array indexing to keep his slick String template architecture:

function e1() {
    var u='',i=0;
    while(i++<36) {
        var c='xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx'[i-1],r=Math.random()*16|0,v=c=='x'?r:(r&0x3|0x8);
        u+=(c=='-'||c=='4')?c:v.toString(16)
    }
    return u;
}

console.log(e1())

Basically, the same inner logic, except we check for - or 4, and using a while loop (instead of replace() callbacks) gets us an almost 3X improvement!

The next step is a small one on the desktop but makes a decent difference on mobile. Let's make fewer Math.random() calls and utilize all those random bits instead of throwing 87% of them away with a random buffer that gets shifted out each iteration. Let's also move that template definition out of the loop, just in case it helps:

function e2() {
    var u='',m='xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx',i=0,rb=Math.random()*0xffffffff|0;
    while(i++<36) {
        var c=m[i-1],r=rb&0xf,v=c=='x'?r:(r&0x3|0x8);
        u+=(c=='-'||c=='4')?c:v.toString(16);rb=i%8==0?Math.random()*0xffffffff|0:rb>>4
    }
    return u
}

console.log(e2())

This saves us 10-30% depending on platform. Not bad. But the next big step gets rid of the toString function calls altogether with an optimization classic - the look-up table. A simple 16-element lookup table will perform the job of toString(16) in much less time:

function e3() {
    var h='0123456789abcdef';
    var k='xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx';
    /* same as e4() below */
}
function e4() {
    var h=['0','1','2','3','4','5','6','7','8','9','a','b','c','d','e','f'];
    var k=['x','x','x','x','x','x','x','x','-','x','x','x','x','-','4','x','x','x','-','y','x','x','x','-','x','x','x','x','x','x','x','x','x','x','x','x'];
    var u='',i=0,rb=Math.random()*0xffffffff|0;
    while(i++<36) {
        var c=k[i-1],r=rb&0xf,v=c=='x'?r:(r&0x3|0x8);
        u+=(c=='-'||c=='4')?c:h[v];rb=i%8==0?Math.random()*0xffffffff|0:rb>>4
    }
    return u
}

console.log(e4())

The next optimization is another classic. Since we're only handling four bits of output in each loop iteration, let's cut the number of loops in half and process eight bits in each iteration. This is tricky since we still have to handle the RFC compliant bit positions, but it's not too hard. We then have to make a larger lookup table (16x16, or 256) to store 0x00 - 0xFF, and we build it only once, outside the e5() function.

var lut = []; for (var i=0; i<256; i++) { lut[i] = (i<16?'0':'')+(i).toString(16); }
function e5() {
    var k=['x','x','x','x','-','x','x','-','4','x','-','y','x','-','x','x','x','x','x','x'];
    var u='',i=0,rb=Math.random()*0xffffffff|0;
    while(i++<20) {
        var c=k[i-1],r=rb&0xff,v=c=='x'?r:(c=='y'?(r&0x3f|0x80):(r&0xf|0x40));
        u+=(c=='-')?c:lut[v];rb=i%4==0?Math.random()*0xffffffff|0:rb>>8
    }
    return u
}

console.log(e5())

I tried an e6() that processes 16-bits at a time, still using the 256-element LUT, and it showed the diminishing returns of optimization. Though it had fewer iterations, the inner logic was complicated by the increased processing, and it performed the same on desktop, and only ~10% faster on mobile.

The final optimization technique to apply - unroll the loop. Since we're looping a fixed number of times, we can technically write this all out by hand. I tried this once with a single random variable, r, that I kept reassigning, and performance tanked. But with four variables assigned random data up front, then using the lookup table, and applying the proper RFC bits, this version smokes them all:

var lut = []; for (var i=0; i<256; i++) { lut[i] = (i<16?'0':'')+(i).toString(16); }
function e7()
{
    var d0 = Math.random()*0xffffffff|0;
    var d1 = Math.random()*0xffffffff|0;
    var d2 = Math.random()*0xffffffff|0;
    var d3 = Math.random()*0xffffffff|0;
    return lut[d0&0xff]+lut[d0>>8&0xff]+lut[d0>>16&0xff]+lut[d0>>24&0xff]+'-'+
    lut[d1&0xff]+lut[d1>>8&0xff]+'-'+lut[d1>>16&0x0f|0x40]+lut[d1>>24&0xff]+'-'+
    lut[d2&0x3f|0x80]+lut[d2>>8&0xff]+'-'+lut[d2>>16&0xff]+lut[d2>>24&0xff]+
    lut[d3&0xff]+lut[d3>>8&0xff]+lut[d3>>16&0xff]+lut[d3>>24&0xff];
}

console.log(e7())

Modualized: http://jcward.com/UUID.js - UUID.generate()

The funny thing is, generating 16 bytes of random data is the easy part. The whole trick is expressing it in string format with RFC compliance, and it's most tightly accomplished with 16 bytes of random data, an unrolled loop and lookup table.

I hope my logic is correct -- it's very easy to make a mistake in this kind of tedious bit work. But the outputs look good to me. I hope you enjoyed this mad ride through code optimization!

Be advised: my primary goal was to show and teach potential optimization strategies. Other answers cover important topics such as collisions and truly random numbers, which are important for generating good UUIDs.

8
  • 27
    This code still contains a couple of errors: the Math.random()*0xFFFFFFFF lines should be Math.random()*0x100000000 for full randomness, and >>>0 should be used instead of |0 to keep the values unsigned (though with the current code I think it gets away OK even though they are signed). Finally it would be a very good idea these days to use window.crypto.getRandomValues if available, and fall-back to Math.random only if absolutely necessary. Math.random may well have less than 128 bits of entropy, in which case this would be more vulnerable to collisions than necessary.
    – Dave
    Jul 18, 2015 at 17:55
  • 17
    Can I just say -- I cannot count how many times I've pointed devs to this answer because it so beautifully points out the tradeoffs between performance, code-elegance, and readability. Thank you Jeff.
    – Nemesarial
    Nov 6, 2020 at 14:07
  • I don't know if @Broofa's answer has changed since these tests were run (or if the browser engines running the tests have changed - it has been five years), but I just ran them both on two different benchmarking services (jsben.ch and jsbench.github.io), and in each case Broofa's answer (using Math.random) was faster than this e7() version by 30 - 35%.
    – Andrew
    Nov 17, 2020 at 21:24
  • @Andy is right. Broofa's code is faster as of Aug 2021. I implemented Dave's suggestions and ran the test myself. But I don't imagine the difference should matter all that much in production: jsbench.github.io/#80610cde9bc93d0f3068e5793e60ff11
    – Doomd
    Aug 12, 2021 at 22:38
  • 1
    @bedalton: Why would we compare broofa's answer to "the e4 version"? The "4" in e4 simply refers to the iteration of optimization and not to the version of UUID, right?
    – rinogo
    Oct 21, 2021 at 2:05
224

Use:

let uniqueId = Date.now().toString(36) + Math.random().toString(36).substring(2);

document.getElementById("unique").innerHTML =
  Math.random().toString(36).substring(2) + (new Date()).getTime().toString(36);
<div id="unique">
</div>

If IDs are generated more than 1 millisecond apart, they are 100% unique.

If two IDs are generated at shorter intervals, and assuming that the random method is truly random, this would generate IDs that are 99.99999999999999% likely to be globally unique (collision in 1 of 10^15).

You can increase this number by adding more digits, but to generate 100% unique IDs you will need to use a global counter.

If you need RFC compatibility, this formatting will pass as a valid version 4 GUID:

let u = Date.now().toString(16) + Math.random().toString(16) + '0'.repeat(16);
let guid = [u.substr(0,8), u.substr(8,4), '4000-8' + u.substr(13,3), u.substr(16,12)].join('-');

let u = Date.now().toString(16)+Math.random().toString(16)+'0'.repeat(16);
let guid = [u.substr(0,8), u.substr(8,4), '4000-8' + u.substr(13,3), u.substr(16,12)].join('-');
document.getElementById("unique").innerHTML = guid;
<div id="unique">
</div>

The above code follow the intention, but not the letter of the RFC. Among other discrepancies it's a few random digits short. (Add more random digits if you need it) The upside is that this is really fast :) You can test validity of your GUID here

10
  • 10
    This is not UUID though? Dec 26, 2017 at 23:28
  • 12
    Relaying on MAC addresses for uniqueness on virtual machines is a bad idea! Feb 18, 2018 at 0:48
  • 1
    I do something like this, but with leading characters and some dashes (e.g [slug, date, random].join("_") to create usr_1dcn27itd_hj6onj6phr. It makes it so the id also doubles as a "created at" field
    – Seph Reed
    Jun 6, 2019 at 19:23
  • 1
    Building on @SephReed's comment, I think having the date part first is nice since it sorts chronologically, which may provide benefits later if storing or indexing the IDs.
    – totalhack
    Oct 14, 2020 at 20:15
  • 3
    For those wondering: toString(36) converts in a base-36 numeration (0..9a..z). Example: (35).toString(36) is z.
    – Basj
    Dec 15, 2020 at 8:57
193

Here's some code based on RFC 4122, section 4.4 (Algorithms for Creating a UUID from Truly Random or Pseudo-Random Number).

function createUUID() {
    // http://www.ietf.org/rfc/rfc4122.txt
    var s = [];
    var hexDigits = "0123456789abcdef";
    for (var i = 0; i < 36; i++) {
        s[i] = hexDigits.substr(Math.floor(Math.random() * 0x10), 1);
    }
    s[14] = "4";  // bits 12-15 of the time_hi_and_version field to 0010
    s[19] = hexDigits.substr((s[19] & 0x3) | 0x8, 1);  // bits 6-7 of the clock_seq_hi_and_reserved to 01
    s[8] = s[13] = s[18] = s[23] = "-";

    var uuid = s.join("");
    return uuid;
}
2
  • 6
    You should declare the array size beforehand rather than sizing it dynamically as you build the GUID. var s = new Array(36);
    – MgSam
    Mar 25, 2013 at 20:03
  • 2
    I think there's a very minor bug in the line that sets bits bits 6-7 of the clock_seq_hi_and_reserved to 01. Since s[19] is a character '0'..'f' and not an int 0x0..0xf, (s[19] & 0x3) | 0x8 will not be randomly distributed -- it will tend to produce more '9's and fewer 'b's. This only makes a difference if you care about the random distribution for some reason. Apr 18, 2013 at 15:35
106

This is the fastest GUID-like string generator method in the format XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX. It does not generate a standard-compliant GUID.

Ten million executions of this implementation take just 32.5 seconds, which is the fastest I've ever seen in a browser (the only solution without loops/iterations).

The function is as simple as:

/**
 * Generates a GUID string.
 * @returns {string} The generated GUID.
 * @example af8a8416-6e18-a307-bd9c-f2c947bbb3aa
 * @author Slavik Meltser.
 * @link http://slavik.meltser.info/?p=142
 */
function guid() {
    function _p8(s) {
        var p = (Math.random().toString(16)+"000000000").substr(2,8);
        return s ? "-" + p.substr(0,4) + "-" + p.substr(4,4) : p ;
    }
    return _p8() + _p8(true) + _p8(true) + _p8();
}

To test the performance, you can run this code:

console.time('t');
for (var i = 0; i < 10000000; i++) {
    guid();
};
console.timeEnd('t');

I'm sure most of you will understand what I did there, but maybe there is at least one person that will need an explanation:

The algorithm:

  • The Math.random() function returns a decimal number between 0 and 1 with 16 digits after the decimal fraction point (for example 0.4363923368509859).
  • Then we take this number and convert it to a string with base 16 (from the example above we'll get 0.6fb7687f). Math.random().toString(16).
  • Then we cut off the 0. prefix (0.6fb7687f => 6fb7687f) and get a string with eight hexadecimal characters long. (Math.random().toString(16).substr(2,8).
  • Sometimes the Math.random() function will return shorter number (for example 0.4363), due to zeros at the end (from the example above, actually the number is 0.4363000000000000). That's why I'm appending to this string "000000000" (a string with nine zeros) and then cutting it off with substr() function to make it nine characters exactly (filling zeros to the right).
  • The reason for adding exactly nine zeros is because of the worse case scenario, which is when the Math.random() function will return exactly 0 or 1 (probability of 1/10^16 for each one of them). That's why we needed to add nine zeros to it ("0"+"000000000" or "1"+"000000000"), and then cutting it off from the second index (third character) with a length of eight characters. For the rest of the cases, the addition of zeros will not harm the result because it is cutting it off anyway. Math.random().toString(16)+"000000000").substr(2,8).

The assembly:

  • The GUID is in the following format XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX.
  • I divided the GUID into four pieces, each piece divided into two types (or formats): XXXXXXXX and -XXXX-XXXX.
  • Now I'm building the GUID using these two types to assemble the GUID with call four pieces, as follows: XXXXXXXX -XXXX-XXXX -XXXX-XXXX XXXXXXXX.
  • To differ between these two types, I added a flag parameter to a pair creator function _p8(s), the s parameter tells the function whether to add dashes or not.
  • Eventually we build the GUID with the following chaining: _p8() + _p8(true) + _p8(true) + _p8(), and return it.

Link to this post on my blog

Enjoy! :-)

2
  • 18
    This implementation is incorrect. Certain characters of the GUID require special treatment (e.g. the 13th digit needs to be the number 4).
    – JLRishe
    Nov 12, 2013 at 8:12
  • Slightly rewritten, with fat arrow functions and toStr(depricated) -> toString. Also removed the hyphens! guid = () => { _p8 = () => {return (Math.random() * 10000000000).toString(16).substr(0,8);} return ${_p8()}${_p8()}${_p8()}${_p8()}; }; Aug 15, 2022 at 12:12
86

Here is a totally non-compliant but very performant implementation to generate an ASCII-safe GUID-like unique identifier.

function generateQuickGuid() {
    return Math.random().toString(36).substring(2, 15) +
        Math.random().toString(36).substring(2, 15);
}

Generates 26 [a-z0-9] characters, yielding a UID that is both shorter and more unique than RFC compliant GUIDs. Dashes can be trivially added if human-readability matters.

Here are usage examples and timings for this function and several of this question's other answers. The timing was performed under Chrome m25, 10 million iterations each.

>>> generateQuickGuid()
"nvcjf1hs7tf8yyk4lmlijqkuo9"
"yq6gipxqta4kui8z05tgh9qeel"
"36dh5sec7zdj90sk2rx7pjswi2"
runtime: 32.5s

>>> GUID() // John Millikin
"7a342ca2-e79f-528e-6302-8f901b0b6888"
runtime: 57.8s

>>> regexGuid() // broofa
"396e0c46-09e4-4b19-97db-bd423774a4b3"
runtime: 91.2s

>>> createUUID() // Kevin Hakanson
"403aa1ab-9f70-44ec-bc08-5d5ac56bd8a5"
runtime: 65.9s

>>> UUIDv4() // Jed Schmidt
"f4d7d31f-fa83-431a-b30c-3e6cc37cc6ee"
runtime: 282.4s

>>> Math.uuid() // broofa
"5BD52F55-E68F-40FC-93C2-90EE069CE545"
runtime: 225.8s

>>> Math.uuidFast() // broofa
"6CB97A68-23A2-473E-B75B-11263781BBE6"
runtime: 92.0s

>>> Math.uuidCompact() // broofa
"3d7b7a06-0a67-4b67-825c-e5c43ff8c1e8"
runtime: 229.0s

>>> bitwiseGUID() // jablko
"baeaa2f-7587-4ff1-af23-eeab3e92"
runtime: 79.6s

>>>> betterWayGUID() // Andrea Turri
"383585b0-9753-498d-99c3-416582e9662c"
runtime: 60.0s

>>>> UUID() // John Fowler
"855f997b-4369-4cdb-b7c9-7142ceaf39e8"
runtime: 62.2s

Here is the timing code.

var r;
console.time('t'); 
for (var i = 0; i < 10000000; i++) { 
    r = FuncToTest(); 
};
console.timeEnd('t');
1
  • Not sure if implementations have changed in the last 10 years, but Math.random() doesn't produce as many digits for me as it seems to produce for you -- there are only 10 or 11 characters in Math.random().toString(36).substring(2, 15) for me. Sep 4, 2023 at 3:49
80

From sagi shkedy's technical blog:

function generateGuid() {
  var result, i, j;
  result = '';
  for(j=0; j<32; j++) {
    if( j == 8 || j == 12 || j == 16 || j == 20)
      result = result + '-';
    i = Math.floor(Math.random()*16).toString(16).toUpperCase();
    result = result + i;
  }
  return result;
}

There are other methods that involve using an ActiveX control, but stay away from these!

I thought it was worth pointing out that no GUID generator can guarantee unique keys (check the Wikipedia article). There is always a chance of collisions. A GUID simply offers a large enough universe of keys to reduce the change of collisions to almost nil.

8
  • 10
    Note that this isn't a GUID in the technical sense, because it does nothing to guarantee uniqueness. That may or may not matter depending on your application. Sep 19, 2008 at 20:07
  • 3
    A quick note about performance. This solution creates 36 strings total to get a single result. If performance is critical, consider creating an array and joining as recommended by: tinyurl.com/y37xtx Further research indicates it may not matter, so YMMV: tinyurl.com/3l7945 Sep 22, 2008 at 18:14
  • 2
    Regarding uniqueness, it's worth noting that version 1,3, and 5 UUIDs are deterministic in ways version 4 isn't. If the inputs to these uuid generators - node id in v1, namespace and name in v3 and v5 - are unique (as they're supposed to be), then the resulting UUIDs be unique. In theory, anyway.
    – broofa
    Jun 29, 2017 at 13:26
  • These GUIDs are invalid because they don't specify version and variant required by the ITU-T | ISO recommendation. Dec 12, 2021 at 1:42
  • @DanielMarschall, this doesn't produce UUIDs, but does produce valid GUIDs which were common place in Microsoft code (e.g. .Net) in 2008 when this answer was written. Note, that this is also why the hex characters are forced to upper case. See: learn.microsoft.com/en-us/windows/win32/msi/guid
    – Prestaul
    Dec 13, 2021 at 16:51
71

Here is a combination of the top voted answer, with a workaround for Chrome's collisions:

generateGUID = (typeof(window.crypto) != 'undefined' &&
                typeof(window.crypto.getRandomValues) != 'undefined') ?
    function() {
        // If we have a cryptographically secure PRNG, use that
        // https://stackoverflow.com/questions/6906916/collisions-when-generating-uuids-in-javascript
        var buf = new Uint16Array(8);
        window.crypto.getRandomValues(buf);
        var S4 = function(num) {
            var ret = num.toString(16);
            while(ret.length < 4){
                ret = "0"+ret;
            }
            return ret;
        };
        return (S4(buf[0])+S4(buf[1])+"-"+S4(buf[2])+"-"+S4(buf[3])+"-"+S4(buf[4])+"-"+S4(buf[5])+S4(buf[6])+S4(buf[7]));
    }

    :

    function() {
        // Otherwise, just use Math.random
        // https://stackoverflow.com/questions/105034/how-to-create-a-guid-uuid-in-javascript/2117523#2117523
        return 'xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx'.replace(/[xy]/g, function(c) {
            var r = Math.random()*16|0, v = c == 'x' ? r : (r&0x3|0x8);
            return v.toString(16);
        });
    };

It is on jsbin if you want to test it.

1
  • 4
    note that the first version, the one ` window.crypto.getRandomValues, does not keep the Version 4 UUIDs format defined by RFC 4122. That is instead of xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx` it yields xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx. Sep 3, 2016 at 7:58
66

Here's a solution dated Oct. 9, 2011 from a comment by user jed at https://gist.github.com/982883:

UUIDv4 = function b(a){return a?(a^Math.random()*16>>a/4).toString(16):([1e7]+-1e3+-4e3+-8e3+-1e11).replace(/[018]/g,b)}

This accomplishes the same goal as the current highest-rated answer, but in 50+ fewer bytes by exploiting coercion, recursion, and exponential notation. For those curious how it works, here's the annotated form of an older version of the function:

UUIDv4 =

function b(
  a // placeholder
){
  return a // if the placeholder was passed, return
    ? ( // a random number from 0 to 15
      a ^ // unless b is 8,
      Math.random() // in which case
      * 16 // a random number from
      >> a/4 // 8 to 11
      ).toString(16) // in hexadecimal
    : ( // or otherwise a concatenated string:
      [1e7] + // 10000000 +
      -1e3 + // -1000 +
      -4e3 + // -4000 +
      -8e3 + // -80000000 +
      -1e11 // -100000000000,
      ).replace( // replacing
        /[018]/g, // zeroes, ones, and eights with
        b // random hex digits
      )
}
0
56

You can use node-uuid. It provides simple, fast generation of RFC4122 UUIDS.

Features:

  • Generate RFC4122 version 1 or version 4 UUIDs
  • Runs in Node.js and browsers.
  • Cryptographically strong random # generation on supporting platforms.
  • Small footprint (Want something smaller? Check this out!)

Install Using NPM:

npm install uuid

Or using uuid via a browser:

Download Raw File (uuid v1): https://raw.githubusercontent.com/kelektiv/node-uuid/master/v1.js Download Raw File (uuid v4): https://raw.githubusercontent.com/kelektiv/node-uuid/master/v4.js


Want even smaller? Check this out: https://gist.github.com/jed/982883


Usage:

// Generate a v1 UUID (time-based)
const uuidV1 = require('uuid/v1');
uuidV1(); // -> '6c84fb90-12c4-11e1-840d-7b25c5ee775a'

// Generate a v4 UUID (random)
const uuidV4 = require('uuid/v4');
uuidV4(); // -> '110ec58a-a0f2-4ac4-8393-c866d813b8d1'

// Generate a v5 UUID (namespace)
const uuidV5 = require('uuid/v5');

// ... using predefined DNS namespace (for domain names)
uuidV5('hello.example.com', v5.DNS)); // -> 'fdda765f-fc57-5604-a269-52a7df8164ec'

// ... using predefined URL namespace (for, well, URLs)
uuidV5('http://example.com/hello', v5.URL); // -> '3bbcee75-cecc-5b56-8031-b6641c1ed1f1'

// ... using a custom namespace
const MY_NAMESPACE = '(previously generated unique uuid string)';
uuidV5('hello', MY_NAMESPACE); // -> '90123e1c-7512-523e-bb28-76fab9f2f73d'

ECMAScript 2015 (ES6):

import uuid from 'uuid/v4';
const id = uuid();
1
  • 2
    Note: These imports didn't work for me. Import statements have changed, as stated in the repo: const { v4: uuidv4 } = require('uuid'); and ES6: import { v4 as uuidv4 } from 'uuid';
    – vladsiv
    Dec 2, 2020 at 0:09
53

One line solution using Blobs.

window.URL.createObjectURL(new Blob([])).substring(31);

The value at the end (31) depends on the length of the URL.


EDIT:

A more compact and universal solution, as suggested by rinogo:

URL.createObjectURL(new Blob([])).slice(-36);
11
  • 13
    Alternatively window.URL.createObjectURL(new Blob([])).split('/').pop() will do the same without having to rely on external factors like URL length.
    – wafs
    Mar 8, 2021 at 3:57
  • 2
    What is "Blob"/"Blobs"? Apr 2, 2021 at 18:33
  • 1
    Umm this most definitely does not work. To work reliably on different domains, it needs to be changed to something like window.URL.createObjectURL(new Blob([])).substr(-36)
    – rinogo
    Oct 21, 2021 at 2:32
  • 1
    What's the drawback of this solution?
    – Charaf
    Mar 13, 2022 at 0:46
  • 2
    Better to replace substr with slice in the compact solution. URL.createObjectURL(new Blob([])).slice(-36)
    – lk404
    Dec 21, 2022 at 5:09
39

This creates a version 4 UUID (created from pseudo random numbers):

function uuid()
{
   var chars = '0123456789abcdef'.split('');

   var uuid = [], rnd = Math.random, r;
   uuid[8] = uuid[13] = uuid[18] = uuid[23] = '-';
   uuid[14] = '4'; // version 4

   for (var i = 0; i < 36; i++)
   {
      if (!uuid[i])
      {
         r = 0 | rnd()*16;

         uuid[i] = chars[(i == 19) ? (r & 0x3) | 0x8 : r & 0xf];
      }
   }

   return uuid.join('');
}

Here is a sample of the UUIDs generated:

682db637-0f31-4847-9cdf-25ba9613a75c
97d19478-3ab2-4aa1-b8cc-a1c3540f54aa
2eed04c9-2692-456d-a0fd-51012f947136
39
var uuid = function() {
    var buf = new Uint32Array(4);
    window.crypto.getRandomValues(buf);
    var idx = -1;
    return 'xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx'.replace(/[xy]/g, function(c) {
        idx++;
        var r = (buf[idx>>3] >> ((idx%8)*4))&15;
        var v = c == 'x' ? r : (r&0x3|0x8);
        return v.toString(16);
    });
};

This version is based on Briguy37's answer and some bitwise operators to extract nibble sized windows from the buffer.

It should adhere to the RFC Type 4 (random) schema, since I had problems last time parsing non-compliant UUIDs with Java's UUID.

0
35

Simple JavaScript module as a combination of best answers in this question.

var crypto = window.crypto || window.msCrypto || null; // IE11 fix

var Guid = Guid || (function() {

  var EMPTY = '00000000-0000-0000-0000-000000000000';

  var _padLeft = function(paddingString, width, replacementChar) {
    return paddingString.length >= width ? paddingString : _padLeft(replacementChar + paddingString, width, replacementChar || ' ');
  };

  var _s4 = function(number) {
    var hexadecimalResult = number.toString(16);
    return _padLeft(hexadecimalResult, 4, '0');
  };

  var _cryptoGuid = function() {
    var buffer = new window.Uint16Array(8);
    crypto.getRandomValues(buffer);
    return [_s4(buffer[0]) + _s4(buffer[1]), _s4(buffer[2]), _s4(buffer[3]), _s4(buffer[4]), _s4(buffer[5]) + _s4(buffer[6]) + _s4(buffer[7])].join('-');
  };

  var _guid = function() {
    var currentDateMilliseconds = new Date().getTime();
    return 'xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx'.replace(/[xy]/g, function(currentChar) {
      var randomChar = (currentDateMilliseconds + Math.random() * 16) % 16 | 0;
      currentDateMilliseconds = Math.floor(currentDateMilliseconds / 16);
      return (currentChar === 'x' ? randomChar : (randomChar & 0x7 | 0x8)).toString(16);
    });
  };

  var create = function() {
    var hasCrypto = crypto != 'undefined' && crypto !== null,
      hasRandomValues = typeof(window.crypto.getRandomValues) != 'undefined';
    return (hasCrypto && hasRandomValues) ? _cryptoGuid() : _guid();
  };

  return {
    newGuid: create,
    empty: EMPTY
  };
})();

// DEMO: Create and show GUID
console.log('1. New Guid:   ' + Guid.newGuid());

// DEMO: Show empty GUID
console.log('2. Empty Guid: ' + Guid.empty);

Usage:

Guid.newGuid()

"c6c2d12f-d76b-5739-e551-07e6de5b0807"

Guid.empty

"00000000-0000-0000-0000-000000000000"

4
  • 1
    What is bothering about all answers is that it seems ok for JavaScript to store the GUID as a string. Your answer at least tackles the much more efficient storage using a Uint16Array. The toString function should be using the binary representation in an JavaScript object
    – Sebastian
    May 4, 2014 at 11:03
  • This UUIDs produced by this code are either weak-but-RFC-compliant (_guid), or strong-but-not-RFC-compliant (_cryptoGuid). The former uses Math.random(), which is now known to be a poor RNG. The latter is failing to set the version and variant fields.
    – broofa
    Jun 29, 2017 at 13:37
  • @broofa - What would you suggest to make it strong and RFC-compliant? And why is _cryptoGuid not RFC-compliant?
    – Matt
    Mar 15, 2018 at 9:57
  • @Matt _cryptoGuid() sets all 128 bits randomly, meaning it doesn't set the version and variant fields as described in the RFC. See my alternate implementation of uuidv4() that uses crypto.getRandomValues() in my top-voted answer, above, for a strong+compliant implementation.
    – broofa
    Mar 16, 2018 at 17:13
32

Added in: v15.6.0, v14.17.0 there is a built-in crypto.randomUUID() function.

import { randomUUID } from "node:crypto";

const uuid = crypto.randomUUID();

In the browser, crypto.randomUUID() is currently supported in Chromium 92+ and Firefox 95+.

1
  • And Safari is coming as well! Feb 16, 2022 at 19:13
29

The version below is an adaptation of broofa's answer, but updated to include a "true" random function that uses crypto libraries where available, and the Alea() function as a fallback.

  Math.log2 = Math.log2 || function(n){ return Math.log(n) / Math.log(2); }
  Math.trueRandom = (function() {
  var crypt = window.crypto || window.msCrypto;

  if (crypt && crypt.getRandomValues) {
      // If we have a crypto library, use it
      var random = function(min, max) {
          var rval = 0;
          var range = max - min;
          if (range < 2) {
              return min;
          }

          var bits_needed = Math.ceil(Math.log2(range));
          if (bits_needed > 53) {
            throw new Exception("We cannot generate numbers larger than 53 bits.");
          }
          var bytes_needed = Math.ceil(bits_needed / 8);
          var mask = Math.pow(2, bits_needed) - 1;
          // 7776 -> (2^13 = 8192) -1 == 8191 or 0x00001111 11111111

          // Create byte array and fill with N random numbers
          var byteArray = new Uint8Array(bytes_needed);
          crypt.getRandomValues(byteArray);

          var p = (bytes_needed - 1) * 8;
          for(var i = 0; i < bytes_needed; i++ ) {
              rval += byteArray[i] * Math.pow(2, p);
              p -= 8;
          }

          // Use & to apply the mask and reduce the number of recursive lookups
          rval = rval & mask;

          if (rval >= range) {
              // Integer out of acceptable range
              return random(min, max);
          }
          // Return an integer that falls within the range
          return min + rval;
      }
      return function() {
          var r = random(0, 1000000000) / 1000000000;
          return r;
      };
  } else {
      // From https://web.archive.org/web/20120502223108/http://baagoe.com/en/RandomMusings/javascript/
      // Johannes Baagøe <[email protected]>, 2010
      function Mash() {
          var n = 0xefc8249d;

          var mash = function(data) {
              data = data.toString();
              for (var i = 0; i < data.length; i++) {
                  n += data.charCodeAt(i);
                  var h = 0.02519603282416938 * n;
                  n = h >>> 0;
                  h -= n;
                  h *= n;
                  n = h >>> 0;
                  h -= n;
                  n += h * 0x100000000; // 2^32
              }
              return (n >>> 0) * 2.3283064365386963e-10; // 2^-32
          };

          mash.version = 'Mash 0.9';
          return mash;
      }

      // From http://baagoe.com/en/RandomMusings/javascript/
      function Alea() {
          return (function(args) {
              // Johannes Baagøe <[email protected]>, 2010
              var s0 = 0;
              var s1 = 0;
              var s2 = 0;
              var c = 1;

              if (args.length == 0) {
                  args = [+new Date()];
              }
              var mash = Mash();
              s0 = mash(' ');
              s1 = mash(' ');
              s2 = mash(' ');

              for (var i = 0; i < args.length; i++) {
                  s0 -= mash(args[i]);
                  if (s0 < 0) {
                      s0 += 1;
                  }
                  s1 -= mash(args[i]);
                  if (s1 < 0) {
                      s1 += 1;
                  }
                  s2 -= mash(args[i]);
                  if (s2 < 0) {
                      s2 += 1;
                  }
              }
              mash = null;

              var random = function() {
                  var t = 2091639 * s0 + c * 2.3283064365386963e-10; // 2^-32
                  s0 = s1;
                  s1 = s2;
                  return s2 = t - (c = t | 0);
              };
              random.uint32 = function() {
                  return random() * 0x100000000; // 2^32
              };
              random.fract53 = function() {
                  return random() +
                      (random() * 0x200000 | 0) * 1.1102230246251565e-16; // 2^-53
              };
              random.version = 'Alea 0.9';
              random.args = args;
              return random;

          }(Array.prototype.slice.call(arguments)));
      };
      return Alea();
  }
}());

Math.guid = function() {
    return 'xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx'.replace(/[xy]/g, function(c)    {
      var r = Math.trueRandom() * 16 | 0,
          v = c == 'x' ? r : (r & 0x3 | 0x8);
      return v.toString(16);
  });
};
0
27

JavaScript project on GitHub - https://github.com/LiosK/UUID.js

UUID.js The RFC-compliant UUID generator for JavaScript.

See RFC 4122 http://www.ietf.org/rfc/rfc4122.txt.

Features Generates RFC 4122 compliant UUIDs.

Version 4 UUIDs (UUIDs from random numbers) and version 1 UUIDs (time-based UUIDs) are available.

UUID object allows a variety of access to the UUID including access to the UUID fields.

Low timestamp resolution of JavaScript is compensated by random numbers.

24
  // RFC 4122
  //
  // A UUID is 128 bits long
  //
  // String representation is five fields of 4, 2, 2, 2, and 6 bytes.
  // Fields represented as lowercase, zero-filled, hexadecimal strings, and
  // are separated by dash characters
  //
  // A version 4 UUID is generated by setting all but six bits to randomly
  // chosen values
  var uuid = [
    Math.random().toString(16).slice(2, 10),
    Math.random().toString(16).slice(2, 6),

    // Set the four most significant bits (bits 12 through 15) of the
    // time_hi_and_version field to the 4-bit version number from Section
    // 4.1.3
    (Math.random() * .0625 /* 0x.1 */ + .25 /* 0x.4 */).toString(16).slice(2, 6),

    // Set the two most significant bits (bits 6 and 7) of the
    // clock_seq_hi_and_reserved to zero and one, respectively
    (Math.random() * .25 /* 0x.4 */ + .5 /* 0x.8 */).toString(16).slice(2, 6),

    Math.random().toString(16).slice(2, 14)].join('-');
0
18

For those wanting an RFC 4122 version 4 compliant solution with speed considerations (few calls to Math.random()):

var rand = Math.random;

function UUID() {
    var nbr, randStr = "";
    do {
        randStr += (nbr = rand()).toString(16).substr(3, 6);
    } while (randStr.length < 30);
    return (
        randStr.substr(0, 8) + "-" +
        randStr.substr(8, 4) + "-4" +
        randStr.substr(12, 3) + "-" +
        ((nbr*4|0)+8).toString(16) + // [89ab]
        randStr.substr(15, 3) + "-" +
        randStr.substr(18, 12)
    );
}

console.log( UUID() );

The above function should have a decent balance between speed and randomness.

16

I wanted to understand broofa's answer, so I expanded it and added comments:

var uuid = function () {
    return 'xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx'.replace(
        /[xy]/g,
        function (match) {
            /*
            * Create a random nibble. The two clever bits of this code:
            *
            * - Bitwise operations will truncate floating point numbers
            * - For a bitwise OR of any x, x | 0 = x
            *
            * So:
            *
            * Math.random * 16
            *
            * creates a random floating point number
            * between 0 (inclusive) and 16 (exclusive) and
            *
            * | 0
            *
            * truncates the floating point number into an integer.
            */
            var randomNibble = Math.random() * 16 | 0;

            /*
            * Resolves the variant field. If the variant field (delineated
            * as y in the initial string) is matched, the nibble must
            * match the mask (where x is a do-not-care bit):
            *
            * 10xx
            *
            * This is achieved by performing the following operations in
            * sequence (where x is an intermediate result):
            *
            * - x & 0x3, which is equivalent to x % 3
            * - x | 0x8, which is equivalent to x + 8
            *
            * This results in a nibble between 8 inclusive and 11 exclusive,
            * (or 1000 and 1011 in binary), all of which satisfy the variant
            * field mask above.
            */
            var nibble = (match == 'y') ?
                (randomNibble & 0x3 | 0x8) :
                randomNibble;

            /*
            * Ensure the nibble integer is encoded as base 16 (hexadecimal).
            */
            return nibble.toString(16);
        }
    );
};
1
  • Thank you for detailed description! Specifically nibble caged between 8 and 11 with equivalents explanation is super helpful. Apr 11, 2020 at 11:26
16

The native URL.createObjectURL is generating an UUID. You can take advantage of this.

function uuid() {
  const url = URL.createObjectURL(new Blob())
  const [id] = url.toString().split('/').reverse()
  URL.revokeObjectURL(url)
  return id
}
5
  • works like a charm. Better than trying to generate manually. Very clever! Dec 11, 2020 at 18:15
  • The performance is quite worst, but depending on the case it can be enough
    – Aral Roca
    Dec 15, 2020 at 16:37
  • For the fastest combined generator that is compliant w/node-clock-seq, monotonic in time, etc. This forms a good basis to seed a uuid4 generator w/60-bits of epoch70 μ-seconds of monotonic time, 4-bit uuid-version, and 48-bit node-id and 13-bit clock-seq with 3-bit uuid-variant. --<br> Combining using BigInt to write ntohl and related conversion this works very fast with the lut approach here. --<br> I can provide code if desired. Dec 29, 2020 at 2:08
  • Is the inclusion of a UUID here guaranteed, or is it just something that the current browser implementations all happen to do?
    – M. Justin
    Jul 15, 2021 at 20:10
  • 1
    @M.Justin It's guaranteed -- you can follow w3c.github.io/FileAPI/#dfn-createObjectURL to where it is specified, quoting, "Generate a UUID [RFC4122] as a string and append it to result". Dec 28, 2022 at 16:06
16

I couldn't find any answer that uses a single 16-octet TypedArray and a DataView, so I think the following solution for generating a version 4 UUID per the RFC will stand on its own here:

const uuid4 = () => {
    const ho = (n, p) => n.toString(16).padStart(p, 0); /// Return the hexadecimal text representation of number `n`, padded with zeroes to be of length `p`; e.g. `ho(13, 2)` returns `"0d"`
    const data = crypto.getRandomValues(new Uint8Array(16)); /// Fill a buffer with random bits
    data[6] = (data[6] & 0xf) | 0x40; /// Patch the 6th byte to reflect a version 4 UUID
    data[8] = (data[8] & 0x3f) | 0x80; /// Patch the 8th byte to reflect a variant 1 UUID (version 4 UUIDs are)
    const view = new DataView(data.buffer); /// Create a view backed by the 16-byte buffer
    return `${ho(view.getUint32(0), 8)}-${ho(view.getUint16(4), 4)}-${ho(view.getUint16(6), 4)}-${ho(view.getUint16(8), 4)}-${ho(view.getUint32(10), 8)}${ho(view.getUint16(14), 4)}`; /// Compile the canonical textual form from the array data
};

I prefer it because:

  • it only relies on functions available to the standard ECMAScript platform, where possible -- which is all but one procedure
  • it only uses a single buffer, minimizing copying of data, which should in theory yield performance advantage

At the time of writing this, getRandomValues is not something implemented for the crypto object in Node.js. However, it has the equivalent randomBytes function which may be used instead.

1
  • 1
    This is readable code, thank you. IMO the accepted answer has too complicated code, but this instead is understandable.
    – Ciantic
    Mar 17, 2023 at 13:19
15

ES6 sample

const guid=()=> {
  const s4=()=> Math.floor((1 + Math.random()) * 0x10000).toString(16).substring(1);     
  return `${s4() + s4()}-${s4()}-${s4()}-${s4()}-${s4() + s4() + s4()}`;
}
1
  • An explanation would be in order. E.g., what ES6 features does it use that previous answers don't? Please respond by editing your answer, not here in comments (without "Edit:", "Update:", or similar - the answer should appear as if it was written today). Apr 2, 2021 at 17:28
15

I adjusted my own UUID/GUID generator with some extras here.

I'm using the following Kybos random number generator to be a bit more cryptographically sound.

Below is my script with the Mash and Kybos methods from baagoe.com excluded.

//UUID/Guid Generator
// use: UUID.create() or UUID.createSequential()
// convenience:  UUID.empty, UUID.tryParse(string)
(function(w){
  // From http://baagoe.com/en/RandomMusings/javascript/
  // Johannes Baagøe <[email protected]>, 2010
  //function Mash() {...};

  // From http://baagoe.com/en/RandomMusings/javascript/
  //function Kybos() {...};

  var rnd = Kybos();

  //UUID/GUID Implementation from http://frugalcoder.us/post/2012/01/13/javascript-guid-uuid-generator.aspx
  var UUID = {
    "empty": "00000000-0000-0000-0000-000000000000"
    ,"parse": function(input) {
      var ret = input.toString().trim().toLowerCase().replace(/^[\s\r\n]+|[\{\}]|[\s\r\n]+$/g, "");
      if ((/[a-f0-9]{8}\-[a-f0-9]{4}\-[a-f0-9]{4}\-[a-f0-9]{4}\-[a-f0-9]{12}/).test(ret))
        return ret;
      else
        throw new Error("Unable to parse UUID");
    }
    ,"createSequential": function() {
      var ret = new Date().valueOf().toString(16).replace("-","")
      for (;ret.length < 12; ret = "0" + ret);
      ret = ret.substr(ret.length-12,12); //only least significant part
      for (;ret.length < 32;ret += Math.floor(rnd() * 0xffffffff).toString(16));
      return [ret.substr(0,8), ret.substr(8,4), "4" + ret.substr(12,3), "89AB"[Math.floor(Math.random()*4)] + ret.substr(16,3),  ret.substr(20,12)].join("-");
    }
    ,"create": function() {
      var ret = "";
      for (;ret.length < 32;ret += Math.floor(rnd() * 0xffffffff).toString(16));
      return [ret.substr(0,8), ret.substr(8,4), "4" + ret.substr(12,3), "89AB"[Math.floor(Math.random()*4)] + ret.substr(16,3),  ret.substr(20,12)].join("-");
    }
    ,"random": function() {
      return rnd();
    }
    ,"tryParse": function(input) {
      try {
        return UUID.parse(input);
      } catch(ex) {
        return UUID.empty;
      }
    }
  };
  UUID["new"] = UUID.create;

  w.UUID = w.Guid = UUID;
}(window || this));
13

The better way:

function(
  a, b               // Placeholders
){
  for(               // Loop :)
      b = a = '';    // b - result , a - numeric variable
      a++ < 36;      //
      b += a*51&52   // If "a" is not 9 or 14 or 19 or 24
                  ?  //  return a random number or 4
           (
               a^15              // If "a" is not 15,
                  ?              // generate a random number from 0 to 15
               8^Math.random() *
               (a^20 ? 16 : 4)   // unless "a" is 20, in which case a random number from 8 to 11,
                  :
               4                 //  otherwise 4
           ).toString(16)
                  :
         '-'                     //  In other cases, (if "a" is 9,14,19,24) insert "-"
      );
  return b
 }

Minimized:

function(a,b){for(b=a='';a++<36;b+=a*51&52?(a^15?8^Math.random()*(a^20?16:4):4).toString(16):'-');return b}
1
13

The following is simple code that uses crypto.getRandomValues(a) on supported browsers (Internet Explorer 11+, iOS 7+, Firefox 21+, Chrome, and Android Chrome).

It avoids using Math.random(), because that can cause collisions (for example 20 collisions for 4000 generated UUIDs in a real situation by Muxa).

function uuid() {
    function randomDigit() {
        if (crypto && crypto.getRandomValues) {
            var rands = new Uint8Array(1);
            crypto.getRandomValues(rands);
            return (rands[0] % 16).toString(16);
        } else {
            return ((Math.random() * 16) | 0).toString(16);
        }
    }

    var crypto = window.crypto || window.msCrypto;
    return 'xxxxxxxx-xxxx-4xxx-8xxx-xxxxxxxxxxxx'.replace(/x/g, randomDigit);
}

Notes:

  • Optimised for code readability, not speed, so it is suitable for, say, a few hundred UUIDs per second. It generates about 10000 uuid() per second in Chromium on my laptop using http://jsbin.com/fuwigo/1 to measure performance.
  • It only uses 8 for "y" because that simplifies code readability (y is allowed to be 8, 9, A, or B).
0
13

If you just need a random 128 bit string in no particular format, you can use:

function uuid() {
    return crypto.getRandomValues(new Uint32Array(4)).join('-');
}

Which will return something like 2350143528-4164020887-938913176-2513998651.

2
  • BTW, why does it generate only numbers and not characters as well? much less secure
    – vsync
    Sep 30, 2018 at 6:27
  • 2
    you can also add characters (letters ) like this: Array.from((window.crypto || window.msCrypto).getRandomValues(new Uint32Array(4))).map(n => n.toString(16)).join('-')
    – magikMaker
    Mar 29, 2019 at 19:55
12

Just another more readable variant with just two mutations.

function uuid4()
{
  function hex (s, b)
  {
    return s +
      (b >>> 4   ).toString (16) +  // high nibble
      (b & 0b1111).toString (16);   // low nibble
  }

  let r = crypto.getRandomValues (new Uint8Array (16));

  r[6] = r[6] >>> 4 | 0b01000000; // Set type 4: 0100
  r[8] = r[8] >>> 3 | 0b10000000; // Set variant: 100

  return r.slice ( 0,  4).reduce (hex, '' ) +
         r.slice ( 4,  6).reduce (hex, '-') +
         r.slice ( 6,  8).reduce (hex, '-') +
         r.slice ( 8, 10).reduce (hex, '-') +
         r.slice (10, 16).reduce (hex, '-');
}
4
  • 1
    Well most of the js devs are web developers, and we won't understand what bitwise operators do, because we don't use them most of the times we develop. Actually I never needed any of them, and I am a js dev since '97. So your example code is still totally unreadable to the average web developer who will read it. Not to mention that you still use single letter variable names, which makes it even more cryptic. Probably read Clean Code, maybe that helps: amazon.com/Clean-Code-Handbook-Software-Craftsmanship/dp/…
    – inf3rno
    Sep 22, 2018 at 22:16
  • 1
    @inf3rno don't bash him, all the proposed solutions in this thread are cryptic but they are correct answers considering the question was to have a one-liner of sorts. that's what one-liners are cryptic. they can't afford to be readable to the average developer but they save screen real estate where a simple preceding comment will do. And as a result, ends up being much more readable that way then if it had been in "readable code" instead.
    – tatsu
    Dec 6, 2019 at 15:19
  • @user1529413 Yes. Uniqueness requires an index.
    – ceving
    Feb 14, 2020 at 9:37
  • This is my favourite answer, because it's building a UUID as a 16-byte (128 bit) value, and not its serialized, nice to read form. It'd be trivially easy to drop the string stuff and just set the correct bits of a random 128bit, which is all a uuidv4 needs to be. You could base64 it for shorter URLs, pass it back to some webassembly, store it in less memory space than as a string, make it a 4096-size buffer and put 256 uuids in it, store in a browser db, etc. Much better than having everything as a long, lowercase hex-encoded string from the start. Jun 3, 2020 at 1:13

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