I want a 5 character string composed of characters picked randomly from the set [a-zA-Z0-9]
.
What's the best way to do this with JavaScript?
I think this will work for you:
function makeid(length) {
let result = '';
const characters = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789';
const charactersLength = characters.length;
let counter = 0;
while (counter < length) {
result += characters.charAt(Math.floor(Math.random() * charactersLength));
counter += 1;
}
return result;
}
console.log(makeid(5));
floor
is unneeded: for(var text=''; text.length < 5;) text += possible.charAt(Math.random() * possible.length)
Commented
Feb 27, 2013 at 22:43
+=
is often faster for some reason, even used inside loops - jsperf.com/join-vs-concatenation
crypto
instead.
Commented
Jan 9, 2015 at 23:37
//Can change 7 to 2 for longer results.
let r = (Math.random() + 1).toString(36).substring(7);
console.log("random", r);
Note: The above algorithm has the following weaknesses:
Math.random()
may produce predictable ("random-looking" but not really random) output depending on the implementation. The resulting string is not suitable when you need to guarantee uniqueness or unpredictability.Math.random().toString(36).substr(2, 5)
, because .substring(7)
causes it to be longer than 5 characters. Full points, still!
toString
method of a number type in javascript takes an optional parameter to convert the number into a given base. If you pass two, for example, you'll see your number represented in binary. Similar to hex (base 16), base 36 uses letters to represent digits beyond 9. By converting a random number to base 36, you'll wind up with a bunch of seemingly random letters and numbers.
Commented
Jan 3, 2013 at 20:45
(Math.random() + 1).toString(36).substring(7);
Commented
Aug 11, 2013 at 17:17
substring(7)
takes the digits from the least significant part of the base-36 string. toString(36)
appears to convert the random number to a 16 digit base-36 string, but the precision required for this would be 36^16 = 7.958e24 possible numbers, where the precision of Math.random() is only 4.5e15. Taking the digits from most significant end with .slice(2,5)
solves this: 5 digit example
Math.random is bad for this kind of thing
server side (node, bun)
Use node crypto module -
esm -
import * as crypto from "node:crypto";
const id = crypto.randomBytes(20).toString('hex');
console.log(id)
// "bb5dc8842ca31d4603d6aa11448d1654"
or cjs -
const crypto = require("crypto");
const id = crypto.randomBytes(20).toString('hex');
console.log(id)
// "bb5dc8842ca31d4603d6aa11448d1654"
The resulting string will be twice as long as the random bytes you generate; each byte encoded to hex is 2 characters. 20 bytes will be 40 characters of hex.
client side (browser)
Use the browser's crypto module -
const id = window.crypto.randomUUID()
console.log(id)
// bd4d099b-3d39-4aad-a59c-c45dfac8eaf0
The
crypto.getRandomValues()
method lets you get cryptographically strong random values. The array given as the parameter is filled with random numbers (random in its cryptographic meaning).
// dec2hex :: Integer -> String
// i.e. 0-255 -> '00'-'ff'
function dec2hex (dec) {
return dec.toString(16).padStart(2, "0")
}
// generateId :: Integer -> String
function generateId (len) {
var arr = new Uint8Array((len || 40) / 2)
window.crypto.getRandomValues(arr)
return Array.from(arr, dec2hex).join('')
}
console.log(generateId())
// "82defcf324571e70b0521d79cce2bf3fffccd69"
console.log(generateId(20))
// "c1a050a4cd1556948d41"
A step-by-step console example -
> var arr = new Uint8Array(4) # make array of 4 bytes (values 0-255)
> arr
Uint8Array(4) [ 0, 0, 0, 0 ]
> window.crypto
Crypto { subtle: SubtleCrypto }
> window.crypto.getRandomValues()
TypeError: Crypto.getRandomValues requires at least 1 argument, but only 0 were passed
> window.crypto.getRandomValues(arr)
Uint8Array(4) [ 235, 229, 94, 228 ]
For IE11 support you can use -
(window.crypto || window.msCrypto).getRandomValues(arr)
For browser coverage see https://caniuse.com/#feat=getrandomvalues
client side (old browsers)
If you must support old browsers, consider something like uuid
-
const uuid = require("uuid");
const id = uuid.v4();
// "110ec58a-a0f2-4ac4-8393-c866d813b8d1"
.map()
in Option 3. Array.from(arr, dec2hex).join('')
=== Array.from(arr).map(dec2hex).join('')
. Thanks for introducing me to these features :-)
Commented
May 11, 2017 at 19:28
dec2hex
was provided an example encoder. It's up to you to represent the bytes however you choose. I updated the post with your suggestion.
Returns exactly 5 random characters, as opposed to some of the top rated answers found here.
Math.random().toString(36).slice(2, 7);
Math.random().toString(36)
returns a number with less than 5 characters?
Commented
Jan 17, 2017 at 11:42
Math.random
not returning 0. Hope you never have to debug this event
Here's an improvement on doubletap's excellent answer. The original has two drawbacks which are addressed here:
First, as others have mentioned, it has a small probability of producing short strings or even an empty string (if the random number is 0), which may break your application. Here is a solution:
(Math.random().toString(36)+'00000000000000000').slice(2, N+2)
Second, both the original and the solution above limit the string size N to 16 characters. The following will return a string of size N for any N (but note that using N > 16 will not increase the randomness or decrease the probability of collisions):
Array(N+1).join((Math.random().toString(36)+'00000000000000000').slice(2, 18)).slice(0, N)
Explanation:
Further thoughts:
Update:
Here are a couple other functional-style one-liners I came up with. They differ from the solution above in that:
So, say your alphabet of choice is
var s = "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789";
Then these two are equivalent to each other, so you can pick whichever is more intuitive to you:
Array(N).join().split(',').map(function() { return s.charAt(Math.floor(Math.random() * s.length)); }).join('');
and
Array.apply(null, Array(N)).map(function() { return s.charAt(Math.floor(Math.random() * s.length)); }).join('');
Edit:
I seems like qubyte and Martijn de Milliano came up with solutions similar to the latter (kudos!), which I somehow missed. Since they don't look as short at a glance, I'll leave it here anyway in case someone really wants a one-liner :-)
Also, replaced 'new Array' with 'Array' in all solutions to shave off a few more bytes.
(Math.random()+1).toString(36).substring(7);
Math.random().toString(36).substring(2,7)
gives an expected result which is more like the .substring(2, n+2)
Commented
Nov 13, 2015 at 13:04
Array.apply(null, {length: 5}).map(function() { return s.charAt(Math.floor(Math.random() * s.length)); }).join('')
Commented
Nov 13, 2015 at 14:54
The most compact solution, because slice
is shorter than substring
. Subtracting from the end of the string allows to avoid floating point symbol generated by the random
function:
Math.random().toString(36).slice(-5);
or even
(+new Date).toString(36).slice(-5);
Update: Added one more approach using btoa
method:
btoa(Math.random()).slice(0, 5);
btoa(+new Date).slice(-7, -2);
btoa(+new Date).substr(-7, 5);
// Using Math.random and Base 36:
console.log(Math.random().toString(36).slice(-5));
// Using new Date and Base 36:
console.log((+new Date).toString(36).slice(-5));
// Using Math.random and Base 64 (btoa):
console.log(btoa(Math.random()).slice(0, 5));
// Using new Date and Base 64 (btoa):
console.log(btoa(+new Date).slice(-7, -2));
console.log(btoa(+new Date).substr(-7, 5));
Math.random().toString(36).slice(-5);
- What if Math.random()
returns 0.0
?
Math.random()
returns 0.5
the result is "0.i"
. Not sure if there are other edge cases. Just wanted to point out that this is not a correct answer to the question (5 characters from [a-zA-Z0-9]).
(+new Date + Math.random())
to prevent this case. Anyway, thanks for the note.
Commented
Jul 13, 2019 at 16:39
bota
at all? I commented on other answers but using this test case you can see you going to use only 14 chars out of 64 that base64 has to offer: [...new Set([...Array(100000)].map(()=>btoa(Math.random()).substr(0, 5)).join(""))].sort()
A newer version with es6 spread operator:
[...Array(30)].map(() => Math.random().toString(36)[2]).join('')
30
is an arbitrary number, you can pick any token length you want36
is the maximum radix number you can pass to numeric.toString(), which means all numbers and a-z lowercase letters2
is used to pick the 3rd index from the random string which looks like this: "0.mfbiohx64i"
, we could take any index after 0.
|| '0'
so that it falls back to 0
instead of undefined
if Math.random()
returns 0
(it never returns 1
)
Commented
Aug 7, 2022 at 16:29
Something like this should work
function randomString(len, charSet) {
charSet = charSet || 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789';
var randomString = '';
for (var i = 0; i < len; i++) {
var randomPoz = Math.floor(Math.random() * charSet.length);
randomString += charSet.substring(randomPoz,randomPoz+1);
}
return randomString;
}
Call with default charset [a-zA-Z0-9] or send in your own:
var randomValue = randomString(5);
var randomValue = randomString(5, 'PICKCHARSFROMTHISSET');
crypto.randomBytes(3).toString('hex')
(3 bytes gives 6 chars, for example)
function randomstring(L) {
var s = '';
var randomchar = function() {
var n = Math.floor(Math.random() * 62);
if (n < 10) return n; //1-10
if (n < 36) return String.fromCharCode(n + 55); //A-Z
return String.fromCharCode(n + 61); //a-z
}
while (s.length < L) s += randomchar();
return s;
}
console.log(randomstring(5));
while(s.length< L) s+= randomchar();
Commented
Jan 17, 2014 at 19:24
'A'.charCodeAt(0)
rather than the magic number 55
(and likewise for the 61
). Particularly since, on my platform anyway, the magic number that returns is 65
. That code will self-document better as well.
/**
* Pseudo-random string generator
* http://stackoverflow.com/a/27872144/383904
* Default: return a random alpha-numeric string
*
* @param {Integer} len Desired length
* @param {String} an Optional (alphanumeric), "a" (alpha), "n" (numeric)
* @return {String}
*/
function randomString(len, an) {
an = an && an.toLowerCase();
var str = "",
i = 0,
min = an == "a" ? 10 : 0,
max = an == "n" ? 10 : 62;
for (; i++ < len;) {
var r = Math.random() * (max - min) + min << 0;
str += String.fromCharCode(r += r > 9 ? r < 36 ? 55 : 61 : 48);
}
return str;
}
console.log(randomString(10)); // i.e: "4Z8iNQag9v"
console.log(randomString(10, "a")); // i.e: "aUkZuHNcWw"
console.log(randomString(10, "n")); // i.e: "9055739230"
While the above uses additional checks for the desired A/N, A, N output, let's break it down the to the essentials (Alpha-Numeric only) for a better understanding:
var str = "";
to concatenate random charactersrand
index number from 0 to 61 (0..9+A..Z+a..z = 62)rand
(since it's 0..61) incrementing it by some number (see examples below) to get back the right CharCode
number and the related Character.str
a String.fromCharCode( incremented rand )
Let's picture the ASCII Character table ranges:
_____0....9______A..........Z______a..........z___________ Character
| 10 | | 26 | | 26 | Tot = 62 characters
48....57 65..........90 97..........122 CharCode ranges
Math.floor( Math.random * 62 )
gives a range from 0..61
(what we need).
Let's fix the random to get the correct charCode ranges:
| rand | charCode | (0..61)rand += fix = charCode ranges |
------+----------+----------+--------------------------------+-----------------+
0..9 | 0..9 | 48..57 | rand += 48 = 48..57 |
A..Z | 10..35 | 65..90 | rand += 55 /* 90-35 = 55 */ = 65..90 |
a..z | 36..61 | 97..122 | rand += 61 /* 122-61 = 61 */ = 97..122 |
The conditional operation logic from the table above:
rand += rand>9 ? ( rand<36 ? 55 : 61 ) : 48 ;
// rand += true ? ( true ? 55 else 61 ) else 48 ;
From the explanation above, here's the resulting alpha-numeric snippet:
function randomString(len) {
var str = ""; // String result
for (var i = 0; i < len; i++) { // Loop `len` times
var rand = Math.floor(Math.random() * 62); // random: 0..61
var charCode = rand += rand > 9 ? (rand < 36 ? 55 : 61) : 48; // Get correct charCode
str += String.fromCharCode(charCode); // add Character to str
}
return str; // After all loops are done, return the concatenated string
}
console.log(randomString(10)); // i.e: "7GL9F0ne6t"
Or if you will:
const randomString = (n, r='') => {
while (n--) r += String.fromCharCode((r=Math.random()*62|0, r+=r>9?(r<36?55:61):48));
return r;
};
console.log(randomString(10))
x.toString(36)
--- as is used in the above answers --- was not reliably generating the same characters when I compared the outputs of two apps that had different ES versions, and this function fixed this for me as it does not use .toString()
!
Commented
Feb 4, 2021 at 22:13
To meet requirement [a-zA-Z0-9] and length of 5 characters, use
For Browser:
btoa(Math.random().toString()).substring(10,15);
For NodeJS:
Buffer.from(Math.random().toString()).toString("base64").substring(10,15);
Lowercase letters, uppercase letters, and numbers will occur.
(it's typescript compatible)
Set
it to see unique chars and then sort. one liner for that: [...new Set([...Array(100000)].map(()=>btoa(Math.random()).substr(5, 5)).join(""))].sort()
toString()
. But as I wanted to do something as "it's typescript compatible". So I left it that way.
Commented
Jan 11, 2022 at 19:38
The simplest way is:
(new Date%9e6).toString(36)
This generate random strings of 5 characters based on the current time. Example output is 4mtxj
or 4mv90
or 4mwp1
The problem with this is that if you call it two times on the same second, it will generate the same string.
The safer way is:
(0|Math.random()*9e6).toString(36)
This will generate a random string of 4 or 5 characters, always diferent. Example output is like 30jzm
or 1r591
or 4su1a
In both ways the first part generate a random number. The .toString(36)
part cast the number to a base36 (alphadecimal) representation of it.
(+new Date).toString(36)
Commented
Jul 15, 2015 at 13:47
(Math.random()*1e20).toString(36)
.
Commented
Feb 27, 2016 at 19:11
Here are some easy one liners. Change new Array(5)
to set the length.
0-9a-z
new Array(5).join().replace(/(.|$)/g, function(){return ((Math.random()*36)|0).toString(36);})
0-9a-zA-Z
new Array(5).join().replace(/(.|$)/g, function(){return ((Math.random()*36)|0).toString(36)[Math.random()<.5?"toString":"toUpperCase"]();});
0-9a-z
)Array(5).fill().map(n=>(Math.random()*36|0).toString(36)).join('')
There is no best way to do this. You can do it any way you prefer, as long as the result suits your requirements. To illustrate, I've created many different examples, all which should provide the same end-result
Most other answers on this page ignore the upper-case character requirement.
Here is my fastest solution and most readable. It basically does the same as the accepted solution, except it is a bit faster.
function readableRandomStringMaker(length) {
for (var s=''; s.length < length; s += 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789'.charAt(Math.random()*62|0));
return s;
}
console.log(readableRandomStringMaker(length));
// e3cbN
Here is a compact, recursive version which is much less readable:
const compactRandomStringMaker = (length) => length-- && "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789".charAt(Math.random()*62|0) + (compactRandomStringMaker(length)||"");
console.log(compactRandomStringMaker(5));
// DVudj
A more compact one-liner:
Array(5).fill().map(()=>"abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789".charAt(Math.random()*62)).join("")
// 12oEZ
A variation of the above:
" ".replaceAll(" ",()=>"abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789".charAt(Math.random()*62))
The most compact one-liner, but inefficient and unreadable - it adds random characters and removes illegal characters until length is l:
((l,f=(p='')=>p.length<l?f(p+String.fromCharCode(Math.random()*123).replace(/[^a-z0-9]/i,'')):p)=>f())(5)
A cryptographically secure version, which is wasting entropy for compactness, and is a waste regardless because the generated string is so short:
[...crypto.getRandomValues(new Uint8Array(999))].map((c)=>String.fromCharCode(c).replace(/[^a-z0-9]/i,'')).join("").substr(0,5)
// 8fzPq
Or, without the length-argument it is even shorter:
((f=(p='')=>p.length<5?f(p+String.fromCharCode(Math.random()*123).replace(/[^a-z0-9]/i,'')):p)=>f())()
// EV6c9
Then a bit more challenging - using a nameless recursive arrow function:
((l,s=((l)=>l--&&"abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789".charAt(Math.random()*62|0)+(s(l)||""))) => s(l))(5);
// qzal4
This is a "magic" variable which provides a random character every time you access it:
const c = new class { [Symbol.toPrimitive]() { return "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789".charAt(Math.random()*62|0) } };
console.log(c+c+c+c+c);
// AgMnz
A simpler variant of the above:
const c=()=>"abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789".charAt(Math.random()*62|0);
c()+c()+c()+c()+c();
// 6Qadw
I know everyone has got it right already, but i felt like having a go at this one in the most lightweight way possible(light on code, not CPU):
function rand(length, current) {
current = current ? current : '';
return length ? rand(--length, "0123456789ABCDEFGHIJKLMNOPQRSTUVWXTZabcdefghiklmnopqrstuvwxyz".charAt(Math.floor(Math.random() * 60)) + current) : current;
}
console.log(rand(5));
It takes a bit of time to wrap your head around, but I think it really shows how awesome javascript's syntax is.
current = current ? current : '';
when you can write current = current || ''
;
current || (current = '');
Commented
Dec 13, 2013 at 10:36
Generate a secure random alphanumeric Base-62
string:
function generateUID(length)
{
return window.btoa(String.fromCharCode(...window.crypto.getRandomValues(new Uint8Array(length * 2)))).replace(/[+/]/g, "").substring(0, length);
}
console.log(generateUID(22)); // "yFg3Upv2cE9cKOXd7hHwWp"
console.log(generateUID(5)); // "YQGzP"
In case anyone is interested in a one-liner (although not formatted as such for your convenience) that allocates the memory at once (but note that for small strings it really does not matter) here is how to do it:
Array.apply(0, Array(5)).map(function() {
return (function(charset){
return charset.charAt(Math.floor(Math.random() * charset.length))
}('ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789'));
}).join('')
You can replace 5
by the length of the string you want. Thanks to @AriyaHidayat in this post for the solution to the map
function not working on the sparse array created by Array(5)
.
If you're using Lodash or Underscore:
var randomVal = _.sample('ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789', 5).join('');
Whilst this answer is almost similar to others, it differs in that it uses:
repeat
to create 5 characters (can be generalized to n
)replace
with regex /./g
to replace those 5 characterslet ans = "x".repeat(5)
.replace(/./g, c => "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"[Math.floor(Math.random() * 62) ] );
console.log(ans);
const c = 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789'
const s = [...Array(5)].map(_ => c[~~(Math.random()*c.length)]).join('')
Here's the method I created.
It will create a string containing both uppercase and lowercase characters.
In addition I've included the function that will created an alphanumeric string too.
Working examples:
http://jsfiddle.net/greatbigmassive/vhsxs/ (alpha only)
http://jsfiddle.net/greatbigmassive/PJwg8/ (alphanumeric)
function randString(x){
var s = "";
while(s.length<x&&x>0){
var r = Math.random();
s+= String.fromCharCode(Math.floor(r*26) + (r>0.5?97:65));
}
return s;
}
Upgrade July 2015
This does the same thing but makes more sense and includes all letters.
var s = "";
while(s.length<x&&x>0){
v = Math.random()<0.5?32:0;
s += String.fromCharCode(Math.round(Math.random()*((122-v)-(97-v))+(97-v)));
}
One liner:
Array(15).fill(null).map(() => Math.random().toString(36).substr(2)).join('')
// Outputs: 0h61cbpw96y83qtnunwme5lxk1i70a6o5r5lckfcyh1dl9fffydcfxddd69ada9tu9jvqdx864xj1ul3wtfztmh2oz2vs3mv6ej0fe58ho1cftkjcuyl2lfkmxlwua83ibotxqc4guyuvrvtf60naob26t6swzpil
Array(15)
to a smaller value. E.g.: Array(4)
.
Commented
Apr 3, 2020 at 18:40
Improved @Andrew's answer above :
Array.from({ length : 1 }, () => Math.random().toString(36)[2]).join('');
Base 36 conversion of the random number is inconsistent, so selecting a single indice fixes that. You can change the length for a string with the exact length desired.
Assuming you use underscorejs it's possible to elegantly generate random string in just two lines:
var possible = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789';
var random = _.sample(possible, 5).join('');
function randomString (strLength, charSet) {
var result = [];
strLength = strLength || 5;
charSet = charSet || 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789';
while (strLength--) { // (note, fixed typo)
result.push(charSet.charAt(Math.floor(Math.random() * charSet.length)));
}
return result.join('');
}
This is as clean as it will get. It is fast too, http://jsperf.com/ay-random-string.
strLength - 1
:-/
Commented
Nov 22, 2013 at 11:43
--strLength
to strLength--
fixes it for me.
Commented
Nov 22, 2013 at 11:43
strLength--
postfix, not prefix.
Fast and improved algorithm. Does not guarantee uniform (see comments).
function getRandomId(length) {
if (!length) {
return '';
}
const possible =
'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789';
let array;
if ('Uint8Array' in self && 'crypto' in self && length <= 65536) {
array = new Uint8Array(length);
self.crypto.getRandomValues(array);
} else {
array = new Array(length);
for (let i = 0; i < length; i++) {
array[i] = Math.floor(Math.random() * 62);
}
}
let result = '';
for (let i = 0; i < length; i++) {
result += possible.charAt(array[i] % 62);
}
return result;
}
crypto.getRandomValues
returns one of 256 unique values. Because 256 is not divided by 62, you end up having slightly higher probability of getting characters A-H. I think the best solution is to do what YouTube did, and just add 2 additional characters (possibly -
and _
) to the charset. Anyway, great work - this answer needs so much more love :)
How about this compact little trick?
var possible = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789';
var stringLength = 5;
function pickRandom() {
return possible[Math.floor(Math.random() * possible.length)];
}
var randomString = Array.apply(null, Array(stringLength)).map(pickRandom).join('');
You need the Array.apply
there to trick the empty array into being an array of undefineds.
If you're coding for ES2015, then building the array is a little simpler:
var randomString = Array.from({ length: stringLength }, pickRandom).join('');
You can loop through an array of items and recursively add them to a string variable, for instance if you wanted a random DNA sequence:
function randomDNA(len) {
len = len || 100
var nuc = new Array("A", "T", "C", "G")
var i = 0
var n = 0
s = ''
while (i <= len - 1) {
n = Math.floor(Math.random() * 4)
s += nuc[n]
i++
}
return s
}
console.log(randomDNA(5));
function randStr(len) {
let s = '';
while (s.length < len) s += Math.random().toString(36).substr(2, len - s.length);
return s;
}
// usage
console.log(randStr(50));
The benefit of this function is that you can get different length random string and it ensures the length of the string.
function randStr(len) {
let s = '';
while (len--) s += String.fromCodePoint(Math.floor(Math.random() * (126 - 33) + 33));
return s;
}
// usage
console.log(randStr(50));
function randStr(len, chars='abc123') {
let s = '';
while (len--) s += chars[Math.floor(Math.random() * chars.length)];
return s;
}
// usage
console.log(randStr(50));
console.log(randStr(50, 'abc'));
console.log(randStr(50, 'aab')); // more a than b
var possible
like in the accepted answer, so the outcome of the function is more configurable.
Commented
Oct 11, 2018 at 11:40
The problem with responses to "I need random strings" questions (in whatever language) is practically every solution uses a flawed primary specification of string length. The questions themselves rarely reveal why the random strings are needed, but I would challenge you rarely need random strings of length, say 8. What you invariably need is some number of unique strings, for example, to use as identifiers for some purpose.
There are two leading ways to get strictly unique strings: deterministically (which is not random) and store/compare (which is onerous). What do we do? We give up the ghost. We go with probabilistic uniqueness instead. That is, we accept that there is some (however small) risk that our strings won't be unique. This is where understanding collision probability and entropy are helpful.
So I'll rephrase the invariable need as needing some number of strings with a small risk of repeat. As a concrete example, let's say you want to generate a potential of 5 million IDs. You don't want to store and compare each new string, and you want them to be random, so you accept some risk of repeat. As example, let's say a risk of less than 1 in a trillion chance of repeat. So what length of string do you need? Well, that question is underspecified as it depends on the characters used. But more importantly, it's misguided. What you need is a specification of the entropy of the strings, not their length. Entropy can be directly related to the probability of a repeat in some number of strings. String length can't.
And this is where a library like EntropyString can help. To generate random IDs that have less than 1 in a trillion chance of repeat in 5 million strings using entropy-string
:
import {Random, Entropy} from 'entropy-string'
const random = new Random()
const bits = Entropy.bits(5e6, 1e12)
const string = random.string(bits)
"44hTNghjNHGGRHqH9"
entropy-string
uses a character set with 32 characters by default. There are other predefined characters sets, and you can specify your own characters as well. For example, generating IDs with the same entropy as above but using hex characters:
import {Random, Entropy, charSet16} from './entropy-string'
const random = new Random(charSet16)
const bits = Entropy.bits(5e6, 1e12)
const string = random.string(bits)
"27b33372ade513715481f"
Note the difference in string length due to the difference in total number of characters in the character set used. The risk of repeat in the specified number of potential strings is the same. The string lengths are not. And best of all, the risk of repeat and the potential number of strings is explicit. No more guessing with string length.
nanoid
is much more popular than entropy-string
and seems just as good for my purposes.
true-random
result! They are onlypseudo-random
. When using random strings for protection or security, don't use any of them!!! Try one of these api's: random.org