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The JavaScript Math.random() function returns a random value between 0 and 1, automatically seeded based on the current time (similar to Java I believe). However, I don't think there's any way to set you own seed for it.

How can I make a random number generator that I can provide my own seed value for, so that I can have it produce a repeatable sequence of (pseudo)random numbers?

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Note: In the interests of keeping this question short and focused, I've split the code that was in the question above off to a Community Wiki answer below. –  Ilmari Karonen Mar 10 '14 at 21:47

9 Answers 9

The following is a PRNG that may be fed a custom seed. Calling SeedRandom will return a random generator function. SeedRandom can be called with no arguments in order to seed the returned random function with the current time, or it can be called with either 1 or 2 non-negative inters as arguments in order to seed it with those integers. Due to float point accuracy seeding with only 1 value will only allow the generator to be initiated to one of 2^53 different states.

The returned random generator function takes 1 integer argument named limit, the limit must be in the range 1 to 4294965886, the function will return a number in the range 0 to limit-1.

function SeedRandom(state1,state2){
    var mod1=4294967087
    var mul1=65539
    var mod2=4294965887
    var mul2=65537
    if(typeof state1!="number"){
        state1=+new Date()
    if(typeof state2!="number"){
    function random(limit){
        if(state1<limit && state2<limit && state1<mod1%limit && state2<mod2%limit){
            return random(limit)
        return (state1+state2)%limit
    return random

Example use:

var generator1=SeedRandom() //Seed with current time
var randomVariable=generator1(7) //Generate one of the numbers [0,1,2,3,4,5,6]
var generator2=SeedRandom(42) //Seed with a specific seed
var fixedVariable=generator2(7) //First value of this generator will always be
                                //1 because of the specific seed.

This generator exhibit the following properties:

  • It has approximately 2^64 different possible inner states.
  • It has a period of approximately 2^63, plenty more than anyone will ever realistically need in a JavaScript program.
  • Due to the mod values being primes there is no simple pattern in the output, no matter the chosen limit. This is unlike some simpler PRNGs that exhibit some quite systematic patterns.
  • It discards some results in order to get a perfect distribution no matter the limit.
  • It is relatively slow, runs around 10 000 000 times per second on my machine.
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if you don't need the seeding capability, just use Math.random() and build helper functions around it (eg. randRange(start, end)).

I'm not sure what RNG you're using, but it's best to know and document it so you're aware of it's characteristics and limitations.

Like Starkii said, Mersenne Twister is a good PRNG, but it isn't easy to implement. If you want to do it yourself try implementing a LCG - it's very easy, has decent randomness qualities (not as good as Mersenne Twister), and you can use some of the popular constants.

function RNG(seed) {
  // LCG using GCC's constants
  this.m = 0x80000000; // 2**31;
  this.a = 1103515245;
  this.c = 12345;

  this.state = seed ? seed : Math.floor(Math.random() * (this.m-1));
RNG.prototype.nextInt = function() {
  this.state = (this.a * this.state + this.c) % this.m;
  return this.state;
RNG.prototype.nextFloat = function() {
  // returns in range [0,1]
  return this.nextInt() / (this.m - 1);
RNG.prototype.nextRange = function(start, end) {
  // returns in range [start, end): including start, excluding end
  // can't modulu nextInt because of weak randomness in lower bits
  var rangeSize = end - start;
  var randomUnder1 = this.nextInt() / this.m;
  return start + Math.floor(randomUnder1 * rangeSize);
RNG.prototype.choice = function(array) {
  return array[this.nextRange(0, array.length)];

var rng = new RNG(20);
for (var i = 0; i < 10; i++)

var digits = ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9'];
for (var i = 0; i < 10; i++)
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Shouldn't the modulus be 2^31? I read this algorithm from wiki. –  Trantor Liu May 8 '13 at 8:43
@trantor good catch! Fixed. –  orip May 8 '13 at 11:00
Thank you, this is good enough for my purposes. –  Omiod May 29 '13 at 15:54
Just so you are aware, this is not "correct" in the sense that it doesn't output what the math dictates. On other words, a language that can handle those large numbers will have a different result. JS chokes on the big numbers and chops precision (they are floats, after all). –  DDS Oct 14 '13 at 10:42
-1 This LCG implementation busts the limit for exact integers in JavaScript as this.a * this.state is likely to result in a number greater than 2^53. The result is a limited output range, and for some seeds possibly a very short period. Further in general using a power of two for m result in some pretty obvious patterns, when you are expending a modulus operation rather than a simple truncation anyway there is no reason not to use a prime. –  aaaaaaaaaaaa Mar 15 '14 at 21:53

Note: This code was originally included in the question above. In the interests of keeping the question short and focused, I've moved it to this Community Wiki answer.

I found this code kicking around and it appears to work fine for getting a random number and then using the seed afterward but I'm not quite sure how the logic works (e.g. where the 2345678901, 48271 & 2147483647 numbers came from).

function nextRandomNumber(){
  var hi = this.seed / this.Q;
  var lo = this.seed % this.Q;
  var test = this.A * lo - this.R * hi;
  if(test > 0){
    this.seed = test;
  } else {
    this.seed = test + this.M;
  return (this.seed * this.oneOverM);

function RandomNumberGenerator(){
  var d = new Date();
  this.seed = 2345678901 + (d.getSeconds() * 0xFFFFFF) + (d.getMinutes() * 0xFFFF);
  this.A = 48271;
  this.M = 2147483647;
  this.Q = this.M / this.A;
  this.R = this.M % this.A;
  this.oneOverM = 1.0 / this.M;
  this.next = nextRandomNumber;
  return this;

function createRandomNumber(Min, Max){
  var rand = new RandomNumberGenerator();
  return Math.round((Max-Min) * rand.next() + Min);

//Thus I can now do:
var letters = ['a','b','c','d','e','f','g','h','i','j','k','l','m','n','o','p','q','r','s','t','u','v','w','x','y','z'];
var numbers = ['1','2','3','4','5','6','7','8','9','10'];
var colors = ['red','orange','yellow','green','blue','indigo','violet'];
var first = letters[createRandomNumber(0, letters.length)];
var second = numbers[createRandomNumber(0, numbers.length)];
var third = colors[createRandomNumber(0, colors.length)];

alert("Today's show was brought to you by the letter: " + first + ", the number " + second + ", and the color " + third + "!");

  If I could pass my own seed into the createRandomNumber(min, max, seed);
  function then I could reproduce a random output later if desired.
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Wow, the RandomNumberGenerator and nextRandomNumber functions actually date all the way back to 1996. It is supposed to be a Lehmer/LCG RNG. It uses some clever maths to perform modulo arithmetic on 32 bit integers that would otherwise be too small to contain some intermediate values. The thing is, JavaScript does not implement 32 bit integers, but rather 64 bit floats, and since the division is not integer division like this code presumes the result is not a Lehmer generator. It does produce some outcome that seem random, but the guarantees of a Lehmer generator do not apply. –  aaaaaaaaaaaa Mar 16 '14 at 9:28
The createRandomNumber function is a later addition, it does pretty much everything wrong, most notably it instantiates a new RNG every time it is called, which means that calls in rapid succession will all use the same float. In the given code it is almost impossible for 'a' to be paired with anything but '1' and 'red'. –  aaaaaaaaaaaa Mar 16 '14 at 9:42

I use a JavaScript port of the Mersenne Twister: https://gist.github.com/300494 It allows you to set the seed manually. Also, as mentioned in other answers, the Mersenne Twister is a really good PRNG.

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OK, here's the solution I settled on.

First you create a seed value using the "newseed()" function. Then you pass the seed value to the "srandom()" function. Lastly, the "srandom()" function returns a pseudo random value between 0 and 1.

The crucial bit is that the seed value is stored inside an array. If it were simply an integer or float, the value would get overwritten each time the function were called, since the values of integers, floats, strings and so forth are stored directly in the stack versus just the pointers as in the case of arrays and other objects. Thus, it's possible for the value of the seed to remain persistent.

Finally, it is possible to define the "srandom()" function such that it is a method of the "Math" object, but I'll leave that up to you to figure out. ;)

Good luck!


// Global variables used for the seeded random functions, below.
var seedobja = 1103515245
var seedobjc = 12345
var seedobjm = 4294967295 //0x100000000

// Creates a new seed for seeded functions such as srandom().
function newseed(seednum)
    return [seednum]

// Works like Math.random(), except you provide your own seed as the first argument.
function srandom(seedobj)
    seedobj[0] = (seedobj[0] * seedobja + seedobjc) % seedobjm
    return seedobj[0] / (seedobjm - 1)

// Store some test values in variables.
var my_seed_value = newseed(230951)
var my_random_value_1 = srandom(my_seed_value)
var my_random_value_2 = srandom(my_seed_value)
var my_random_value_3 = srandom(my_seed_value)

// Print the values to console. Replace "WScript.Echo()" with "alert()" if inside a Web browser.

Lua 4 (my personal target environment):

-- Global variables used for the seeded random functions, below.
seedobja = 1103515.245
seedobjc = 12345
seedobjm = 4294967.295 --0x100000000

-- Creates a new seed for seeded functions such as srandom().
function newseed(seednum)
    return {seednum}

-- Works like random(), except you provide your own seed as the first argument.
function srandom(seedobj)
    seedobj[1] = mod(seedobj[1] * seedobja + seedobjc, seedobjm)
    return seedobj[1] / (seedobjm - 1)

-- Store some test values in variables.
my_seed_value = newseed(230951)
my_random_value_1 = srandom(my_seed_value)
my_random_value_2 = srandom(my_seed_value)
my_random_value_3 = srandom(my_seed_value)

-- Print the values to console.
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PS - I'm not that familiar with Stack Overflow yet, but why aren't posts in chronological order? –  posfan12 Dec 23 '10 at 5:05
Hi @posfan12 - answers to questions are typically listed in order by "upvotes" such that the "cream rises to the top". However to ensure fair viewing of answers with the same score, they are shown in random order. Since this was my question originally ;-) I'll certainly be sure to check it out shortly. If I (or others) find this answer helpful we'll upvote it, and if I find it to be the "correct" answer, you'll see a green checkmark added to this answer as well. - Welcome to StackOverflow! –  scunliffe Dec 23 '10 at 5:14
-1 This LCG implementation busts the limit for exact integers in JavaScript as seedobj[0] * seedobja is likely to result in a number greater than 2^53. The result is a limited output range, and for some seeds possibly a very short period. –  aaaaaaaaaaaa Mar 15 '14 at 21:44

If you want to be able to specify the seed, you just need to replace the calls to getSeconds() and getMinutes(). You could pass in an int and use half of it mod 60 for the seconds value and the other half modulo 60 to give you the other part.

That being said, this method looks like garbage. Doing proper random number generation is very hard. The obvious problem with this is that the random number seed is based on seconds and minutes. To guess the seed and recreate your stream of random numbers only requires trying 3600 different second and minute combinations. It also means that there are only 3600 different possible seeds. This is correctable, but I'd be suspicious of this RNG from the start.

If you want to use a better RNG, try the Mersenne Twister. It is a well tested and fairly robust RNG with a huge orbit and excellent performance.

EDIT: I really should be correct and refer to this as a Pseudo Random Number Generator or PRNG.

"Anyone who uses arithmetic methods to produce random numbers is in a state of sin."
                                                                                                                                                          --- John von Neumann

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Regarding Mersenne Twister - it's a great PRNG, but it isn't secure. Having only 3600 possible initial states is terrible, but you should never rely on Mersenne Twister for secure randomness either. –  orip Jan 8 '09 at 15:02
A link to JS implementations of Mersenne Twister: math.sci.hiroshima-u.ac.jp/~m-mat/MT/VERSIONS/JAVASCRIPT/… –  orip Jan 8 '09 at 15:11
@orip Do you have a source for the 3600 initial states? Mersenne Twister is seeded by a 32 bit number, so the PRNG should have 4 billion initial states - only if the initial seed is truly random. –  Tobias P. Aug 1 '12 at 14:46
@TobiasP. I was referring to the suggestion to seed with a combination of getSeconds() and getMinutes(), 60 * 60 == 3600 possible initial states. I wasn't referring to Mersenne Twister. –  orip Aug 1 '12 at 14:49
@orip Ok, was not clear. You were taking about Mersenne Twister and in the next sentence about inital states ;) –  Tobias P. Aug 1 '12 at 15:00

One option is http://davidbau.com/seedrandom which is a seedable RC4-based Math.random() drop-in replacement with nice properties.

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David Bau's seedrandom has since become popular enough that he maintains it here on github. It's a shame ECMAScript has been so back scene for so long that things like this are not included in the language. Seriously, no seeding!!! –  Eat at Joes Jun 7 '14 at 5:31
@EatatJoes, It is both the shame and the glory of JS that this is both needed and possible. It's pretty cool that you can include one file and get backwards compatible changes made to the Math object. Not bad for 10 days work, Brendan Eich. –  Bruno Bronosky May 11 at 21:37

The code you listed kind of looks like a Lehmer RNG. If this is the case, then 2147483647 is the largest 32-bit signed integer, 2147483647 is the largest 32-bit prime, and 48271 is a full-period multiplier that is used to generate the numbers.

If this is true, you could modify RandomNumberGenerator to take in an extra parameter seed, and then set this.seed to seed; but you'd have to be careful to make sure the seed would result in a good distribution of random numbers (Lehmer can be weird like that) -- but most seeds will be fine.

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Just parameterize the constructor and set the seed:

function RandomNumberGenerator(Seed){
  var d = new Date();
  this.seed = Seed;
  this.A = 48271;
  this.M = 2147483647;
  this.Q = this.M / this.A;
  this.R = this.M % this.A;
  this.oneOverM = 1.0 / this.M;
  this.next = nextRandomNumber;
  return this;

And adjust your function that creates the random number generator like this:

function createRandomNumber(Seed, Min, Max){
  var rand = new RandomNumberGenerator(Seed);
  return Math.round((Max-Min) * rand.next() + Min);

And call like this:

var letters = ['a','b','c','d','e','f','g','h','i','j','k','l','m','n','o','p','q','r','s','t','u','v','w','x','y','z'];
var numbers = ['1','2','3','4','5','6','7','8','9','10'];
var colors = ['red','orange','yellow','green','blue','indigo','violet'];
var seed = <generate seed>;
var first = createRandomNumber(seed, 0, letters.length);
var second = createRandomNumber(seed, 0, numbers.length);
var third = createRandomNumber(seed, 0, colors.length);
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Without knowing how this RNG works, I don't think it is safe to just replace the calculated seed value with an arbitrary seed. –  Starkii Jan 8 '09 at 14:23

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