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I have all kinds of resources that rely on javascript random numbers. However, I've been seeing a lot of problems where random isn't so random because of the way I'm generating random numbers.

Is there any javascript resource for me to generate true, or just better random numbers?

I know that I can interface with, but what other options do I have?

I'm using:

function rand( lowest, highest){
    var adjustedHigh = (highest - lowest) + 1;       
    return Math.floor(Math.random()*adjustedHigh) + parseFloat(lowest);
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In what way are they not so random? i.e. how do you know? – Phil H Oct 1 '12 at 12:56
What do you mean by "true random"? Afaik you can't generate them with an algorithm, so you will need to proxy – Bergi Oct 1 '12 at 13:07
@PhilH – rlb.usa Oct 1 '12 at 14:35
rlb.usa, that link concerns PHP random numbers. For javascript, I suspect the randomness of the PRNG will be dependent on the implementation; have you tested the PRNG you are using? Again, how do you know it's not good enough? – Phil H Oct 1 '12 at 14:47

2 Answers 2

up vote 9 down vote accepted

Assuming you're not just seeing patterns where there aren't any, try a Mersenee Twister (Wikipedia article here). There are various implementations like this one on github.

Similar SO question:

How to create my own JavaScript Random Number generator that I can also set the seed

If you want something closer to truly random, then consider using the API to get truly random numbers, although I would suggest only using that to seed, not for every number, as you need to abide by their usage limits.

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+1 for the Github link – Benjam Jun 11 '14 at 17:11

Tweaking numbers so they "look random"

I agree with Phil H that humans are so good at finding patterns that they often think they see patterns even in "perfectly random" sequences of numbers (clustering illusion, apophenia, gambler's fallacy, etc).

Plots of true random positions generally have lots of clumps and points that "coincidentally" fall very close together, which looks pretty suspicious.

Artists often take completely randomly generated patterns and "nudge" them to make them appear "more random", even though that careful nudging actually makes the pattern less random (a), (b), (c), (d), etc.

Alternatively, a low-discrepancy sequence sometimes "looks better" than a true random sequence and is much faster to generate.

fast random number generators

There are many "random number generators" across a whole spectrum from "extremely fast" to "relatively slow" and from "easy for even a human to see patterns" to "unlikely that unassisted humans could ever see any patterns" to "cryptographically secure and, after seeded with adequate amounts of entropy, as far as we can tell, indistinguishable from random to any attacker using less than all the energy produced by humanity for a month."

Non-cryptographic-strength random number generators that still give excellent output (unlikely that unassisted humans could ever see any patterns) include the Mersenne twister, multiply-with-carry, Lagged Fibonacci generator, Well equidistributed long-period linear, Xorshift, etc.

cryptographic random number techniques that work with some browsers

I hear that Cryptocat and other JavaScript applications use the convenient "window.crypto.getRandomValues()" or "window.msCrypto.getRandomValues()" or "SubtleCrypto.generateKey()" functions that are designed to generate cryptographic random numbers. Alas, that function is apparently not yet available in many web browsers.

Since web browsers use random numbers all the time (for every "https://" page they fetch), it's quite likely that these functions (where available) may run faster than most random number generators written in JavaScript -- even non-cryptographic algorithms.

cryptographic random number techniques compatible with ancient and modern browsers

One way to generate true random numbers in JavaScript is to capture mouse events and add them into a pool of entropy, keeping track of some (hopefully conservative) estimate of the entropy added. Once the pool is "full" (estimates indicate that at least 128 bits of entropy have been added), use some cryptographically secure random number generator to generate random numbers from the pool -- typically by using a one-way hash so that a sequence of a few thousand output numbers are not enough to deduce the state of the entropy pool and hence predict the next output number.

One implementation:

Further reading

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