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For 6 years I've had a random number generator page on my website. For a long time, it was the first or second result on Google for "random number generator" and has been used to decide dozens, if not hundreds of contests and drawings on discussion forums and blogs (I know because I see the referrers in my web logs and usually go take a look).

Today, someone emailed me to tell me it may not be as random as I thought. She tried generating very large random numbers (e.g., between 1 and 10000000000000000000) and found that they were almost always the same number of digits. Indeed, I wrapped the function in a loop so I could generate thousands of numbers and sure enough, for very large numbers, the variation was only about 2 orders of magnitude.


Here is the looping version, so you can try it out for yourself:

It includes both a straightforward implementation taken from the Mozilla Developer Network and some code from 1997 that I swiped off a web page that no longer exists (Paul Houle's "Central Randomizer 1.3"). View source to see how each method works.

I've read here and elsewhere about Mersenne Twister. What I'm interested in is why there wouldn't be greater variation in the results from JavaScript's built-in Math.random function. Thanks!

share|improve this question
sarnath'd by everyone – annakata Jun 30 '09 at 10:34
I don't get it. "sarnath'd"? – Andrew Hedges Jun 30 '09 at 11:15
"sarnath'd" as in, beaten to the punch, or in this case, the answer – maetl Jun 30 '09 at 11:29
If you're looking for the answer to the question in the title, see… – Andrew Badr Jun 7 '12 at 23:53
up vote 124 down vote accepted

Given numbers between 1 and 100.

  • 9 have 1 digit (1-9)
  • 90 have 2 digits (10-99)
  • 1 has 3 digits (100)

Given numbers between 1 and 1000.

  • 9 have 1 digit
  • 90 have 2 digits
  • 900 have 3 digits
  • 1 has 4 digits

and so on.

So if you select some at random, then that vast majority of selected numbers will have the same number of digits, because the vast majority of possible values have the same number of digits.

share|improve this answer
Your idea of randomness meaning perfectly and evenly distributed is intriguing... – Roger Pate Jun 30 '09 at 10:34
@R.Pate - random number generation isn't much use unless it is evenly distributed on a long scale – annakata Jun 30 '09 at 10:56
Read again. @David is only stating what kind of numbers there are between the limits, not the result of selecting N random numbers. I do admit the titling is misleading. – Jun 30 '09 at 10:57
For the record, I voted up both this and @jwoolard's answers. I chose this one as the accepted answer because the examples make it clear as crystal why the distribution of numbers is skewed to numbers with more digits. – Andrew Hedges Jun 30 '09 at 11:13
@andrew-hedges quite right - this is the clearer answer, but thanks :) – jwoolard Jul 1 '09 at 9:04

Your results are actually expected. If the random numbers are uniformly distributed in a range 1 to 10^n, then you would expect about 9/10 of the numbers to have n digits, and a further 9/100 to have n-1 digits.

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Exactly. The distribution of the number of digits is expectedly going to be skewed. The distribution of the log of the number of digits shoudl be uniform however. – Noldorin Jun 30 '09 at 10:34

There different types of randomness. Math.random gives you an uniform distribution of numbers.

If you want different orders of magnitude, I would suggest using an exponential function to create what called a power law distribution:


Should give you roughly the same number of 1-digit numbers as 2-digit numbers and as 3-digit numbers.

There are also other distributions for random numbers like the normal distribution (also called Gaussian distribution).

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That's helpful, thanks! – Andrew Hedges Jul 2 '09 at 10:21
With this algorithm, I put the minimum = 1 and the maximum = 10 and would sometimes get 11 as a result. You probably meant to use Math.floor instead of Math.round – Sam Eaton Aug 3 '15 at 20:13
@SamEaton : Thanks, I updated it. – Christian Aug 31 '15 at 12:06

The following paper explains how math.random() in major Web browsers is (un)secure: "Temporary user tracking in major browsers and Cross-domain information leakage and attacks" by Amid Klein (2008). It's no stronger than typical Java or Windows built-in PRNG functions.

On the other hand, implementing SFMT of the period 2^19937-1 requires 2496 bytes of the internal state maintained for each PRNG sequence. Some people may consider this as unforgivable cost.

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+1: The mentioned paper is great, far beyond what the original question was about. – Roland Illig Mar 11 '11 at 21:44
Thx @trikly for link update. – jj1bdx Mar 25 at 16:19

Looks perfectly random to me! (Hint: It's browser dependent.)

Personally, I think my implementation would be better, although I stole it off from XKCD, who should ALWAYS be acknowledged:

random = 4; // Chosen by a fair dice throw. Guaranteed to be random.
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+1 for mentioning it's browser dependent, -1 for borrowing xkcd without linking. – Roger Pate Jun 30 '09 at 10:32
Required or not, since it's xkcd, it's getting attributed. :) – Arafangion Jun 30 '09 at 10:35
OT: I'm surprised and happy that "XKCD" was the answer to a University Challenge question this week :D – Matt Sach Jul 23 '09 at 11:00
-1 for not citing XKCD correctly… – Bergi Jun 3 '13 at 16:42
Bergi: A direct link isn't enough? – Arafangion Jun 4 '13 at 1:50

If you use a number like 10000000000000000000 you're going beyond the accuracy of the datatype Javascript is using. Note that all the numbers generated end in "00".

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That's not his problem in this case, though. – Joey Jun 30 '09 at 10:31
@Johannes - it's one of his problems :) – annakata Jun 30 '09 at 10:33

I tried JS pseudorandom number generator on Chaos Game.

My Sierpiński triangle says its pretty random: Fractal

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Would you mind sharing the triangle code here and jsfiddle/jsbin so we can easily check it out in practice for different browsers? – Fabrício Matté Jan 8 '13 at 2:44
OK, but give me few days, because I need to translate code to english. Now it is polish-english and I have a lot of work. – zie1ony Jan 11 '13 at 13:24
@zie1ony a couple days are up. – trusktr Apr 14 '13 at 2:00
Still waiting on that jsfiddle! – André Terra Jul 10 '13 at 14:57
usp :( work, work, work Link: First parameter is nr of vertex. The second one is a point of intersection (from 0 to 1) of line segment. Just experiment. – zie1ony Jul 16 '13 at 21:55

Well, if you are generating numbers up to, say, 1e6, you will hopefully get all numbers with approximately equal probability. That also means that you only have a one in ten chance of getting a number with one digit less. A one in a hundred chance of getting two digits less, etc. I doubt you will see much difference when using another RNG, because you have a uniform distribution across the numbers, not their logarithm.

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