# How to generate a random number from scratch

How can a random number be generated from scratch, i.e without using any built-in features of the language / outside API that will help with the randomization process?

For example php has a rand() function and a seed function, and I'm sure java also has some similar stuff.

You can use built-in functions to get the current time etc, but the actual process of generating a random number has to be done by your code.

Any ideas?

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For Javascript? –  Jonathan Sampson Dec 28 '09 at 0:20
Why are you asking? Is this a homework question, or are you just interested in the process of creating (pseudo)-random numbers? –  sleske Dec 28 '09 at 0:25
If it's the process itself you may want to remove language-specific tags (php, java, javascript) and go with something like homework (if it is), or rosetta-stone (for langauge agnostic solutions). Also, +1 @sleske, exactly what I wondered reading the question. –  David Thomas Dec 28 '09 at 0:27
Pseudo-random. You generate pseudo-random numbers with software. To get real randomness you have to interact with the non-deterministic (or at least unpredictably complicated) world. –  dmckee Dec 28 '09 at 2:04
Obligatory caution - Homework use is fine, but do not use a custom (psudo)random number generator for encryption. Leave that to the experts. ;-) –  Chris Nava Dec 28 '09 at 2:21

Take some initial seed number and multiply it with a large and well picked number to produce new pseudo-random numbers. Actually, this is what many languages do.

int seed = 94664704;
public int rand() {
seed = 23*seed % 10e8 + 1;
return seed % 10e5;
}

Taken from my highschool formula collection, Formeln und Tafeln, page 8.

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Well, just what makes a number "well picked"? –  sleske Dec 28 '09 at 0:32
I guess Knuth discusses that to full length... –  akuhn Dec 28 '09 at 3:36

Java actually details how they pick the next random number in the javadoc for java.util.Random:

The general contract of next is that it returns an int value and if the argument bits is between 1 and 32 (inclusive), then that many low-order bits of the returned value will be (approximately) independently chosen bit values, each of which is (approximately) equally likely to be 0 or 1. The method next is implemented by class Random as follows:

synchronized protected int next(int bits) {
seed = (seed * 0x5DEECE66DL + 0xBL) & ((1L << 48) - 1);
return (int)(seed >>> (48 - bits));
}

This is a linear congruential pseudorandom number generator, as defined by D. H. Lehmer and described by Donald E. Knuth in The Art of Computer Programming, Volume 2: Seminumerical Algorithms, section 3.2.1.

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Beware that this is pseudo-random not random, and that if you supply the same seed you will get the same sequence of numbers. –  Stephen C Dec 28 '09 at 4:44
@Stephen: Isn't that the case with every computer based number generator? I mean, there is no thing like real random number generation, as long as you take something into what is random (like atmospheric noise or something). –  Bobby Dec 28 '09 at 12:07
No, most depend on entropy in the system, and not solely or at all on some seed. –  Alex Budovski Dec 29 '09 at 5:35
Would be nice if you translated that into english. –  Click Upvote Dec 17 '11 at 9:02

Obligatory Dilbert and xkcd references.

Seriously, the answer to your question is no, there is no way to generate a truly random number from scratch — you need to use some external entropy. You probably have a pseudorandom number in mind. In that case you have to specify exactly the degree of pseudorandomness you want.

In particular, some posted answers will provide very reasonable pseudorandom generators for purposes like generating test data, but it's much harder to correctly implement a generator suitable for encryption.

Here's a list of pseudorandom number generators from Wikipedia.

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hehe. Were ever truer things drawn? –  Tom R Dec 28 '09 at 0:27

Implement a linear congruential generator -- simple, and reasonably high quality for well chosen parameters.

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If you need a good quality random number, then you should look in to implementing the Mersenne twister random number generator in your language of choice. There are a lot of ready implementations floating around the net, so you can just pick one that you'd like to use.

If you can deal with something cruddy, just use a linear congruential generator.

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most languages have a PRNG function like Math.random() in java. The PRNG is usually seeded with a value like the current time or something you choose.

For something more secure, you need a greater source of entropy than the current time. A class like java.security.SecureRandom implements that.

One high quality PRNG is the Mersenne Twister algorithm.

There are much simpler PRNG's for more basic applications, like this one from the C documentation:

int rand(void)
{
next = next * 1103515245 + 12345;
return (unsigned int)(next/(2 * (RAND_MAX +1L)) % (RAND_MAX+1L));
}

void srand(unsigned int seed)
{
next = seed;
}

You can test the quality of your PRNG using this tester: http://www.phy.duke.edu/~rgb/General/dieharder.php

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If you want truly random, you must build a dice rolling robot and then program it accordingly. Or buy the one this dude made:

DiceOMatic

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or getUserMedia from webcam and/or microphone. –  c69 Oct 9 '11 at 7:02

Wikipedia's discussion of the linear congruential generator is decent and accessible, if you're hell-bent on doing this yourself:

http://en.wikipedia.org/wiki/Random%5Fnumber%5Fgeneration#Computational%5Fmethods

Though I can't imagine why you'd want to do this yourself; most decent languages and/or operating environments already provide tested sources of pseudo-randomness.

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Your question is a bit unclear. Are you trying to solve a concrete problem? Are you just asking out of curiosity?

If I understand you correctly, you want to re-implement the random-number generation that most languages/APIs offer. To do this, you'll have to implement a pseudo-random generator. This is a rather complex mathematical topic (if you want to do it correctly), so be prepared to do a lot of reading and thinking. A good starting point would be the Wikipedia article on Pseudorandom number generators

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I've actually been curious about this. I never took the time to look up how it was actually done when Math.random was applied to JavaScript. I did however make my own little random generator, although I'm sure it isn't the best way to make one, and I'm absolutely sure that it isn't very efficient when it comes to performance.

(function() {
var rand = "0.";

for(var i=10; i>=0; i--)
{
rand = rand + (function() {
var start = new Date().getTime();

for(var i=100000; i>=0; i--) { }
return new Date().getTime() - start;
})();
}

return eval(rand);
})();

The only thought I could come up with when I asked myself "How could a computer possibly come up with a random number?" was actually pretty simple. As most of you would probably know just by looking at the code above, the random numbers are actually generated by the amount of time it takes for the computer to process a for loop. Of course computers, (being made to process data,) process data very quickly. Because of this, we had to give it a large loop in which would delay the computer for at least a millisecond or so. (This is what I was getting at when I said it was inefficient.) Once the loop's execution was complete, we simply gathered the difference between the time the loop started, and the time it ended. This results in a few milliseconds. We run these loops ten times and log how much time it needed to complete these loops by adding the time to the end of the 0. string. This results in a completely random number, because the computer has random spikes in CPU which allows it to process data quickly at times and slowly at other times. At the end of the function, we simply convert the string to a decimal, and return it!

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Use system clock. Then hash it.

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Hm, the question says "without using any built-in features of the language / outside API that will help with the randomization process", so using a hash function might not be allowed... –  sleske Dec 28 '09 at 0:26
I know that this post was [probably] meant as a "mental exercise", but in case someone reads your post and thinks "Hey, nice idea, I'll use that in my program!".... Please don't do that. You want your seed/entropy to be non-obvious, otherwise it's too easy to figure out what's coming next. That's a bad thing when dealing with session ids, encryption keys, etc. –  Sam Bisbee Jan 1 '10 at 22:12
public static int rand(int n, int m) {
if ( n == m )
return(n);
int span = m - n + 1;
double r = Math.random();
int raw = (int)(r * span);
int ret = n + raw;
return(ret);
}
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Math.random() is a 'built-in feature of the language '. –  Andrew Thompson May 1 '11 at 11:01

Computers being discrete mathematical device are incapable of generating pure random number without external intervention. Below code generates fairly usable random number:

public static synchronized String getAutoGenId(){
StringBuilder autogenID=new StringBuilder();
try
{

Random rand = new Random();
autogenID.append(Long.toString(System.nanoTime()));
autogenID.append(Integer.toString(rand.nextInt(99)));
if(autogenID.toString().length()<15)
{
autogenID.append(Integer.toString(rand.nextInt(9)));
}

} catch (Exception e) {
//Do something
}
return autogenID.toString();
}

Or else you may also find it interesting to study the implementation of UUID

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Not clear what half this method does. perhaps you could add some comments like why you wait 10 milli-seconds and why you create a Date object only to extract the current time millis. Why create random numbers of between 0-98 or 0-8 instead of 0-99 or 0-9. Why use StringBuffer instead of StringBuilder. –  Peter Lawrey Dec 28 '09 at 12:05
You could consider using System.nanoTime() which is what new Random() does and just generate a simple number or two without using Strings. –  Peter Lawrey Dec 28 '09 at 12:08
-1: Seems very strange. And unless the poster can describe and explain why it is implemented as it is I call bogus. –  Hannes Ovrén Dec 28 '09 at 12:08
Thanks for the input, made some changes as per comments, this is not an example of best (pseudo)random generator, this is just what we use to get 15 char length key for our use. –  Ravi Gupta Dec 29 '09 at 5:41