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How to create a function, which on every call generates a random integer number? This number must be most random as possible (according to uniform distribution). It is only allowed to use one static variable and at most 3 elementary steps, where each step consists of only one basic arithmetic operation of arity 1 or 2.


int myrandom(void){
  static int x;
  x = some_step1;
  x = some_step2;
  x = some_step3;
  return x;

Basic arithmetic operations are +,-,%,and, not, xor, or, left shift, right shift, multiplication and division. Of course, no rand(), random() or similar stuff is allowed.

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This is a worthless interview-question. It asks for something that you know (or might know, or you might just have read in a magazine), not something that you can (or can deduct, or can reason about). – Patrick Jun 17 '10 at 15:03
return (3); (that's just as random as anything is, in this context of interview question) – KevinDTimm Jun 17 '10 at 15:06
#1, it's a joke. #2, who is to say that returning the same number is not random? – KevinDTimm Jun 17 '10 at 15:10
And it should be pointed out that 3 is well distributed on the range (3). – LanceH Jun 17 '10 at 15:13
A good random number generator is a very, very difficult problem. Unless the candidate already has lots of experience with them and the math behind them, they aren't going to come up with anything reasonable. "The generation of random numbers is too important to be left to chance." - Robert R. Coveyou – whatsisname Jun 17 '10 at 16:41
up vote 26 down vote accepted

the Linear Congruential Generator is one of the oldest and simplest method:

int seed = 123456789;

int rand()
  seed = (a * seed + c) % m;
  return seed;

Ony few instruction with basic arithmetic operations, that's what you needed.

Mind that this algorithm works fine just if a, c and m are chosen in a particular way!

To guarantee the longest possible period of this sequence c and m should be coprime, a-1 should be divisible by all prime factors of m and also for 4 if m is divisible by 4.

Some examples of values are shown in Wikipedia: for example ANSI C for some compilers proposes m = 2^32, a = 1103515245 and c = 12345

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Worth noting that m = 2^32 won’t work in your above code … for such a value, the % m operation can just be removed (and that’s indeed the reason for choosing it). – Konrad Rudolph Jun 17 '10 at 14:57
There is no seed given. – psihodelia Jun 17 '10 at 15:03
@psihodelia - what is 'int seed = 123456789;' then? – KevinDTimm Jun 17 '10 at 15:09
He means that it's not supposed to have a seed. @psihodelia 'seed' is the static variable you are allowed. It has to have an initial value of some sort. – Nick Johnson Jun 17 '10 at 15:25
I come here indirectly, and so for future readers, I'd like to add that this is quite close to the reference implementation of rand(). – std''OrgnlDave Apr 3 '12 at 23:19

You might have a look at this. It's far from beeing a "perfect" random number generator, but it does fulfil your requirements as far as i can see.

Here you can find some additional information about random number generation.

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public long randomLong() {
  x ^= (x << 21);
  x ^= (x >>> 35);
  x ^= (x << 4);
  return x;

Seed cannot be 0. Source:

Additional info in wiki:

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where is the "randomness" in this solution? – Gian Paolo Nov 27 '15 at 13:25
The "randomness" is in XOR operation flipping shifted bits "randomly" :). For this purpose we need at least one bit set, that's why the seed cannot be zero. – misioptysio Nov 28 '15 at 20:23
... and this type of solution seems cheaper in terms of CPU cycles: no multiplication, no dividing - might be useful for intensive generating. – misioptysio Nov 30 '15 at 11:09
I understand now (if I'm not wrong) that x here is the previous generated random number, ain't it? – Gian Paolo Nov 30 '15 at 11:15
Sorry for the delay. Yes, that x is a seed / previously generated number, so according to the generation rules, next value is obtained from the previous one using simple arithmetic operations. – misioptysio Dec 9 '15 at 13:52

Here's a function with uniform distribution over the entire range of int:

int rand()
  static int random = 0;
  return random++;
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not random: it is easily recognizable how it is produced (the rule of production), so this qualifies it as not random (and very bad pseudorandom). – ShinTakezou Jun 17 '10 at 15:53
@Shin: I never claimed it was a good PRNG, just that it was a PRNG. :P – Bill Jun 17 '10 at 17:26
@Shin: How are you planning to prove that any particular solution is the "most random possible" solution? – Bill Jun 18 '10 at 16:39
@Shin: A perfectly good source of random numbers (a physics-based generator) will produce all sequences of such rising numbers! The longer the sequence, the longer you'll have to wait to see it, but just try it for yourself. Get any random number source you consider decent, and start looking for increasing sequences in it. Prepeare to be amazed :) Hint: The probability of getting a rising sequence of arbitrary length is non-zero. That's it. And that's also how you can differentiate between a PRNG and a real RNG. A PRNG will never generate some sequences, the real one will. – Kuba Ober Feb 4 '13 at 20:26
@Shin: In fact, a simple way (usually) of telling if you're dealing with a PRNG is to chose an arbitrary sequence of numbers, and check if you're getting it on average "sufficiently often". As your sequence length goes up, eventually you'll hit sequences that a PRNG will never produce, whereas a real random number source will indeed produce them as expected from theory. I suspect you've never really looked at truly random sequences of numbers. At short lengths they appear quite "nonrandom". – Kuba Ober Feb 4 '13 at 20:28

If I write man rand, I can read a possible example, given in POSIX.1-2001, for implementing rand() and srand(). See e.g. here. If you need something more sophisticated, take a look at GNU Scientific Library; you can of course download the code and see the implementation(s).

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Boost has a very nice random number library, and the source code is available, so you could try looking there and using what you need (i.e. cut and paste).

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I use this

    USE Variaveis
    parameter (ia=843314861,ib=453816693,m=1073741824, r231=1./2147483648.)
    INTEGER :: iiseed

    iiseed = ib + ia*iiseed
    if ( iiseed = (iiseed+m) + m
    RndNum = iiseed*r231


A big gain of randomness can be achieved without spending more computational time creating a random number generator for each call the random number generator made in the program.

This is a very good trick!

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