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I need to generate random numbers within a specified interval, [max;min].

Also, the random numbers should be uniformly distributed over the interval, not located to a particular point.

Currenly I am generating as:

for(int i=0; i<6; i++)
    DWORD random = rand()%(max-min+1) + min;

From my tests, random numbers are generated around one point only.

min = 3604607;
max = 7654607;

Random numbers generated:


From answers below: OK, RAND_MAX is 32767. I am on C++ Windows platform. Is there any other method to generate random numbers with a uniform distribution?

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Build a Dice-O-Matic: gamesbyemail.com/News/DiceOMatic –  Jarett Millard Sep 4 '09 at 14:04
I had no idea that C++'s rand() was uniform. Which library are you using? cstdlib.h's rand() is NOT uniform: cplusplus.com/reference/cstdlib/rand –  Mike Warren Jul 5 '13 at 8:11
No, rand() is uniform (except in some early buggy implementations). what is not uniform is using the modulus '%' operator to restrict the range. See stackoverflow.com/questions/2999075/… for a proper solution, or if you have 'arc4random_uniform' available then you can use that directly as well. –  John Meacham Oct 7 '13 at 4:00

14 Answers 14

up vote 38 down vote accepted

[edit] Warning: Do not use rand() for statistics, simulation, cryptography or anything serious.

It's good enough to make numbers look random for a typical human in a hurry, no more.

See @Jefffrey's reply for better options.

Generally, the high bits show a better distribution than the low bits, so the recommended way to generate random numbers of a range for simple purposes is:

((double) rand() / (RAND_MAX+1)) * (max-min+1) + min

Note: make sure RAND_MAX+1 does not overflow (thanks Demi)!

The division generates a random number in the interval [0, 1); "stretch" this to the required range. Only when max-min+1 gets close to RAND_MAX you need a "BigRand()" function like posted by Mark Ransom.

This also avoids some slicing problems due to the modulo, which can worsen your numbers even more.

The built-in random number generator isn't guaranteed to have a the quality required for statistical simulations. It is OK for numbers to "look random" to a human, but for a serious application, you should take something better - or at least check its properties (uniform distribution is usually good, but values tend to correlate, and the sequence is deterministic). Knuth has an excellent (if hard-to-read) treatise on random number generators, and I recently found LFSR to be excellent and darn simple to implement, given its properties are OK for you.

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BigRand can give better results even when the desired range doesn't exceed RAND_MAX. Consider when RAND_MAX is 32767 and you want 32767 possible values - two of those 32768 random numbers (including zero) are going to map to the same output, and will be twice as likely to occur as the others. Hardly an ideal random property! –  Mark Ransom Jul 13 '09 at 19:36
(RAND_MAX + 1) is a bad idea. This can rollover and give you a negative value. Better to do something like: ((double)RAND_MAX) + 1.0 –  Demi Feb 2 '10 at 5:08
but will this work is my max is RAND_MAX and min is 0?? –  Sadiksha Gautam May 3 '12 at 0:16
@peterchen: I think you misunderstood what demi was saying. She meant this: ( rand() / ((double)RAND_MAX+1)) * (max-min+1) + min Simply move the conversion to double and avoid the problem. –  TBohne Aug 1 '13 at 18:24
Also, this merely changes the distribution from the bottom 32767 values in the range to even evenly distributed 32767 values in the range, and the remaining 4017233 values will never be selected by this algorithm. –  TBohne Aug 1 '13 at 18:28

Why rand is a bad idea

Most of the answers you got here make use of the rand function and the modulus operator. That method may not generate numbers uniformly (it depends on the range and the value of RAND_MAX), and is therefore discouraged.

C++11 and generation over a range

With C++11 multiple other options have risen. One of which fits your requirements, for generating a random number in a range, pretty nicely: std::uniform_int_distribution. Here's an example:

const int range_from  = 0;
const int range_to    = 10;
std::random_device                  rand_dev;
std::mt19937                        generator(rand_dev());
std::uniform_int_distribution<int>  distr(range_from, range_to);

std::cout << distr(generator) << '\n';

And here's the running example.

Other random generators

The <random> header offers innumerable other random number generators with different kind of distributions including Bernoulli, Poisson and normal.

How can I shuffle a container?

The standard provides std::random_shuffle, which can be used as follows:

std::vector<int> vec = {4, 8, 15, 16, 23, 42};

std::random_device random_dev;
std::mt19937       generator(random_dev());

std::shuffle(vec.begin(), vec.end(), generator);

The algorithm will reorder the elements randomly, with a linear complexity.


Another alternative, in case you don't have access to a C++11+ compiler, is to use Boost.Random. Its interface is very similar to the C++11 one.

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GIVE ATTENTION to this answer, since it's far more modern. –  gsamaras Dec 12 '14 at 21:51

If you are able to, use Boost. I have had good luck with their random library.

uniform_int should do what you want.

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I've done some work on uniform_int with a merseinne twister and unfortunately for certain ranges the values returned by uniform_int are not as uniform as I'd expect. For instance uniform_int<>( 0, 3 ) tends to produce more 0's than 1's or 2's –  ScaryAardvark Feb 2 '10 at 11:12

If RAND_MAX is 32767, you can double the number of bits easily.

int BigRand()
    assert(INT_MAX/(RAND_MAX+1) > RAND_MAX);
    return rand() * (RAND_MAX+1) + rand();
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If you are concerned about randomness and not about speed, you should use a secure random number generation method. There are several ways to do this... The easiest one being to use OpenSSL's Random Number Generator.

You can also write your own using an encryption algorithm (like AES). By picking a seed and an IV and then continuously re-encrypting the output of the encryption function. Using OpenSSL is easier, but less manly.

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I cannot use any third party library?I am restricted to C++ only. –  Alien01 Nov 13 '08 at 23:36
Then go the manly route, implement AES or some other encryption algorithm. –  SoapBox Nov 13 '08 at 23:39
RC4 is trivial to code, and random enough for all practical purposes (except WEP, but that's not entirely RC4's fault). I mean it, it's incredibly trivial code. Like, 20 lines or so. The Wikipedia entry has pseudo-code. –  Steve Jessop Nov 14 '08 at 1:21
Why can you not use third party code? If this is a homework question, you should say so, because many people would rather give helpful hints instead of providing complete solutions in this case. If it ain't a homework, go kick the guy who says "no 3rd party code", because he's a moron. –  DevSolar Feb 2 '10 at 10:49
More direct link to the OpenSSL rand() function docs: openssl.org/docs/crypto/rand.html# –  DevSolar Feb 2 '10 at 10:51

You should look at RAND_MAX for your particular compiler/environment. I think you would see these results if rand() is producing a random 16-bit number. (you seem to be assuming it will be a 32-bit number).

I can't promise this is the answer, but please post your value of RAND_MAX, and a little more detail on your environment.

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Check what RAND_MAX is on your system -- I'm guessing it is only 16 bits, and your range is too big for it.

Beyond that see this discussion on: Generating Random Integers within a Desired Range and the notes on using (or not) the C rand() function.

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Ok RAND_MAX is 32767. I am on C++ windows platform.. Is there any other method to generate random numbers with uniform distribution? –  Alien01 Nov 13 '08 at 23:35

If you want numbers to be uniformly distributed over the range, you should break your range up into a number of equal sections that represent the number of points you need. Then get a random number with a min/max for each section.

As another note, you should probably not use rand() as it's not very good at actually generating random numbers. I don't know what platform you're running on, but there is probably a better function you can call like random().

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This is not the code, but this logic may help you.

static double rnd(void)
return (1.0/(RAND_MAX+1.0)*((double)(rand())) );

static void InitBetterRnd(unsigned int seed)
register int i;
srand( seed );
for( i=0; i<POOLSIZE; i++){
pool[i]= rnd();

 static double rnd0_1(void)
 {  // This function returns a number between 0 and 1
static int i=POOLSIZE-1;
double r;

i = (int)(POOLSIZE*pool[i]);
return (r);
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By their nature, a small sample of random numbers doesn't have to be uniformly distributed. They're random, after all. I agree that if a random number generator is generating numbers that consistently appear to be grouped, then there is probably something wrong with it.

But keep in mind that randomness isn't necessarily uniform.

Edit: I added "small sample" to clarify.

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"uniformly distributed" has a well defined meaning, and the standard random generators usually come close. –  peterchen Nov 14 '08 at 0:11
Yes, you are right, random number generators should produce output that over time is generally uniform in its distribution. I guess my point is that over a small number of instances (6 as shown in the example) the output won't always be uniform. –  Kluge Nov 14 '08 at 0:20
Kluge is right. Uniform distribution in a small sample indicates that the sample is definitely not random. –  Bill the Lizard Nov 14 '08 at 0:26
Bill, it indicates no such thing. Small samples are mostly meaningless, but if the RNG is supposed to be uniform and the output is uniform, why is that any worse than an non-uniform small sample? –  Dan Dyer Nov 14 '08 at 0:41
Significant distributions either way indicate non-randomness: I think Bill just means that 6 equally-spaced results would also be suspect. In the OP, 6 values lie in a range of 32k/4M, or <1% of the desired range. The probability of this being a false positive is too small to argue over. –  Steve Jessop Nov 14 '08 at 1:26

The solution given by man 3 rand for a number between 1 and 10 inclusive is:

j = 1 + (int) (10.0 * (rand() / (RAND_MAX + 1.0)));

In your case, it would be:

j = min + (int) ((max-min+1) * (rand() / (RAND_MAX + 1.0)));

Of course, this is not perfect randomness or uniformity as some other messages are pointing out, but this is enough for most cases.

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This merely rearranges the distribution to appear more even, but it's not actually any more even for large ranges (such as the OP's case) –  TBohne Aug 1 '13 at 18:30

@Solution ((double) rand() / (RAND_MAX+1)) * (max-min+1) + min

Warning: Don't forget due to stretching and possible precision errors (even if RAND_MAX were large enough), you'll only be able to generate evenly distributed "bins" and not all numbers in [min,max].

@Solution: Bigrand

Warning: Note that this doubles the bits, but still won't be able to generate all numbers in your range in general, i.e., it is not necessarily true that BigRand() will generate all numbers between in its range.

Info: Your approach (modulo) is "fine" as long as the range of rand() exceeds your interval range and rand() is "uniform". The error for at most the first max - min numbers is 1/(RAND_MAX +1).

Also, I suggest to switch to the new random packagee in C++11 too, which offers better and more varieties of implementations than rand().

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This should provide a uniform distribution over the range [low, high) without using floats, as long as the overall range is less than RAND_MAX.

uint32_t rand_range_low(uint32_t low, uint32_t high)
    uint32_t val;
    // only for 0 < range <= RAND_MAX
    assert(low < high);
    assert(high - low <= RAND_MAX);

    uint32_t range = high-low;
    uint32_t scale = RAND_MAX/range;
    do {
        val = rand();
    } while (val >= scale * range); // since scale is truncated, pick a new val until it's lower than scale*range
    return val/scale + low;

and for values greater than RAND_MAX you want something like

uint32_t rand_range(uint32_t low, uint32_t high)
    uint32_t val;
    uint32_t range = high-low;
    if (range < RAND_MAX)
        return rand_range_low(low, high);
    uint32_t scale = range/RAND_MAX;
    do {
        val = rand() + rand_range(0, scale) * RAND_MAX; // scale the initial range in RAND_MAX steps, then add an offset to get a uniform interval
    } while (val >= range);
    return val + low;

This is roughly how std::uniform_int_distribution does things.

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I just found this on the Internet. This should work:

DWORD random = ((min) + rand()/(RAND_MAX + 1.0) * ((max) - (min) + 1));
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Please clarify what you need them for, there are tons of algorithms for PRNG's out there. Also, it would be easier if you edit your main question instead of posting replies. –  peterchen Nov 14 '08 at 0:33
This works best for me...I am able to get better distributed random numbers with this formula.. –  Alien01 Nov 14 '08 at 2:20
If your range exceeds RAND_MAX, the results may be won't be uniform. That is, there are values in the range that won't be represented no matter how many times in call your function. –  dmckee Nov 14 '08 at 3:45
Also, if max and min are both unsigned int, and min is 0, and max is MAX_UINT, then ((max)-(min)+1) will be 0, and the result will be 0 always. Watch out for overflow doing this type of math! As noted by dmckee, this stretches the distribution over destination range, but doesn't guarantee more than RAND_MAX unique values. –  jesup Jan 6 '10 at 19:57

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