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I know there is a bit of limitations for a random number generation in C++ (can be non-uniform). How can I generate a number from 1 to 14620?

Thank you.

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Did you now even look up how to use random numbers in C++? You also failed to state if you needed a better solution to built in random numbers in C++ or just being told how to use rand. – thecoshman Feb 16 '11 at 17:28
could you clarify what you mean with "limitations for a random number generation" specific to c++? More or less uniform sequences come from better or worse generators. – Francesco Feb 16 '11 at 18:18
If rand() was (can be non-uniform) then it would not be much use. – Loki Astari Feb 16 '11 at 18:21
@thecoshman: yes, I did look it up, but I could not figure out how to make them truly random in the sense of the uniform distribution. – notrockstar Feb 16 '11 at 19:05
@notroackstar then rehaps your question should state you want truly random numbers, or at least a non-uniform distribution – thecoshman Feb 16 '11 at 19:23
up vote 15 down vote accepted

A common approach is to use std::rand() with a modulo:


// ...
std::srand(std::time(0));  // needed once per program run
int r = std::rand() % 14620 + 1;

However, as @tenfour mentions in his answer, the modulo operator can disrupt the uniformity of values std::rand() returns. This is because the modulo translates the values it discards into valid values, and this translation might not be uniform. For instance, for n in [0, 10) the value n % 9 translates 9 to 0, so you can get zero by either a true zero or a 9 translated to zero. The other values have each only one chance to yield.

An alternative approach is to translate the random number from std::rand() to a floating-point value in the range [0, 1) and then translate and shift the value to within the range you desire.

int r = static_cast<double>(std::rand()) / RAND_MAX * 14620 + 1;
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If you've got a c++0x environment, a close derivative of the boost lib is now standard:

#include <random>
#include <iostream>

int main()
    std::uniform_int_distribution<> d(1, 14620);
    std::mt19937 gen;
    std::cout << d(gen) << '\n';

This will be fast, easy and high quality.

You didn't specify, but if you wanted floating point instead just sub in:

std::uniform_real_distribution<> d(1, 14620);

And if you needed a non-uniform distribution, you can build your own piece-wise constant or piece-wise linear distribution very easily.

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Note that there is an important difference between the uniform int and uniform real distributions. The uniform int distribution returns numbers in the closed range [1,14620] while the uniform real distribution returns numbers in the half-open range [1,14620). – Blastfurnace Feb 16 '11 at 18:22
Could use the C++0x-esque seeding too, std::random_device r; std::mt19937 gen(r()); – Cubbi Feb 16 '11 at 20:09
And if you don't have C++0x, boost::random should probably be your standard unless you really only need something quick and dirty... – Chinasaur Sep 22 '11 at 3:05

srand() / rand() are the functions you need, as others have answered.

The problem with % is that the result is decidedly non-uniform. To illustrate, imagine that rand() returns a range of 0-3. Here are hypothetical results of calling it 4000 times:

0 - 1000 times
1 - 1000 times
2 - 1000 times
3 - 1000 times

Now if you do the same sampling for (rand() % 3), you notice that the results would be like:

0 - 2000 times
1 - 1000 times
2 - 1000 times

Ouch! The more uniform solution is this:

int n = (int)(((((double)std::rand()) / RAND_MAX) * 14620) + 1);

Sorry for the sloppy code, but the idea is to scale it down properly to the range you want using floating point math, and convert to integer.

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: +1 Good point. – wilhelmtell Feb 16 '11 at 17:20
'(((double)std::rand()) / RAND_MAX)' - can you please explain this part here? Are you generating random number and then scaling it by RAND_MAX? – notrockstar Feb 16 '11 at 17:22
by dividing by RAND_MAX, you are generating a uniform random number between 0.0 and 1.0. This makes it simple to scale to whatever bounds you want. In your case, 1-14620. – tenfour Feb 16 '11 at 17:23
I don't see why you would want to eliminate the intermediate double; the end result is an int like you want. I do not know an integer-only answer other than using % as others have suggested. – tenfour Feb 16 '11 at 17:29
nice use of casting to keep the resolution as high as possible, though would like to see C++ casting used. – thecoshman Feb 16 '11 at 17:30

Use rand.

( rand() % 100 ) is in the range 0 to 99
( rand() % 100 + 1 ) is in the range 1 to 100
( rand() % 30 + 1985 ) is in the range 1985 to 2014

( rand() % 14620 + 1 ) is in the range 1 to 14620


As mentioned in the link, the randomizer should be seeded using srand before use. A common distinctive value to use is the result of a call to time.

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You left out the important addendum: Notice though that this modulo operation does not generate a truly uniformly distributed random number in the span – meagar Feb 16 '11 at 16:54
Right, not without seeding. The link mentions seeding at the bottom of the page. I'll update to include this. – James Feb 16 '11 at 16:56
@James, @meagar, How would I generate truly uniform distributed random number? I have to generate 30,000 of them within just one loop of the algorithm. – notrockstar Feb 16 '11 at 16:59
@meager I have to admit I wasn't aware about that and further have to admit I don't understand why - at least not right now. – sstn Feb 16 '11 at 17:01
@sstn: en.wikipedia.org/wiki/Pseudorandom_number_generator has some information on why a seed is necessary. – James Feb 16 '11 at 17:02

Here's a tutorial using the boost library http://www.boost.org/doc/libs/1_45_0/doc/html/boost_random/tutorial.html#boost_random.tutorial.generating_integers_in_a_range

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Thank you, I am just starting to learn boost library. – notrockstar Feb 16 '11 at 17:23

As already said, you can use rand(). E.g.

int n = rand() % 14620 + 1;

does the job, but it is non-uniform. That means some values (low values) will occur slightly more frequently. This is because rand() yields values in the range of 0 to RAND_MAX and RAND_MAX is generally not divisible by 14620. E.g. if RAND_MAX == 15000, then the number 1 would be twice as likely as the number 1000 because rand() == 0 and rand() == 14620 both yield n==1 but only rand()==999 makes n==1000 true.

However, if 14620 is much smaller than RAND_MAX, this effect is negligible. On my computer RAND_MAX is equal to 2147483647. If rand() yields uniform samples between 0 and RAND_MAX then, because 2147483647 % 14620 = 10327 and 2147483647 / 14620 = 146886, n would be between 1 and 10328 on average 146887 times while the numbers between 10329 and 14620 would occur on average 146886 times if you draw 2147483647 samples. Not much of a difference if you ask me.

However, if RAND_MAX == 15000 it would make a difference as explained above. In this case some earlier posts suggested to use

int n = (int)(((((double)std::rand()) / RAND_MAX) * 14620) + 1);

to make it 'more uniform'. Note that this only changes the numbers that occur more frequently since rand() still returns 'only' RAND_MAX distinct values. To make it really uniform, you would have to reject any integer form rand() if it is in the range between 14620*int(RAND_MAX/14620) and RAND_MAX and call rand() again. In the example with RAND_MAX == 15000 you would reject any values of rand() between 14620 and 15000 and draw again. For most application this is not necessary. I would worry more about the randomness of rand().

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the modulus operator is the most important, you can apply a limit with this modulus, check this out:

// random numbers generation in C++ using builtin functions
#include <iostream>

using namespace std;

#include <iomanip>

using std::setw;

#include <cstdlib>   // contains function prototype for rand

int main()
// loop 20 times
for ( int counter = 1; counter <= 20; counter++ ) {

    // pick random number from 1 to 6 and output it
    cout << setw( 10 ) << ( 1 + rand() % 6 );

    // if counter divisible by 5, begin new line of output
    if ( counter % 5 == 0 )
        cout << endl;


return 0;  // indicates successful termination

} // end main
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