What is the best way to generate random numbers?

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    Why is rand not good to use? – David Schwartz Feb 27 '12 at 20:16
  • what's wrong with rand()? – Jörg Beyer Feb 27 '12 at 20:18
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    because you should divide and plus and ... to make the number between two numbers! there must be beter functions – hamed Feb 27 '12 at 20:27
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    @DavidSchwartz I came here because rand is generating the same results every time... – Tomáš Zato Nov 23 '14 at 13:32
  • @TomášZato So show the code that had the problem and ask how to fix it. – David Schwartz Nov 24 '14 at 2:07

If and only if:

  • you are not looking for "perfect uniformity" or

  • you have no C++11 support and not even TR1 (thus you don't have another choice)

then you might consider using the following C-style solution, which (for the sake of the reputation of this community ~ see rand() Considered Harmful) is written in strike-through font:

Here's the simple C-style function that generates random number from the interval from min to max, inclusive. Those numbers seem to be very close to being uniformly distributed.

int irand(int min, int max) {
    return ((double)rand() / ((double)RAND_MAX + 1.0)) * (max - min + 1) + min;

and don't forget to call srand before you use it:

int occurences[8] = {0};

for (int i = 0; i < 100000; ++i)

for (int i = 1; i <= 7; ++i)
    printf("%d ", occurences[i]);

output: 14253 14481 14210 14029 14289 14503 14235

Also have a look at:
Generate a random number within range?
Generate random numbers uniformly over an entire range
and find some time and watch at least first 11 minutes of aforementioned video


use <random> just like it was pointed out by Kerrek SB already.

  • 1
    Your irand implementation does not produce uniformly distributed random numbers: some values are more likely than others as explained in the rand() considered harmful talk. Your very example is described at the 7:30 mark. – syam Oct 8 '13 at 12:49
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    @syam: I've seen a link to this speech few times already, but haven't paid attention to it. Finally I watched it and I've edited my answer appropriately :) – LihO Oct 8 '13 at 22:02
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    To be fair, the speaker considers your implementation only "subtly" non-uniform, as opposed to other "hilariously" non-uniform solutions. I for one made much worse errors with rand()... ;) – syam Oct 9 '13 at 0:38
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    @syam: But in case <random> is available, why not go for it? It's cleaner and better solution. It can be wrapped into a standalone helper function like my irand as well. – LihO Oct 9 '13 at 6:21
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    Don't get me wrong, I wasn't advocating the use of your implementation over <random>, just pointing out that there are much worse mistakes to make. Of course <random> should be preferred if it is available, however if you must make do with rand() then your solution is probably (one of?) the best we can get. – syam Oct 9 '13 at 12:53

You should use <random>:

#include <random>

typedef std::mt19937 rng_type;
std::uniform_int_distribution<rng_type::result_type> udist(0, 7);

rng_type rng;

int main()
  // seed rng first:
  rng_type::result_type const seedval = get_seed(); // get this from somewhere

  rng_type::result_type random_number = udist(rng);

  return random_number;

Pre C++11 you could find this either in TR1 (<tr1/random>, std::tr1::mt19937 etc.), or in Boost.random, with essentially the same interface (though there are minor differences).

  • I don't think there needs to be a correlation between the distribution's return type and the engine's. I usually like to bind the distribution and the engine together unless I have a special reason for needing them separate. Also engines can take the seed in a constructor, so you can put it all in a single line: auto rand = bind(uniform_int_distribution<>(0,7),mt19937(get_seed())); – bames53 Feb 27 '12 at 20:37
  • @bames53: You're right, the integral types of the distribution and of the engine may well be different. Personally, I don't like gratuitous binds very much, but sure, if you want a more compact form, go ahead. – Kerrek SB Feb 27 '12 at 20:41
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    But how can I get sufficiently random seed? – Tomáš Zato Nov 23 '14 at 14:48
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    @TomášZato: You can use std::random_device. The quality of the result depends on your implementation, but it's a start. – Kerrek SB Nov 23 '14 at 15:26

Boost.Random is an excellent library for producing pseudorandom numbers (or truly random, if the platform supports it).

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    I checked their docs just to make sure they are not claiming to produce truly random numbers, and they are not. So why are you including that in your answer? – Kevin Crowell Feb 27 '12 at 20:19
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    @KevinCrowell Non-deterministic Uniform Random Number Generator – spencercw Feb 27 '12 at 20:22
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    It includes random_device (as does the now-standard <random> header) to provide access to a non-deterministic uniform random number generator on platforms that have such a device. (E.g. The OS collects random data from doing things like observing network traffic and provides access to that data via /dev/random) – bames53 Feb 27 '12 at 20:28

If you're talking standard C++ library pre C++11, rand and srand are your random number generators. There are ways to get more accuracy out of these functions than using modulus with integer arithmetic. You could use doubles, for example, if high speed isn't a concern and round the results to int.

As for custom libraries, if you really want good random distribution and speed, google Mersenne Twister. There are also options in boost.

With C++11 you have <random>. http://en.cppreference.com/w/cpp/numeric/random


My 'random' library provide a high convenient wrapper around C++11 random classes. You can do almost all things with a simple 'get' method.


  1. Random number in a range

auto val = Random::get(-10, 10); // Integer
auto val = Random::get(10.f, -10.f); // Float point

  1. Random boolean

auto val = Random::get<bool>( ) // 0.5% to generate true

auto val = Random::get<bool>( 0.7 ) // 0.7% to generate true

  1. Random value from a std::initilizer_list
auto val = Random::get( { 1, 3, 5, 7, 9 } ); // val = 1 or 3 or...
  1. Random iterator from iterator range or all container

auto it = Random::get( vec.begin(), vec.end() ); // it = random iterator

auto it = Random::get( vec ); // return random iterator

And even more things ! Check out the github page:


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