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For space reasons in the title I had to abuse the terminology a bit. Bear a moment.

std::seed_seq is used to seed the pseudo-random generators. Usually I prepare a std::array of uint32_t and fill it in of really random numbers (via std::random_device*) and pass the begin and end iterators to a std::seed_seq (see the example code).

The question is, given a certain pseudo random generator (e.g., std::mt19937) how can I know the correct size of the array to seed at its best? About std::mt19937, since the state size is 19937 bits I guess it is 624 uint32_ts, is it the case? And what is the general way to know?

std::mt19937 init_mersenne_twister() {                                        
    //624 is the internal state sequence size of mt19937
    std::array<std::uint32_t, 624> seed_bits{};                               

    std::random_device real_random{};                                         
    std::generate(seed_bits.begin(), seed_bits.end(), std::ref(real_random)); 
    std::seed_seq wrapped_seed_bits(seed_bits.begin(), seed_bits.end());      

    return std::mt19937(wrapped_seed_bits);                                   
}                                                                             

*I am aware that random_device might not be available, but that's not the point of the question.

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  • Read en.wikipedia.org/wiki/Mersenne_Twister, it look like 2^19937 is the cycle, and it has no relation to the seed
    – Guy L
    Mar 11 '16 at 17:16
  • I think that the two concepts are connected. In the Initialization section it's explained that the state is n values of w bits each. And for the std::mt19937 those are indeed 624 and 32. Mar 11 '16 at 18:14
  • For std::mt19937 you can use std::mt19937::state_size. For others you will have to read the Standard to see the size of the internal state. However, in my opinion it doesn't make sense to seed std::mt19937 with 19968 bits of entropy. 256 bits of entropy should be sufficient for any purpose. You can't distinguish between two instances of std::mt19937, one seeded with 256 bits of entropy and one with 19968 bits of entropy.
    – user515430
    Mar 12 '16 at 21:19
  • I don't know your definition of "any purpose," but 2^256 starting seeds are not enough to get all the possible shuffling of a 60 elements array... Shuffling, btw, is exactly my use case.Since factorial grows so fast, even 2^19937 is barely enough for a 2000 elements array. Mar 13 '16 at 9:43

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