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_t`

s, 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.

cycle, and it has no relation to the seed