I'd like to generate a random number of reasonably arbitrary length in C++. By "reasonably arbitary" I mean limited by speed and memory of the host computer.

Let's assume:

I want to sample a decimal number (base 10) of length

`ceil(log10(MY_CUSTOM_RAND_MAX))`

from`0`

to`10^(ceil(log10(MY_CUSTOM_RAND_MAX))+1)-1`

I have a

`vector<char>`

The length of

`vector<char>`

is`ceil(log10(MY_CUSTOM_RAND_MAX))`

Each

`char`

is really an integer, a random number between 0 and 9, picked with`rand()`

or similar methods

If I use `std::random_shuffle`

to shuffle the vector, I could iterate through each element from the end, multiplying by incremented powers of ten to convert it to `unsigned long long`

or whatever that gets mapped to my final range.

I don't know if there are problems with `std::random_shuffle`

in terms of how random it is or isn't, particularly when also picking a sequence of `rand()`

results to populate the `vector<char>`

.

How sketchy is `std::random_shuffle`

for generating a random number of arbitrary length in this manner, in a quantifiable sense?

(I realize that there is a library in Boost for making random `int`

numbers. It's not clear what the range limitations are, but it looks like `MAX_INT`

. That said, I realize that said library exists. This is more of a general question about this part of the STL in the generation of an arbitrarily large random number. Thanks in advance for focusing your answers on this part.)