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I am about to generate an array of normally distributed pseudo-random numbers. As I know the std library offers the following code for that:

std::random_device rd;
std::mt19937 gen(rd());
std::normal_distribution<> d(mean,std);
...
double number = d(gen);

The problem is that I want to use a Sobol' quasi-random sequence instead of Mersenne Twister pseudo-random generator. So, my question is: Is it possible to run the std::normal_distribution with a user-defined random generator (with a Sobol' quasi-random sequence generator in my case)?


More details: I have a class called RandomGenerators, which is used to generate a Sobol' quasi-random numbers:

RandomGenerator randgen;
double number = randgen.sobol(0,1);
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up vote 5 down vote accepted

Yes, it is possible. Just make it comply to the requirements of a uniform random number generator (§26.5.1.3 paragraphs 2 and 3):

2 A class G satisfies the requirements of a uniform random number generator if the expressions shown in Table 116 are valid and have the indicated semantics, and if G also satisfies all other requirements of this section. In that Table and throughout this section:

a) T is the type named by G’s associatedresult_type`, and

b) g is a value of G.

Table 116 — Uniform random number generator requirements

Expression     | Return type | Pre/post-condition         | Complexity
----------------------------------------------------------------------
G::result_type |    T        | T is an unsigned integer   | compile-time
               |             | type (§3.9.1).             |
----------------------------------------------------------------------
g()            |    T        | Returns a value in the     | amortized constant
               |             | closed interval            |
               |             | [G::min(), G::max()].      |
----------------------------------------------------------------------
G::min()       |    T        | Denotes the least value    | compile-time
               |             | potentially returned by    |
               |             | operator().                |
----------------------------------------------------------------------
G::max()       |    T        | Denotes the greatest value | compile-time
               |             | potentially returned by    |
               |             | operator().                |

3 The following relation shall hold: G::min() < G::max().

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1  
Thank you, Martinho! This approach works well. I found a good example how to do it here. – Dinar Abdullin Oct 4 '13 at 14:59

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