# boost random number library, use same random number generator for different variate generators

It seems that one can use the following code to produce random numbers from a particular Normal distribution:

``````float mean = 0, variance = 1;
boost::mt19937 randgen(static_cast<unsigned int>(std::time(0)));
boost::normal_distribution<float> noise(mean, variance);
variate_generator<mt19937, normal_distribution<float> > nD(randgen, noise);

float random = nD();
``````

This works fine, however, I would like to be able to draw numbers from several distributions, i.e. one would think something like:

``````float mean1 = 0, variance1 = 1, mean2 = 10, variance2 = 0.25;
boost::mt19937 randgen(static_cast<unsigned int>(std::time(0)));
boost::normal_distribution<float> noise1(mean1, variance1);
boost::normal_distribution<float> noise2(mean2, variance2);
variate_generator<mt19937, normal_distribution<float> > nD(randgen, noise1);
variate_generator<mt19937, normal_distribution<float> > nC(randgen, noise2);

float random1 = nD();
float random2 = nC();
``````

However, the problem appears to be that nD() and nC() are generating similar sequences of numbers. I hypothesize this is because the constructor for variate_generator appears to make a copy of randgen, not use it explicitly. Thus, the same psuedo-random sequence is being generated and simply pushed through different transformations (due to the different parameters of the distributions).

Does anyone know if there is a way, in Boost, to create a single random number generator and use it for multiple distributions? Alternatively, does the design of the Boost random library intend users to create one random number generator per distribution? Obviously, I could write code to transform a sequence of uniform random numbers to a sequence from an arbitrary distribution, but I'm looking for something simple and already built-in to the library.

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Your hypothesis is correct. You want both `variate_generator` instances to use the same random number generator instance. So use a reference to `mt19937` as your template parameter.

``````variate_generator<mt19937 &, normal_distribution<float> > nD(randgen, noise1);
variate_generator<mt19937 &, normal_distribution<float> > nC(randgen, noise2);
``````

Obviously you'll have to ensure `randgen` does not go out of scope before `nD` and `nC` do.

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That appears to have worked perfectly. Does making the first template parameter just change the internal storage of the random number generator to be a reference? Thanks. –  RandomGuy Oct 29 '09 at 14:56
Yes. The variate generator class is (relatively) simple. The original instantiated class had a member variable of type `mt19937`. The correct one, had a member variable to type `mt19937 &`. No additional changes occur. –  AFoglia Oct 29 '09 at 21:29
Using a reference to mt19937 makes the variate generator non-assignable; if you need assignment, you could use a pointer type instead. I.e. variate_generator<mt19937*, normal_distribution<float> > nD(...); –  Kyle Simek Nov 11 '12 at 16:30