The following code does not seem to behave intuitively:

#include <random>
#include <iostream>
using namespace std;

int main()

  mt19937 MyGenerator(40);
  auto gauss = normal_distribution<double>(0,1);
  auto linear = uniform_real_distribution<double>(0,1);
  cout << gauss(MyGenerator) << endl; //line a
  cout << linear(MyGenerator) << endl; //line b
  cout << gauss(MyGenerator) << endl;

Running this code gives the output


If now the order of lines a and b is swapped, the output changes to


It is completely clear that the first two numbers are different now, as they are produced by different distributions. Nevertheless, why is the third number different? In my intuition, the distribution should grab a number c = MyGenerator() which is then mapped to the random number in the specific range. The random number generator would point to the next number in the sequence of numbers after the distribution call. So, shouldn't the outcome of the third call be the same in both cases?

Another observation: Adding a forth call to either of the distributions does in fact seem to reproduce the same numbers.


libstdc++'s implementation of normal_distribution uses the Marsaglia polar method. The interesting thing about this method is that each pass uses two random numbers from the URNG to generate two results.

That is, the first call to the distribution calls the URNG twice (possibly more times, as it uses rejection sampling, but an even number of times) and returns one result; the following call to the distribution will not call the URNG but will return the saved second result.

Here's an extract from the source code, slightly reformatted:

if (_M_saved_available)
    _M_saved_available = false;
    ret = _M_saved;
    result_type x, y, r2;
        x = result_type(2.0) * aurng() - 1.0;
        y = result_type(2.0) * aurng() - 1.0;
        r2 = x * x + y * y;
    while (r2 > 1.0 || r2 == 0.0);

    const result_type mult = std::sqrt(-2 * std::log(r2) / r2);
    _M_saved = x * mult;
    _M_saved_available = true;
    ret = y * mult;
  • I found aurng() always returns 0, which cause the loop infinite in GCC 6.1.0. – Li Dong Jul 13 '16 at 11:24
  • @LiDong that shouldn't happen; it indicates your URNG is broken. – ecatmur Jul 13 '16 at 13:06
  • I asked another question in stackoverflow.com/questions/38350743/… – Li Dong Jul 13 '16 at 13:17

There's no requirement that the distribution call the underlying generator once for each value. Some distributions are best calculated by combining multiple random values.

For example, in the GNU implementation, the implemantation of the uniform distribution is

return (__aurng() * (__p.b() - __p.a())) + __p.a();

calling the generator __aurng once; while the core of the normal distribution is:

    __x = result_type(2.0) * __aurng() - 1.0;
    __y = result_type(2.0) * __aurng() - 1.0;
    __r2 = __x * __x + __y * __y;
while (__r2 > 1.0 || __r2 == 0.0);

calling it at least twice.

  • ... and the number of calls is variable. So it could be that normal+uniform makes three calls to the underlying generator, while uniform+normal makes five or seven calls. – gnasher729 Sep 26 '14 at 15:14

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