I am trying to generate some uniform real numbers for a Monte Carlo integration but the routine I build was returning some really strange values. Upon closer inspection I notices that Boost was returning some crazy looking random numbers e.g.:

```
temp = -0.185276
temp = -0.864523
temp = -0.0942081
temp = -0.164991
temp = -0.873013
temp = -0.0311322
temp = -0.0866241
temp = -0.778966
temp = -0.367641
temp = -0.691833
temp = 5.66499e-310
temp = 9.42007e-311
temp = 6.29821e-310
temp = 5.80603e-310
temp = 8.82973e-311
temp = 6.73679e-310
temp = 6.35094e-310
temp = 1.53691e-310
temp = 4.39696e-310
temp = 2.14277e-310
```

Whilst these numbers are technically still reals generated between the bounds -1 and 1 I would prefer it if they weren't quite so small!

My implementation of the call to boost is in a function which is called multiple times (for different bounding values) as follows:

```
// Define Boost typedefs
typedef boost::mt19937 Engine;
typedef boost::uniform_real<double> Distribution;
typedef boost::variate_generator <Engine, Distribution> Generator;
int main (void) {
...
Integral = MCRecursion(...);
...
return 0;
}
double MCRecursion (int Count, double Lower, double Upper, double (*Integrand)(double)) {
// Define Boost objects
Engine Eng;
Distribution Dist (Lower, Upper);
Generator RandomGen (Eng, Dist);
Eng.seed(time(0));
// Variables for Monte Carlo sample sums
double Sum = 0.0;
double temp;
for (int i = 0; i < Count; i++) {
temp = RandomGen();
std::cout << " temp = " << temp << std::endl;
Sum += Integrand(temp);
}
return (Upper - Lower) * Sum / Count;
}
```

I assume the problem is something with my implementation but I can't find any errors. Any and all help appreciated! Cheers, Jack

# EDIT

Code for calling MCRecursion:

The Code I am writting runs a Monte Carlo on the entire domain I am interested in [Lower, Upper] and then looks again at the left half of the whole domain and the right half of the domain. e.g. if we were integrating f(x) between -a and a I calculate the full integral using:

```
double FullDomain = MCRecursion (1e5, LowerBound, UpperBound, f);
double Centre = (Upper + Lower) / 2.0;
double LeftHalf = MCRecursion (1e5, LowerBound, Centre, f);
double RightHalf = MCRecursion (1e5, Centre, UpperBound, f);
```

and I then look at the uncertainty by calculating: double difference = fabs(FullDomain - LeftHalf - Righthalf); to see if more samples is 'worth it' in some sense Jack

`MCRescursion`

and make sure the output is actually output of your posted code? The problem is not reproducable for me, I made a test case and got evenly distributed random numbers. – Nabla Dec 30 '13 at 21:19