# Generating random reals uniformly using Boost [closed]

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

-

## closed as off-topic by Andrew BarberJan 13 '14 at 0:31

This question appears to be off-topic. The users who voted to close gave this specific reason:

• "This question was caused by a problem that can no longer be reproduced or a simple typographical error. While similar questions may be on-topic here, this one was resolved in a manner unlikely to help future readers. This can often be avoided by identifying and closely inspecting the shortest program necessary to reproduce the problem before posting." – Andrew Barber
If this question can be reworded to fit the rules in the help center, please edit the question.

Well that seems fine to me. If you want your values to have a guaranteed minimal absolute value, you have to create a distribution on [eps, 1] and another one for choosing the sign. Are the values causing any problems? – stefan Dec 30 '13 at 21:12
– yankee2905 Dec 30 '13 at 21:14
Yes @stefan because a load of the numbers are ~0.0 whatever I function I integrate is hugely oversampled near zero so let's say I was integrating f(x)=x then my Monte Carlo sum would be significantly less than one would expect. – JMzance Dec 30 '13 at 21:16
Can you please show the code calling `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
I guess another way of saying what @Nabla's saying is "please construct a minimal test-case" ;) – Oliver Charlesworth Dec 30 '13 at 21:20

Based on the pastebin the questioner posted in the comments:

This is not a problem with the random library but rather a simple programming error. Compiling the code throws the warning:

``````../src/Test.cpp: In function ‘double AdaptiveMCRecursion(double, double, double, double, int, double, double (*)(double))’:
../src/Test.cpp:100:72: warning: ‘Right’ is used uninitialized in this function [-Wuninitialized]
double Right = MCSample (Count, Central, Right,   Integrand);
``````

So all the behaviour from that line on is basically undefined. Especially it results in calling the function `MCSample` with an undetermined `Upper` parameter. So your result is not unexpected. You are actually lucky the program runs at all.

-
Quite right you are, the arguments to MCSample should be (Count, Central, UPPER, Integrand)! Cheers @nabla – JMzance Dec 30 '13 at 21:51
@JackMedley Thats why you should take compiler warnings seriously. – Nabla Dec 30 '13 at 21:52
Or just not forget to add -Werror when running a quick compilation ;) – JMzance Dec 31 '13 at 10:28