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I wrote a very simple program with C++ to random generate p numbers from N(0,1),wheremean=0,var=1, and then record the number in a px1 vector and print them in a file.

Part of code I wrote is as following,the whole program can be run without any error or warning, but I suppose it is abort here because the z.txt did not print out anything. anyone can help me to find out where is the bug?

gsl_matrix* z = gsl_matrix_alloc(p, 1);
gsl_rng * r;
double a;
for(int i=0;i<p;i++){   
    a = gsl_ran_gaussian (r, 1);

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closed as off-topic by JBentley, PlasmaHH, Massimiliano, shuttle87, lpapp Jun 9 at 8:27

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

  • "This question appears to be off-topic because it lacks sufficient information to diagnose the problem. Describe your problem in more detail or include a minimal example in the question itself." – JBentley, PlasmaHH, Massimiliano, shuttle87, lpapp
If this question can be reworded to fit the rules in the help center, please edit the question.

I think this is more of a coding question than a stats question. The stats answer is that you can produce normal variables from a uniform random generator using the inverse of the CDF. An old fashioned method that I learned back at grad school was to get 12 uniform[0,1] variables, add them up and subtract 6. –  Placidia Jun 4 at 16:33
Note that the method of adding $n$ of uniform[0,1] deviates for $n\in[3,\infty)$ and subtracting $n/2$ must produce results that in the interval $[-n/2,n/2]$; this feature may not be desirable in all applications. –  user777 Jun 4 at 17:18
@user777 It was a quick and dirty method from the 1970's. The professor offered it in part as illustration of the rapid convergence to normality in this instance. –  Placidia Jun 4 at 17:54
@Placidia Sure. I wasn't trying to pick a fight; I just wanted to point out this shortcoming for future visitors who might not have advanced statistical training. Basic results from order statistics tell us that the difference is negligible for sufficiently large $n$. –  user777 Jun 4 at 18:13

1 Answer 1

If you can use Boost, then it's as easy as:

std::mt19937 rng(std::chrono::system_clock::now().time_since_epoch().count());
std::normal_distribution<double> std_normal(0,1);