2

I'm trying to use GSL Monte Carlo Integration in a C++ code that I'm generating. The idea would be to have a brownian motion function (brownian), which is used in another function (g) for performing 4-dim numerical integration.

double brownian(const double &x,const double &x0,const double & sigma,const double & t) {
   double a1 = (1/sqrt(2.0 * M_PI * sigma * t));
   double b1 = exp(-((x - x0) * (x - x0))/(2.0 * sigma * t));
   double res = a1 * b1;
  return res;
}

double g(double *k, size_t dim, void *p[]){

 const double& xA0 = *(double *)p[0];
 const double& xB0 = *(double *)p[1];
 const double& yA0 = *(double *)p[2];
 const double& yB0 = *(double *)p[3];
 const double& sigma = *(double *)p[4];
 const double& t1 = *(double *)p[5];


  double temp_pbxA = brownian(k[0], xA0, sigma,t1);
  double temp_pbxB = brownian(k[1], xB0, sigma, t1);
  double temp_pbyA = brownian(k[2], yA0, sigma,t1);
  double temp_pbyB = brownian(k[3], yB0, sigma, t1);

  return (temp_pbxB * temp_pbyB) * (temp_pbxA * temp_pbyA);
}

double integrate_test(const double xl, const double xu, const double& xA0, const double& xB0, const double& yA0, const double& yB0, const double& t1, const double& sigma){

  double res, err;

 const gsl_rng_type *T;
  gsl_rng *r;

  gsl_monte_function G;
  G.f = &g;
  G.dim = 4;
  G.params = { xA0, xB0, yA0, yB0, sigma, t1};

  size_t calls = 500000;

  gsl_rng_env_setup ();

  T = gsl_rng_default;
  r = gsl_rng_alloc (T);


    gsl_monte_plain_state *s = gsl_monte_plain_alloc (4);
    gsl_monte_plain_integrate (&G, xl, xu, 4, calls, r, s,
                               &res, &err);
    gsl_monte_plain_free (s);

return res;
    }

However, when I try to compile the code I get the following error:

error: assigning to 'double (*)(double *, size_t, void *)' (aka 'double (*)(double *, unsigned long, void *)') from incompatible type 'double (*)(double *, size_t, void **)' (aka 'double (*)(double *, unsigned long, void **)'): type mismatch at 3rd parameter ('void *' vs 'void **')
  G.f = &g;

I do not understand why it takes the void *p[] as it was a void**. Any suggestion?

11
  • I do not understand why it takes the void p[] -- Look at your code carefully: double g(double *k, size_t dim, void *p[]) -- That is a void* p[], and not void p[]. Sep 13, 2021 at 12:48
  • sorry, there was a mistake in my typing. What I meant was why it takes the void *p[] as if was a void ** object. Sep 13, 2021 at 13:28
  • That's how C++ works. A T*[] as a parameter is the same as T**, regardless what T is. Sep 13, 2021 at 13:33
  • Ok, clear. But then, if I want that the void *p is an array of several parameters for the function g, what should I specify? Sep 13, 2021 at 13:35
  • First, why did you design g to take a void*? There are much better type-safe ways to implement this. Looks like you're stepping into XY Problem territory. Sep 13, 2021 at 13:38

1 Answer 1

2

This is a diff between your code and the one that compiles. This does not mean that my code is correct: you only get what you asked for - since you did not provide a complete minimum working example, anyone trying to help you is forced to guess what your problem really is.

13c13
< double g(double *k, size_t dim, void *p){
---
> double g(double *k, size_t dim, void *p[]){
15,20c15,20
<  const double& xA0 = ((double *)p)[0];
<  const double& xB0 = ((double *)p)[1];
<  const double& yA0 = ((double *)p)[2];
<  const double& yB0 = ((double *)p)[3];
<  const double& sigma = ((double *)p)[4];
<  const double& t1 = ((double *)p)[5];
---
>  const double& xA0 = *(double *)p[0];
>  const double& xB0 = *(double *)p[1];
>  const double& yA0 = *(double *)p[2];
>  const double& yB0 = *(double *)p[3];
>  const double& sigma = *(double *)p[4];
>  const double& t1 = *(double *)p[5];
31c31
< double integrate_test(const double xl[], const double xu[], const double& xA0, const double& xB0, const double& yA0, const double& yB0, const double& t1, const double& sigma){
---
> double integrate_test(const double xl, const double xu, const double& xA0, const double& xB0, const double& yA0, const double& yB0, const double& t1, const double& sigma){
41,42c41
<   double params[] = { xA0, xB0, yA0, yB0, sigma, t1};
<   G.params = params;
---
>   G.params = { xA0, xB0, yA0, yB0, sigma, t1};

As you can see, there are at least 2 problems that your compiler complains about.

  1. gsl_monte_function expect the component f to have the signature double (* f) (double * x, size_t dim, void * params), see https://www.gnu.org/software/gsl/doc/html/montecarlo.html . I must stress that normally parameters in GSL are passed via a void pointer to struct that must be defined somewhere beforehand, but here you're lucky, all parameters are just doubles, so to save extra code you can use an old, plain C array
double params[] = { xA0, xB0, yA0, yB0, sigma, t1};

and pass its address as the G.params. Then you'll retrieve them inside g using C-syntax like this

const double& xA0 = ((double *)p)[0];

(convert the void pointer to double* and then treat it as a name of a C-style array).

  1. gsl_monte_plain_integrate expects its 2nd and 3rd parameters to be C-style arrays. See https://www.gnu.org/software/gsl/doc/html/montecarlo.html . That's why you need to change the types of xl and xu in integrate_test.

GSL is hard to use. Don't hesitate to ask if in doubt.

2
  • Better use static_cast<double*>(p)[0] rather than the C-style cast, since we're in C++.
    – Ruslan
    Sep 23, 2021 at 18:21
  • @Ruslan Yes. Also, references in expressions like const double& xA0 are unnecessary, and some other improvements are possible, like defining params as std::array etc., but all documentation of GSL is written in C, so I basically followed this style.
    – zkoza
    Sep 23, 2021 at 22:12

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.