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?
double g(double *k, size_t dim, void *p[])
-- That is avoid* p[]
, and notvoid p[]
.T*[]
as a parameter is the same asT**
, regardless whatT
is.g
to take avoid*
? There are much better type-safe ways to implement this. Looks like you're stepping into XY Problem territory.