COSC_4P82_Assignment_1/lib/lilgp/kernel_mod/sigma.c

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2024-02-13 21:21:51 -05:00
#include <lilgp.h>
#include <math.h>
sel_context *select_sigma_context (int op,
sel_context *sc,
population *p,
char *string )
{
interval_data *id;
int i, j = 0;
double average;
double std;
double n;
switch ( op )
{
case SELECT_INIT:
sc = (sel_context *)MALLOC ( sizeof ( sel_context ) );
sc->p = p;
sc->select_method = select_interval;
sc->context_method = select_boltzman_context;
/* the interval_data structure (used with select_interval()) is
essentially a list of interval widths and indices for each
individual. */
id = (interval_data *)MALLOC ( sizeof ( interval_data ) );
id->ri = (reverse_index *)MALLOC ( (p->size+1) *
sizeof ( reverse_index ) );
id->total = 0.0;
id->count = p->size;
id->ri[j].fitness = 0.0;
id->ri[j].index = -1;
++j;
/* Compute average */
average=0;
for (i=0;i<p->size;++i)
{
average += p->ind[i].a_fitness;
}
average/=p->size;
/* Compute Standard Deviation */
if (p->size<=1)
std=0;
else
{
std=0;
for(i=0;i<p->size;i++)
{
std += (p->ind[i].a_fitness - average) *
(p->ind[i].a_fitness - average);
}
std/=(p->size-1);
std=sqrt(std);
}
for (i=0; i< p->size; ++i)
{
if (std==0)
{
n=1.0;
}
else
{
n= 1 + (p->ind[i].a_fitness - average)/(2 * std);
}
id->total += n;
id->ri[j].fitness = id->total;
id->ri[j].index = i;
++j;
}
sc->data = (void *)id;
return sc;
break;
case SELECT_CLEAN:
id = (interval_data *)(sc->data);
FREE ( id->ri );
FREE ( sc->data );
FREE ( sc );
return NULL;
break;
}
return NULL;
}