*/
struct covariance *
covariance_2pass_create (size_t n_vars, const struct variable *const *vars,
- size_t n_catvars, const struct variable *const *catvars,
+ struct categoricals *cats,
const struct variable *wv, enum mv_class exclude)
{
size_t i;
cov->n_cm = -1;
cov->cm = NULL;
- cov->categoricals = categoricals_create (catvars, n_catvars, wv, exclude);
+ cov->categoricals = cats;
return cov;
}
cov->state = 1;
}
- categoricals_update (cov->categoricals, c);
+ if (cov->categoricals)
+ categoricals_update (cov->categoricals, c);
for (i = 0 ; i < cov->dim; ++i)
{
assert (cov->state == 1);
cov->state = 2;
- cov->dim = cov->n_vars +
- categoricals_total (cov->categoricals) - categoricals_get_n_variables (cov->categoricals);
+ cov->dim = cov->n_vars;
+
+ if (cov->categoricals)
+ cov->dim += categoricals_total (cov->categoricals)
+ - categoricals_get_n_variables (cov->categoricals);
cov->n_cm = (cov->dim * (cov->dim - 1) ) / 2;
cov->cm = xcalloc (sizeof *cov->cm, cov->n_cm);
cov->moments[i] = resize_matrix (cov->moments[i], cov->dim);
}
- categoricals_done (cov->categoricals);
+ if (cov->categoricals)
+ categoricals_done (cov->categoricals);
/* Populate the moments matrices with the categorical value elements */
for (i = cov->n_vars; i < cov->dim; ++i)