vf->groups = NULL;
vf->width = var_get_width (v);
vf->print = *var_get_print_format (v);
- if (vf->width > MAX_SHORT_STRING && get_algorithm () == COMPATIBLE)
+ if (vf->width > MAX_SHORT_STRING && settings_get_algorithm () == COMPATIBLE)
{
enum fmt_type type = var_get_print_format (v)->type;
vf->width = MAX_SHORT_STRING;
double tp;
if ( percentiles[i].flag2 ) continue ;
- if ( get_algorithm() != COMPATIBLE )
+ if ( settings_get_algorithm () != COMPATIBLE )
tp =
(ft->valid_cases - 1) * percentiles[i].p;
else
double s;
double dummy;
- if ( get_algorithm() != COMPATIBLE )
+ if ( settings_get_algorithm () != COMPATIBLE )
{
s = modf((ft->valid_cases - 1) * percentiles[i].p , &dummy);
}
{
const struct freq *frq = &frq_tab->valid[i];
- slices[i].label = var_get_value_name (var, frq->value);
+ var_append_value_name (var, frq->value, &slices[i].label);
slices[i].magnetude = frq->count;
}
do_piechart(const struct variable *var, const struct freq_tab *frq_tab)
{
struct slice *slices;
- int n_slices;
+ int n_slices, i;
slices = freq_tab_to_slice_array(frq_tab, var, &n_slices);
piechart_plot(var_to_string(var), slices, n_slices);
+ for (i = 0 ; i < n_slices ; ++i )
+ {
+ ds_destroy (&slices[i].label);
+ }
+
free(slices);
}