*/
-static struct group_statistics *get_group(int v, struct group_statistics *key);
-
struct levene_info
{
}
-static struct hsh_table **hash;
-
/* Internal variables used in calculating the Levene statistic */
/* Per variable statistics */
/* An array of lz_stats for each variable */
static struct lz_stats *lz;
-/* Set to 1 if the groups require inequality comparisions */
-static int inequality_compare;
-
static void
levene_precalc (const struct levene_info *l)
lz = xmalloc (sizeof (struct lz_stats ) * l->n_dep ) ;
- hash = xmalloc (sizeof ( struct hsh_table *) * l->n_dep );
-
for(i=0; i < l->n_dep ; ++i )
{
struct variable *v = l->v_dep[i];
- int g;
- int number_of_groups = v->p.grp_data.n_groups ;
-
- hash[i] = hsh_create (l->n_dep * number_of_groups,
- (hsh_compare_func *) compare_group,
- (hsh_hash_func *) hash_group,
- 0,(void *) l->v_indep->width);
lz[i].grand_total = 0;
lz[i].total_n = 0;
- lz[i].n_groups = number_of_groups;
-
- for (g = 0 ; g < v->p.grp_data.n_groups ; ++g )
- {
- struct group_statistics *gs = &v->p.grp_data.gs[g];
- gs->lz_total = 0;
- hsh_insert(hash[i], gs);
- if ( gs->criterion != CMP_EQ )
- {
- inequality_compare = 1;
- }
- }
+ lz[i].n_groups = v->p.grp_data.n_groups ;
}
}
struct group_statistics key;
double weight = dict_get_case_weight(default_dict,c,&warn);
-
/* Skip the entire case if /MISSING=LISTWISE is set */
if ( l->missing == LEV_LISTWISE )
{
key.id = *gv;
- key.criterion = CMP_EQ;
for (i = 0; i < l->n_dep; ++i)
{
double levene_z;
const union value *v = case_data (c, var->fv);
struct group_statistics *gs;
- gs = get_group(i,&key);
+
+ gs = hsh_find(var->p.grp_data.group_hash,(void *) &key );
+
if ( 0 == gs )
continue ;
for (v = 0; v < l->n_dep; ++v)
{
+ /* This is Z_LL */
lz[v].grand_mean = lz[v].grand_total / lz[v].total_n ;
-
}
}
{
struct hsh_iterator hi;
struct group_statistics *g;
- for(g = (struct group_statistics *) hsh_first(hash[v],&hi);
+
+ struct variable *var = l->v_dep[v] ;
+ struct hsh_table *hash = var->p.grp_data.group_hash;
+
+
+ for(g = (struct group_statistics *) hsh_first(hash,&hi);
g != 0 ;
- g = (struct group_statistics *) hsh_next(hash[v],&hi) )
+ g = (struct group_statistics *) hsh_next(hash,&hi) )
{
g->lz_mean = g->lz_total/g->n ;
}
}
key.id = *gv;
- key.criterion = CMP_EQ;
for (i = 0; i < l->n_dep; ++i)
{
struct variable *var = l->v_dep[i] ;
const union value *v = case_data (c, var->fv);
struct group_statistics *gs;
- gs = get_group(i,&key);
+
+ gs = hsh_find(var->p.grp_data.group_hash,(void *) &key );
+
if ( 0 == gs )
continue;
double lz_numerator = 0;
struct hsh_iterator hi;
struct group_statistics *g;
- for(g = (struct group_statistics *) hsh_first(hash[v],&hi);
+
+ struct variable *var = l->v_dep[v] ;
+ struct hsh_table *hash = var->p.grp_data.group_hash;
+
+ for(g = (struct group_statistics *) hsh_first(hash,&hi);
g != 0 ;
- g = (struct group_statistics *) hsh_next(hash[v],&hi) )
+ g = (struct group_statistics *) hsh_next(hash,&hi) )
{
-
lz_numerator += g->n * pow2(g->lz_mean - lz[v].grand_mean );
-
-
}
lz_numerator *= ( l->v_dep[v]->p.grp_data.ugs.n -
l->v_dep[v]->p.grp_data.n_groups );
- lz_denominator[v] /= (l->v_dep[v]->p.grp_data.n_groups - 1);
+ lz_denominator[v] *= (l->v_dep[v]->p.grp_data.n_groups - 1);
l->v_dep[v]->p.grp_data.levene = lz_numerator/lz_denominator[v] ;
+
}
/* Now clear up after ourselves */
free(lz_denominator);
- for (v = 0; v < l->n_dep; ++v)
- {
- hsh_destroy(hash[v]);
- }
-
- free(hash);
free(lz);
}
-
-/* Return the group belonging to the v_th dependent variable
- which matches the key */
-static struct group_statistics *
-get_group(int v, struct group_statistics *key)
-{
- struct group_statistics *gs;
- gs = hsh_find(hash[v],key);
-
-
- if ( ( !gs ) && inequality_compare)
- {
- /* Here we degrade to a linear search.
- This would seem inefficient. However, it should only ever happen
- with the T-TEST, for which there are exactly two groups */
-
- struct hsh_iterator hi;
-
- assert( hsh_count(hash[v]) == 2 ) ;
- for(gs = (struct group_statistics *) hsh_first(hash[v],&hi);
- gs != 0 ;
- gs = (struct group_statistics *) hsh_next(hash[v],&hi) )
- {
- int cmp;
-
- cmp = compare_values(&gs->id, &key->id, 0);
-
- assert( cmp != 0 ); /* or else the hash would have found something */
-
- if ( cmp == -1 &&
- ( gs->criterion == CMP_GT || gs->criterion == CMP_GE )
- )
- break;
-
- if ( cmp == 1 &&
- ( gs->criterion == CMP_LT || gs->criterion == CMP_LE )
- )
- break;
- }
- }
-
- return gs;
-}