}
-static const theoreticalfp theoreticalf[4] =
+static const theoreticalfp theoreticalf[4] =
{
theoretical_normal,
theoretical_uniform,
theoretical_exponential
};
-/*
+/*
Return the assymptotic approximation to the significance of Z
*/
static double
{
if (z < 0.27)
return 1;
-
+
if (z >= 3.1)
return 0;
{
const struct variable *var = ost->vars[v];
const union value *val = case_data (c, var);
-
+
if (var_is_value_missing (var, val, exclude))
continue;
case KS_EXPONENTIAL:
if (kst->p[0] != SYSMIS)
ks[v].mu = ks[v].sigma = kst->p[0];
- else
+ else
ks[v].mu = ks[v].sigma = ks[v].sum / ks[v].obs_cc;
break;
default:
cc += weight;
empirical = cc / ks[v].obs_cc;
-
+
theoretical = theoreticalf[kst->dist] (&ks[v], val->f);
-
+
d = empirical - theoretical;
dp = prev_empirical - theoretical;
if (d > 0)
- maximize (&ks[v].diff_pos, d);
+ maximize (&ks[v].diff_pos, d);
else
minimize (&ks[v].diff_neg, d);
if (dp > 0)
- maximize (&ks[v].diff_pos, dp);
+ maximize (&ks[v].diff_pos, dp);
else
minimize (&ks[v].diff_neg, dp);
case KS_NORMAL:
tab_text (table, 0, 2,
TAT_TITLE | TAB_LEFT , _("Normal Parameters"));
-
+
tab_text (table, 1, 2,
TAT_TITLE | TAB_LEFT , _("Mean"));
tab_text (table, 1, 3,
case KS_UNIFORM:
tab_text (table, 0, 2,
TAT_TITLE | TAB_LEFT , _("Uniform Parameters"));
-
+
tab_text (table, 1, 2,
TAT_TITLE | TAB_LEFT , _("Minimum"));
tab_text (table, 1, 3,
case KS_POISSON:
tab_text (table, 0, 2,
TAT_TITLE | TAB_LEFT , _("Poisson Parameters"));
-
+
tab_text (table, 1, 2,
TAT_TITLE | TAB_LEFT , _("Lambda"));
break;
case KS_EXPONENTIAL:
tab_text (table, 0, 2,
TAT_TITLE | TAB_LEFT , _("Exponential Parameters"));
-
+
tab_text (table, 1, 2,
TAT_TITLE | TAB_LEFT , _("Scale"));
break;
double z = 0;
const int col = 2 + i;
tab_text (table, col, 0,
- TAT_TITLE | TAB_CENTER ,
+ TAT_TITLE | TAB_CENTER ,
var_to_string (kst->parent.vars[i]));
switch (kst->dist)