*/
enum pivot_axis_type label_axis[PIVOT_N_AXES];
enum pivot_axis_type clabels_from_axis;
+ enum pivot_axis_type clabels_to_axis;
const struct variable *clabels_example;
struct hmap clabels_values_map;
struct ctables_value **clabels_values;
break;
case CTSF_MEAN:
+ case CTSF_SUM:
+ case CTSF_areaPCT_SUM:
+ s->moments = moments1_create (MOMENT_MEAN);
+ break;
+
case CTSF_SEMEAN:
case CTSF_STDDEV:
- case CTSF_SUM:
case CTSF_VARIANCE:
- case CTSF_areaPCT_SUM:
s->moments = moments1_create (MOMENT_VARIANCE);
break;
switch (ss->function)
{
case CTSF_TOTALN:
- case CTSF_areaPCT_TOTALN:
s->count += ss->weighted ? d_weight : 1.0;
break;
+ case CTSF_areaPCT_TOTALN:
+ s->count += ss->weighted ? e_weight : 1.0;
+ break;
+
case CTSF_COUNT:
- case CTSF_areaPCT_COUNT:
if (is_scale || !excluded_missing)
s->count += ss->weighted ? d_weight : 1.0;
break;
+ case CTSF_areaPCT_COUNT:
+ if (is_scale || !excluded_missing)
+ s->count += ss->weighted ? e_weight : 1.0;
+ break;
+
case CTSF_VALIDN:
- case CTSF_areaPCT_VALIDN:
if (is_scale
? !is_scale_missing
: !is_missing)
s->count += ss->weighted ? d_weight : 1.0;
break;
+ case CTSF_areaPCT_VALIDN:
+ if (is_scale
+ ? !is_scale_missing
+ : !is_missing)
+ s->count += ss->weighted ? e_weight : 1.0;
+ break;
+
case CTSF_areaID:
break;
if (is_scale
? is_scale_missing
: is_missing)
- s->count += ss->weighted ? d_weight : 1.0;
+ s->count += ss->weighted ? e_weight : 1.0;
break;
case CTSF_ECOUNT:
case CTSF_STDDEV:
case CTSF_SUM:
case CTSF_VARIANCE:
- case CTSF_areaPCT_SUM:
if (!is_scale_missing)
moments1_add (s->moments, value->f, ss->weighted ? e_weight : 1.0);
break;
+ case CTSF_areaPCT_SUM:
+ if (!is_missing && !is_scale_missing)
+ moments1_add (s->moments, value->f, ss->weighted ? e_weight : 1.0);
+ break;
+
case CTSF_MEDIAN:
case CTSF_MODE:
case CTSF_PTILE:
for (size_t i = 0; i < nest->n; i++)
hmap_init (&s->occurrences[a][i]);
}
- for (size_t i = 0; i < N_CTATS; i++)
- hmap_init (&s->areas[i]);
+ for (enum ctables_area_type at = 0; at < N_CTATS; at++)
+ hmap_init (&s->areas[at]);
}
}
if (label_pos == a)
return true;
- t->clabels_from_axis = a;
-
const char *subcommand_name = a == PIVOT_AXIS_ROW ? "ROWLABELS" : "COLLABELS";
const char *pos_name = label_pos == PIVOT_AXIS_LAYER ? "LAYER" : "OPPOSITE";
nest->areas[at] = xmalloc (nest->n * sizeof *nest->areas[at]);
nest->n_areas[at] = 0;
- bool add_vars = (at == CTAT_LAYER ? a == PIVOT_AXIS_LAYER
- : at == CTAT_LAYERROW ? a != PIVOT_AXIS_COLUMN
- : at == CTAT_LAYERCOL ? a != PIVOT_AXIS_ROW
- : at == CTAT_TABLE ? false
- : true);
- if (add_vars)
- for (size_t k = 0; k < nest->n; k++)
- {
- if (k == nest->scale_idx)
- continue;
- nest->areas[at][nest->n_areas[at]++] = k;
- }
- else if (at == CTAT_LAYERCOL && a == PIVOT_AXIS_ROW && t->label_axis[a] != a)
+ enum pivot_axis_type ata, atb;
+ if (at == CTAT_ROW || at == CTAT_LAYERROW)
{
- for (size_t k = nest->n - 1; k < nest->n; k--)
- {
- if (k == nest->scale_idx)
- continue;
- nest->areas[at][nest->n_areas[at]++] = k;
- break;
- }
- continue;
+ ata = PIVOT_AXIS_ROW;
+ atb = PIVOT_AXIS_COLUMN;
}
- else if (at == CTAT_LAYERROW && a == PIVOT_AXIS_COLUMN && t->label_axis[a] != a)
+ else if (at == CTAT_COL || at == CTAT_LAYERCOL)
{
- for (size_t k = nest->n - 1; k < nest->n; k--)
- {
- if (k == nest->scale_idx)
- continue;
- nest->areas[at][nest->n_areas[at]++] = k;
- break;
- }
- continue;
+ ata = PIVOT_AXIS_COLUMN;
+ atb = PIVOT_AXIS_ROW;
}
- else if (at == CTAT_LAYER && t->label_axis[a] == PIVOT_AXIS_LAYER)
+
+ if (at == CTAT_LAYER
+ ? a != PIVOT_AXIS_LAYER && t->label_axis[a] == PIVOT_AXIS_LAYER
+ : at == CTAT_LAYERCOL || at == CTAT_LAYERROW
+ ? a == atb && t->label_axis[a] != a
+ : false)
{
for (size_t k = nest->n - 1; k < nest->n; k--)
- {
- if (k == nest->scale_idx)
- continue;
- nest->areas[at][nest->n_areas[at]++] = k;
- break;
- }
+ if (k != nest->scale_idx)
+ {
+ nest->areas[at][nest->n_areas[at]++] = k;
+ break;
+ }
continue;
}
- size_t n_drop;
- if (at == CTAT_SUBTABLE && t->label_axis[PIVOT_AXIS_ROW] == PIVOT_AXIS_COLUMN)
+ if (at == CTAT_LAYER ? a != PIVOT_AXIS_LAYER
+ : at == CTAT_LAYERROW || at == CTAT_LAYERCOL ? a == atb
+ : at == CTAT_TABLE ? true
+ : false)
+ continue;
+
+ for (size_t k = 0; k < nest->n; k++)
+ if (k != nest->scale_idx)
+ nest->areas[at][nest->n_areas[at]++] = k;
+
+ int n_drop;
+ switch (at)
{
- n_drop = (a == PIVOT_AXIS_LAYER ? 0
- : a == PIVOT_AXIS_ROW ? 2
+ case CTAT_SUBTABLE:
+#define L PIVOT_AXIS_LAYER
+ n_drop = (t->clabels_from_axis == L ? a != L
+ : t->clabels_to_axis == L ? (t->clabels_from_axis == a ? -1 : a != L)
+ : t->clabels_from_axis == a ? 2
: 0);
- }
- else if (at == CTAT_SUBTABLE && t->label_axis[PIVOT_AXIS_COLUMN] == PIVOT_AXIS_ROW)
- {
- n_drop = (a == PIVOT_AXIS_LAYER ? 0
- : a == PIVOT_AXIS_COLUMN ? 2
+#undef L
+ break;
+
+ case CTAT_LAYERROW:
+ case CTAT_LAYERCOL:
+ n_drop = a == ata && t->label_axis[ata] == atb;
+ break;
+
+ case CTAT_ROW:
+ case CTAT_COL:
+ n_drop = (a == ata ? t->label_axis[ata] == atb
+ : a != atb ? 0
+ : t->clabels_from_axis == atb ? -1
+ : t->clabels_to_axis != atb ? 1
: 0);
+ break;
+
+ case CTAT_LAYER:
+ case CTAT_TABLE:
+ n_drop = 0;
+ break;
}
- else if (at == CTAT_SUBTABLE && t->label_axis[PIVOT_AXIS_ROW] == PIVOT_AXIS_LAYER)
- {
- if (a == PIVOT_AXIS_COLUMN)
- n_drop = 1;
- else
- {
- if (a == PIVOT_AXIS_ROW)
- {
- size_t n = nest->n_areas[at];
- if (n > 1)
- {
- nest->areas[at][n - 2] = nest->areas[at][n - 1];
- nest->n_areas[at]--;
- }
- }
- continue;
- }
- }
- else if (at == CTAT_SUBTABLE && t->label_axis[PIVOT_AXIS_COLUMN] == PIVOT_AXIS_LAYER)
- {
- if (a == PIVOT_AXIS_ROW)
- n_drop = 1;
- else
- {
- if (a == PIVOT_AXIS_COLUMN)
- {
- size_t n = nest->n_areas[at];
- if (n > 1)
- {
- nest->areas[at][n - 2] = nest->areas[at][n - 1];
- nest->n_areas[at]--;
- }
- }
- continue;
- }
- }
- else if (at == CTAT_ROW && a == PIVOT_AXIS_COLUMN && t->label_axis[PIVOT_AXIS_ROW] == PIVOT_AXIS_COLUMN)
- continue;
- else if (at == CTAT_COL && a == PIVOT_AXIS_ROW && t->label_axis[PIVOT_AXIS_ROW] == PIVOT_AXIS_COLUMN)
- {
- size_t n = nest->n_areas[at];
- if (n > 1)
- {
- nest->areas[at][n - 2] = nest->areas[at][n - 1];
- nest->n_areas[at]--;
- }
- continue;
- }
- else if (at == CTAT_COL && a == PIVOT_AXIS_ROW && t->label_axis[PIVOT_AXIS_COLUMN] == PIVOT_AXIS_ROW)
- continue;
- else if (at == CTAT_ROW && a == PIVOT_AXIS_COLUMN && t->label_axis[PIVOT_AXIS_COLUMN] == PIVOT_AXIS_ROW)
- {
- size_t n = nest->n_areas[at];
- if (n > 1)
- {
- nest->areas[at][n - 2] = nest->areas[at][n - 1];
- nest->n_areas[at]--;
- }
- continue;
- }
- else if (at == CTAT_COL && a == PIVOT_AXIS_ROW && t->label_axis[PIVOT_AXIS_ROW] == PIVOT_AXIS_LAYER)
- {
- size_t n = nest->n_areas[at];
- if (n > 1)
- {
- nest->areas[at][n - 2] = nest->areas[at][n - 1];
- nest->n_areas[at]--;
- }
- continue;
- }
- else if (at == CTAT_ROW && a == PIVOT_AXIS_COLUMN && t->label_axis[PIVOT_AXIS_COLUMN] == PIVOT_AXIS_LAYER)
+
+ if (n_drop < 0)
{
size_t n = nest->n_areas[at];
if (n > 1)
nest->areas[at][n - 2] = nest->areas[at][n - 1];
nest->n_areas[at]--;
}
- continue;
}
else
{
- bool drop_last = (at == CTAT_SUBTABLE ? a != PIVOT_AXIS_LAYER
- : at == CTAT_ROW ? a == PIVOT_AXIS_COLUMN
- : at == CTAT_COL ? a == PIVOT_AXIS_ROW
- : false);
- bool drop_additional
- = ((t->label_axis[PIVOT_AXIS_ROW] == PIVOT_AXIS_COLUMN && (at == CTAT_ROW || at == CTAT_LAYERROW) && a == PIVOT_AXIS_ROW)
- || (t->label_axis[PIVOT_AXIS_COLUMN] == PIVOT_AXIS_ROW && (at == CTAT_COL || at == CTAT_LAYERCOL) && a == PIVOT_AXIS_COLUMN));
-
- n_drop = 0;
- if (drop_last)
- n_drop++;
- if (drop_additional)
- n_drop++;
+ for (int i = 0; i < n_drop; i++)
+ if (nest->n_areas[at] > 0)
+ nest->n_areas[at]--;
}
-
- for (size_t i = 0; i < n_drop; i++)
- if (nest->n_areas[at] > 0)
- nest->n_areas[at]--;
}
}
}
}
hmap_destroy (&s->cells);
- for (size_t i = 0; i < N_CTATS; i++)
- hmap_destroy (&s->areas[i]);
+ for (enum ctables_area_type at = 0; at < N_CTATS; at++)
+ hmap_destroy (&s->areas[at]);
}
static void
for (struct ccase *c = casereader_read (group); c;
case_unref (c), c = casereader_read (group))
{
- double d_weight = dict_get_case_weight (dict, c, &warn_on_invalid);
+ double d_weight = dict_get_rounded_case_weight (dict, c, &warn_on_invalid);
double e_weight = (ct->e_weight
? var_force_valid_weight (ct->e_weight,
case_num (c, ct->e_weight),
[PIVOT_AXIS_LAYER] = PIVOT_AXIS_LAYER,
},
.clabels_from_axis = PIVOT_AXIS_LAYER,
+ .clabels_to_axis = PIVOT_AXIS_LAYER,
.categories = categories,
.n_categories = n_vars,
.cilevel = 95,
break;
}
- if (t->label_axis[PIVOT_AXIS_ROW] != PIVOT_AXIS_ROW
- && t->label_axis[PIVOT_AXIS_COLUMN] != PIVOT_AXIS_COLUMN)
+ if (t->label_axis[PIVOT_AXIS_ROW] != PIVOT_AXIS_ROW)
{
- msg (SE, _("ROWLABELS and COLLABELS may not both be specified."));
- goto error;
+ t->clabels_from_axis = PIVOT_AXIS_ROW;
+ if (t->label_axis[PIVOT_AXIS_COLUMN] != PIVOT_AXIS_COLUMN)
+ {
+ msg (SE, _("ROWLABELS and COLLABELS may not both be specified."));
+ goto error;
+ }
}
+ else if (t->label_axis[PIVOT_AXIS_COLUMN] != PIVOT_AXIS_COLUMN)
+ t->clabels_from_axis = PIVOT_AXIS_COLUMN;
+ t->clabels_to_axis = t->label_axis[t->clabels_from_axis];
if (!ctables_prepare_table (t))
goto error;