axes (except the scalar variable, if any). */
struct hmap_node node;
- /* The domains that contains this cell. */
+ /* The domains that contain this cell. */
struct ctables_domain *domains[N_CTDTS];
+ bool hide;
+ bool total;
+
struct
{
size_t vaa_idx;
CTLP_LAYER,
};
+struct ctables_summary_spec_set
+ {
+ struct ctables_summary_spec *summaries;
+ size_t n;
+ size_t allocated;
+
+ struct variable *var;
+ };
+
+static void ctables_summary_spec_set_uninit (struct ctables_summary_spec_set *);
+
struct var_array
{
struct variable **vars;
size_t *domains[N_CTDTS];
size_t n_domains[N_CTDTS];
- struct ctables_summary_spec *summaries;
- size_t n_summaries;
- struct variable *summary_var;
+ struct ctables_summary_spec_set cell_summaries;
+ struct ctables_summary_spec_set total_summaries;
};
struct var_array2
}
type;
+ struct ctables_category *subtotal;
+
union
{
double number; /* CCT_NUMBER. */
{
struct ctables_var var;
bool scale;
- struct ctables_summary_spec *summaries;
- size_t n_summaries;
- size_t allocated_summaries;
+ struct ctables_summary_spec_set cell_summaries;
+ struct ctables_summary_spec_set total_summaries;
};
/* Nonterminals. */
free (s->label);
}
+static void
+ctables_summary_spec_set_uninit (struct ctables_summary_spec_set *set)
+{
+ for (size_t i = 0; i < set->n; i++)
+ ctables_summary_spec_uninit (&set->summaries[i]);
+ free (set->summaries);
+}
+
static bool
parse_col_width (struct lexer *lexer, const char *name, double *width)
{
switch (axis->op)
{
case CTAO_VAR:
- for (size_t i = 0; i < axis->n_summaries; i++)
- ctables_summary_spec_uninit (&axis->summaries[i]);
- free (axis->summaries);
+ ctables_summary_spec_set_uninit (&axis->cell_summaries);
+ ctables_summary_spec_set_uninit (&axis->total_summaries);
break;
case CTAO_STACK:
add_summary_spec (struct ctables_axis *axis,
enum ctables_summary_function function, double percentile,
const char *label, const struct fmt_spec *format,
- const struct msg_location *loc)
+ const struct msg_location *loc, bool totals)
{
if (axis->op == CTAO_VAR)
{
- if (axis->n_summaries >= axis->allocated_summaries)
- axis->summaries = x2nrealloc (axis->summaries,
- &axis->allocated_summaries,
- sizeof *axis->summaries);
-
const char *function_name = ctables_summary_function_name (function);
const char *var_name = ctables_var_name (&axis->var);
switch (ctables_function_availability (function))
break;
}
- struct ctables_summary_spec *dst = &axis->summaries[axis->n_summaries++];
+ struct ctables_summary_spec_set *set = (totals ? &axis->total_summaries
+ : &axis->cell_summaries);
+ if (set->n >= set->allocated)
+ set->summaries = x2nrealloc (set->summaries, &set->allocated,
+ sizeof *set->summaries);
+
+ struct ctables_summary_spec *dst = &set->summaries[set->n++];
*dst = (struct ctables_summary_spec) {
.function = function,
.percentile = percentile,
{
for (size_t i = 0; i < 2; i++)
if (!add_summary_spec (axis->subs[i], function, percentile, label,
- format, loc))
+ format, loc, totals))
return false;
return true;
}
if (!sub || !lex_match (ctx->lexer, T_LBRACK))
return sub;
- do
+ bool totals = false;
+ for (;;)
{
int start_ofs = lex_ofs (ctx->lexer);
struct msg_location *loc = lex_ofs_location (ctx->lexer, start_ofs,
lex_ofs (ctx->lexer) - 1);
- add_summary_spec (sub, function, percentile, label, formatp, loc);
+ add_summary_spec (sub, function, percentile, label, formatp, loc,
+ totals);
free (label);
msg_location_destroy (loc);
- lex_match (ctx->lexer, T_COMMA);
+ if (lex_match (ctx->lexer, T_COMMA))
+ {
+ if (!totals && lex_match_id (ctx->lexer, "TOTALS"))
+ {
+ if (!lex_force_match (ctx->lexer, T_LBRACK))
+ goto error;
+ }
+ }
+ else if (lex_force_match (ctx->lexer, T_RBRACK))
+ {
+ if (totals && !lex_force_match (ctx->lexer, T_RBRACK))
+ goto error;
+ return sub;
+ }
+ else
+ goto error;
}
- while (!lex_match (ctx->lexer, T_RBRACK));
-
- return sub;
error:
ctables_axis_destroy (sub);
if (!axis)
return NULL;
else if (axis->op == CTAO_VAR)
- return !axis->scale && axis->n_summaries ? axis : NULL;
+ return !axis->scale && axis->cell_summaries.n ? axis : NULL;
else
{
for (size_t i = 0; i < 2; i++)
return false;
}
- if ((cat->type == CCT_SUBTOTAL || cat->type == CCT_HSUBTOTAL)
- && lex_match (lexer, T_EQUALS))
+ if (cat->type == CCT_SUBTOTAL || cat->type == CCT_HSUBTOTAL)
{
- if (!lex_force_string (lexer))
- return false;
+ if (lex_match (lexer, T_EQUALS))
+ {
+ if (!lex_force_string (lexer))
+ return false;
- cat->total_label = ss_xstrdup (lex_tokss (lexer));
- lex_get (lexer);
+ cat->total_label = ss_xstrdup (lex_tokss (lexer));
+ lex_get (lexer);
+ }
+ else
+ cat->total_label = xstrdup (_("Subtotal"));
}
c->n_cats++;
};
}
+ struct ctables_category *subtotal = NULL;
+ for (size_t i = totals_before ? 0 : c->n_cats;
+ totals_before ? i < c->n_cats : i-- > 0;
+ totals_before ? i++ : 0)
+ {
+ struct ctables_category *cat = &c->cats[i];
+ switch (cat->type)
+ {
+ case CCT_NUMBER:
+ case CCT_STRING:
+ case CCT_RANGE:
+ case CCT_MISSING:
+ case CCT_OTHERNM:
+ cat->subtotal = subtotal;
+ break;
+
+ case CCT_SUBTOTAL:
+ case CCT_HSUBTOTAL:
+ subtotal = cat;
+ break;
+
+ case CCT_TOTAL:
+ case CCT_VALUE:
+ case CCT_LABEL:
+ case CCT_FUNCTION:
+ break;
+ }
+ }
+
return true;
}
assert (n == allocate);
const struct var_array *summary_src;
- if (!a->summary_var)
+ if (!a->cell_summaries.var)
summary_src = b;
- else if (!b->summary_var)
+ else if (!b->cell_summaries.var)
summary_src = a;
else
NOT_REACHED ();
: b->scale_idx != SIZE_MAX ? a->n + b->scale_idx
: SIZE_MAX),
.n = n,
- .summaries = summary_src->summaries,
- .n_summaries = summary_src->n_summaries,
- .summary_var = summary_src->summary_var,
+ .cell_summaries = summary_src->cell_summaries,
+ .total_summaries = summary_src->total_summaries,
};
}
var_array2_uninit (&va0);
.n = 1,
.scale_idx = a->scale ? 0 : SIZE_MAX,
};
- if (a->n_summaries || a->scale)
+ if (a->cell_summaries.n || a->scale)
{
- va->summaries = a->summaries;
- va->n_summaries = a->n_summaries;
- va->summary_var = a->var.var;
+ va->cell_summaries = a->cell_summaries;
+ va->total_summaries = a->total_summaries;
+ va->cell_summaries.var = a->var.var;
+ va->total_summaries.var = a->var.var;
}
return (struct var_array2) { .vas = va, .n = 1 };
}
static double
-ctables_summary_value (const struct ctables_cell *f,
+ctables_summary_value (const struct ctables_cell *cell,
union ctables_summary *s,
const struct ctables_summary_spec *ss)
{
return s->valid;
case CTSF_SUBTABLEPCT_COUNT:
- return f->domains[CTDT_SUBTABLE]->valid ? s->valid / f->domains[CTDT_SUBTABLE]->valid * 100 : SYSMIS;
+ return cell->domains[CTDT_SUBTABLE]->valid ? s->valid / cell->domains[CTDT_SUBTABLE]->valid * 100 : SYSMIS;
case CTSF_ROWPCT_COUNT:
- return f->domains[CTDT_ROW]->valid ? s->valid / f->domains[CTDT_ROW]->valid * 100 : SYSMIS;
+ return cell->domains[CTDT_ROW]->valid ? s->valid / cell->domains[CTDT_ROW]->valid * 100 : SYSMIS;
case CTSF_COLPCT_COUNT:
- return f->domains[CTDT_COL]->valid ? s->valid / f->domains[CTDT_COL]->valid * 100 : SYSMIS;
+ return cell->domains[CTDT_COL]->valid ? s->valid / cell->domains[CTDT_COL]->valid * 100 : SYSMIS;
case CTSF_TABLEPCT_COUNT:
- return f->domains[CTDT_TABLE]->valid ? s->valid / f->domains[CTDT_TABLE]->valid * 100 : SYSMIS;
+ return cell->domains[CTDT_TABLE]->valid ? s->valid / cell->domains[CTDT_TABLE]->valid * 100 : SYSMIS;
case CTSF_LAYERPCT_COUNT:
- return f->domains[CTDT_LAYER]->valid ? s->valid / f->domains[CTDT_LAYER]->valid * 100 : SYSMIS;
+ return cell->domains[CTDT_LAYER]->valid ? s->valid / cell->domains[CTDT_LAYER]->valid * 100 : SYSMIS;
case CTSF_LAYERROWPCT_COUNT:
- return f->domains[CTDT_LAYERROW]->valid ? s->valid / f->domains[CTDT_LAYERROW]->valid * 100 : SYSMIS;
+ return cell->domains[CTDT_LAYERROW]->valid ? s->valid / cell->domains[CTDT_LAYERROW]->valid * 100 : SYSMIS;
case CTSF_LAYERCOLPCT_COUNT:
- return f->domains[CTDT_LAYERCOL]->valid ? s->valid / f->domains[CTDT_LAYERCOL]->valid * 100 : SYSMIS;
+ return cell->domains[CTDT_LAYERCOL]->valid ? s->valid / cell->domains[CTDT_LAYERCOL]->valid * 100 : SYSMIS;
case CTSF_ROWPCT_VALIDN:
case CTSF_COLPCT_VALIDN:
*/
static struct ctables_domain *
-ctables_domain_insert (struct ctables_table *t, struct ctables_cell *f,
+ctables_domain_insert (struct ctables_table *t, struct ctables_cell *cell,
enum ctables_domain_type domain)
{
size_t hash = 0;
for (enum pivot_axis_type a = 0; a < PIVOT_N_AXES; a++)
{
- size_t idx = f->axes[a].vaa_idx;
+ size_t idx = cell->axes[a].vaa_idx;
const struct var_array *va = &t->vaas[a].vas[idx];
hash = hash_int (idx, hash);
for (size_t i = 0; i < va->n_domains[domain]; i++)
{
size_t v_idx = va->domains[domain][i];
- hash = value_hash (&f->axes[a].cvs[v_idx].value,
+ hash = value_hash (&cell->axes[a].cvs[v_idx].value,
var_get_width (va->vars[v_idx]), hash);
}
}
const struct ctables_cell *df = d->example;
for (enum pivot_axis_type a = 0; a < PIVOT_N_AXES; a++)
{
- size_t idx = f->axes[a].vaa_idx;
+ size_t idx = cell->axes[a].vaa_idx;
if (idx != df->axes[a].vaa_idx)
goto not_equal;
{
size_t v_idx = va->domains[domain][i];
if (!value_equal (&df->axes[a].cvs[v_idx].value,
- &f->axes[a].cvs[v_idx].value,
+ &cell->axes[a].cvs[v_idx].value,
var_get_width (va->vars[v_idx])))
goto not_equal;
}
}
d = xmalloc (sizeof *d);
- *d = (struct ctables_domain) { .example = f };
+ *d = (struct ctables_domain) { .example = cell };
hmap_insert (&t->domains[domain], &d->node, hash);
return d;
}
static const struct ctables_category *
ctables_categories_total (const struct ctables_categories *c)
{
- const struct ctables_category *total = &c->cats[c->n_cats - 1];
- return total->type == CCT_TOTAL ? total : NULL;
+ const struct ctables_category *first = &c->cats[0];
+ const struct ctables_category *last = &c->cats[c->n_cats - 1];
+ return (first->type == CCT_TOTAL ? first
+ : last->type == CCT_TOTAL ? last
+ : NULL);
}
static void
const struct var_array *ss = &t->vaas[t->summary_axis].vas[ix[t->summary_axis]];
size_t hash = 0;
+ bool total = false;
for (enum pivot_axis_type a = 0; a < PIVOT_N_AXES; a++)
{
const struct var_array *va = &t->vaas[a].vas[ix[a]];
if (i != va->scale_idx)
{
hash = hash_pointer (cats[a][i], hash);
- if (cats[a][i]->type != CCT_TOTAL)
+ if (cats[a][i]->type != CCT_TOTAL
+ && cats[a][i]->type != CCT_SUBTOTAL
+ && cats[a][i]->type != CCT_HSUBTOTAL)
hash = value_hash (case_data (c, va->vars[i]),
var_get_width (va->vars[i]), hash);
+ else
+ total = true;
}
}
- struct ctables_cell *f;
- HMAP_FOR_EACH_WITH_HASH (f, struct ctables_cell, node, hash, &t->cells)
+ struct ctables_cell *cell;
+ HMAP_FOR_EACH_WITH_HASH (cell, struct ctables_cell, node, hash, &t->cells)
{
for (enum pivot_axis_type a = 0; a < PIVOT_N_AXES; a++)
{
const struct var_array *va = &t->vaas[a].vas[ix[a]];
- if (f->axes[a].vaa_idx != ix[a])
+ if (cell->axes[a].vaa_idx != ix[a])
goto not_equal;
for (size_t i = 0; i < va->n; i++)
if (i != va->scale_idx
- && (cats[a][i] != f->axes[a].cvs[i].category
+ && (cats[a][i] != cell->axes[a].cvs[i].category
|| (cats[a][i]->type != CCT_TOTAL
+ && cats[a][i]->type != CCT_SUBTOTAL
+ && cats[a][i]->type != CCT_HSUBTOTAL
&& !value_equal (case_data (c, va->vars[i]),
- &f->axes[a].cvs[i].value,
+ &cell->axes[a].cvs[i].value,
var_get_width (va->vars[i])))))
goto not_equal;
}
not_equal: ;
}
- f = xmalloc (sizeof *f);
+ cell = xmalloc (sizeof *cell);
+ cell->hide = false;
+ cell->total = total;
for (enum pivot_axis_type a = 0; a < PIVOT_N_AXES; a++)
{
const struct var_array *va = &t->vaas[a].vas[ix[a]];
- f->axes[a].vaa_idx = ix[a];
- f->axes[a].cvs = (va->n
- ? xnmalloc (va->n, sizeof *f->axes[a].cvs)
+ cell->axes[a].vaa_idx = ix[a];
+ cell->axes[a].cvs = (va->n
+ ? xnmalloc (va->n, sizeof *cell->axes[a].cvs)
: NULL);
for (size_t i = 0; i < va->n; i++)
{
- f->axes[a].cvs[i].category = cats[a][i];
- value_clone (&f->axes[a].cvs[i].value, case_data (c, va->vars[i]),
+ if (i != va->scale_idx)
+ {
+ const struct ctables_category *subtotal = cats[a][i]->subtotal;
+ if (subtotal && subtotal->type == CCT_HSUBTOTAL)
+ cell->hide = true;
+ }
+
+ cell->axes[a].cvs[i].category = cats[a][i];
+ value_clone (&cell->axes[a].cvs[i].value, case_data (c, va->vars[i]),
var_get_width (va->vars[i]));
}
}
- f->summaries = xmalloc (ss->n_summaries * sizeof *f->summaries);
- for (size_t i = 0; i < ss->n_summaries; i++)
- ctables_summary_init (&f->summaries[i], &ss->summaries[i]);
- for (enum ctables_domain_type dt = 0; dt < N_CTDTS; dt++)
- f->domains[dt] = ctables_domain_insert (t, f, dt);
- hmap_insert (&t->cells, &f->node, hash);
-summarize:
- for (size_t i = 0; i < ss->n_summaries; i++)
- ctables_summary_add (&f->summaries[i], &ss->summaries[i], ss->summary_var,
- case_data (c, ss->summary_var), weight);
+ {
+ const struct ctables_summary_spec_set *sss = &ss->cell_summaries;
+ cell->summaries = xmalloc (sss->n * sizeof *cell->summaries);
+ for (size_t i = 0; i < sss->n; i++)
+ ctables_summary_init (&cell->summaries[i], &sss->summaries[i]);
+ }
for (enum ctables_domain_type dt = 0; dt < N_CTDTS; dt++)
- f->domains[dt]->valid += weight;
+ cell->domains[dt] = ctables_domain_insert (t, cell, dt);
+ hmap_insert (&t->cells, &cell->node, hash);
+
+summarize: ;
+ const struct ctables_summary_spec_set *sss = &ss->cell_summaries;
+ for (size_t i = 0; i < sss->n; i++)
+ ctables_summary_add (&cell->summaries[i], &sss->summaries[i], sss->var,
+ case_data (c, sss->var), weight);
+ for (enum ctables_domain_type dt = 0; dt < N_CTDTS; dt++)
+ cell->domains[dt]->valid += weight;
+}
+
+static void
+recurse_totals (struct ctables_table *t, const struct ccase *c,
+ size_t ix[PIVOT_N_AXES],
+ const struct ctables_category *cats[PIVOT_N_AXES][10],
+ double weight,
+ enum pivot_axis_type start_a, size_t start_va)
+{
+ for (enum pivot_axis_type a = start_a; a < PIVOT_N_AXES; a++)
+ {
+ const struct var_array *va = &t->vaas[a].vas[ix[a]];
+ for (size_t i = start_va; i < va->n; i++)
+ {
+ if (i == va->scale_idx)
+ continue;
+
+ const struct variable *var = va->vars[i];
+
+ const struct ctables_category *total = ctables_categories_total (
+ t->categories[var_get_dict_index (var)]);
+ if (total)
+ {
+ const struct ctables_category *save = cats[a][i];
+ cats[a][i] = total;
+ ctables_cell_insert__ (t, c, ix, cats, weight);
+ recurse_totals (t, c, ix, cats, weight, a, i + 1);
+ cats[a][i] = save;
+ }
+ }
+ start_va = 0;
+ }
}
static void
ctables_cell_insert__ (t, c, ix, cats, weight);
+ recurse_totals (t, c, ix, cats, weight, 0, 0);
+
for (enum pivot_axis_type a = 0; a < PIVOT_N_AXES; a++)
{
const struct var_array *va = &t->vaas[a].vas[ix[a]];
if (i == va->scale_idx)
continue;
- const struct variable *var = va->vars[i];
-
- const struct ctables_category *total = ctables_categories_total (
- t->categories[var_get_dict_index (var)]);
- if (total)
+ const struct ctables_category *save = cats[a][i];
+ if (save->subtotal)
{
- const struct ctables_category *save = cats[a][i];
- cats[a][i] = total;
+ cats[a][i] = save->subtotal;
ctables_cell_insert__ (t, c, ix, cats, weight);
cats[a][i] = save;
}
for (size_t i = 0; i < t->vaas[t->summary_axis].n; i++)
{
struct var_array *va = &t->vaas[t->summary_axis].vas[i];
- if (!va->n_summaries)
+ if (!va->cell_summaries.n)
{
- va->summaries = xmalloc (sizeof *va->summaries);
- va->n_summaries = 1;
+ struct ctables_summary_spec_set *css = &va->cell_summaries;
+ css->summaries = xmalloc (sizeof *css->summaries);
+ css->n = 1;
enum ctables_summary_function function
- = va->summary_var ? CTSF_MEAN : CTSF_COUNT;
- struct ctables_var var = { .is_mrset = false, .var = va->summary_var };
+ = css->var ? CTSF_MEAN : CTSF_COUNT;
+ struct ctables_var var = { .is_mrset = false, .var = css->var };
- *va->summaries = (struct ctables_summary_spec) {
+ *css->summaries = (struct ctables_summary_spec) {
.function = function,
.format = ctables_summary_default_format (function, &var),
.label = ctables_summary_default_label (function, 0),
};
- if (!va->summary_var)
- va->summary_var = va->vars[0];
+ if (!css->var)
+ css->var = va->vars[0];
+
+ va->total_summaries = va->cell_summaries;
}
}
}
(t->title
? pivot_value_new_user_text (t->title, SIZE_MAX)
: pivot_value_new_text (N_("Custom Tables"))),
- NULL);
+ "Custom Tables");
if (t->caption)
pivot_table_set_caption (
pt, pivot_value_new_user_text (t->caption, SIZE_MAX));
struct ctables_cell **sorted = xnmalloc (t->cells.count, sizeof *sorted);
- struct ctables_cell *f;
+ struct ctables_cell *cell;
size_t n = 0;
- HMAP_FOR_EACH (f, struct ctables_cell, node, &t->cells)
- sorted[n++] = f;
- assert (n == t->cells.count);
+ HMAP_FOR_EACH (cell, struct ctables_cell, node, &t->cells)
+ if (!cell->hide)
+ sorted[n++] = cell;
+ assert (n <= t->cells.count);
struct ctables_cell_sort_aux aux = { .t = t, .a = a };
sort (sorted, n, sizeof *sorted, ctables_cell_compare_3way, &aux);
int prev_leaf = 0;
for (size_t j = 0; j < n; j++)
{
- struct ctables_cell *f = sorted[j];
- const struct var_array *va = &t->vaas[a].vas[f->axes[a].vaa_idx];
+ struct ctables_cell *cell = sorted[j];
+ const struct var_array *va = &t->vaas[a].vas[cell->axes[a].vaa_idx];
size_t n_common = 0;
bool new_subtable = false;
if (j > 0)
{
struct ctables_cell *prev = sorted[j - 1];
- if (prev->axes[a].vaa_idx == f->axes[a].vaa_idx)
+ if (prev->axes[a].vaa_idx == cell->axes[a].vaa_idx)
{
for (; n_common < va->n; n_common++)
if (n_common != va->scale_idx
&& (prev->axes[a].cvs[n_common].category
- != f->axes[a].cvs[n_common].category
+ != cell->axes[a].cvs[n_common].category
|| !value_equal (&prev->axes[a].cvs[n_common].value,
- &f->axes[a].cvs[n_common].value,
+ &cell->axes[a].cvs[n_common].value,
var_get_type (va->vars[n_common]))))
break;
}
}
if (n_common == va->n)
{
- f->axes[a].leaf = prev_leaf;
+ cell->axes[a].leaf = prev_leaf;
continue;
}
struct pivot_value *label
= (k == va->scale_idx ? NULL
- : f->axes[a].cvs[k].category->type == CCT_TOTAL
- ? pivot_value_new_user_text (f->axes[a].cvs[k].category->total_label,
+ : (cell->axes[a].cvs[k].category->type == CCT_TOTAL
+ || cell->axes[a].cvs[k].category->type == CCT_SUBTOTAL
+ || cell->axes[a].cvs[k].category->type == CCT_HSUBTOTAL)
+ ? pivot_value_new_user_text (cell->axes[a].cvs[k].category->total_label,
SIZE_MAX)
: pivot_value_new_var_value (va->vars[k],
- &f->axes[a].cvs[k].value));
+ &cell->axes[a].cvs[k].value));
if (k == va->n - 1)
{
if (a == t->summary_axis)
{
if (label)
parent = pivot_category_create_group__ (parent, label);
- for (size_t m = 0; m < va->n_summaries; m++)
+ for (size_t m = 0; m < va->cell_summaries.n; m++)
{
int leaf = pivot_category_create_leaf (
- parent, pivot_value_new_text (va->summaries[m].label));
+ parent, pivot_value_new_text (va->cell_summaries.summaries[m].label));
if (m == 0)
prev_leaf = leaf;
}
groups[k] = parent;
}
- f->axes[a].leaf = prev_leaf;
+ cell->axes[a].leaf = prev_leaf;
}
free (sorted);
free (groups);
}
- struct ctables_cell *f;
- HMAP_FOR_EACH (f, struct ctables_cell, node, &t->cells)
+ struct ctables_cell *cell;
+ HMAP_FOR_EACH (cell, struct ctables_cell, node, &t->cells)
{
- const struct var_array *ss = &t->vaas[t->summary_axis].vas[f->axes[t->summary_axis].vaa_idx];
- for (size_t j = 0; j < ss->n_summaries; j++)
+ if (cell->hide)
+ continue;
+
+ const struct ctables_summary_spec_set *sss = &t->vaas[t->summary_axis].vas[cell->axes[t->summary_axis].vaa_idx].cell_summaries;
+ for (size_t j = 0; j < sss->n; j++)
{
size_t dindexes[3];
size_t n_dindexes = 0;
for (enum pivot_axis_type a = 0; a < PIVOT_N_AXES; a++)
if (d[a])
{
- int leaf = f->axes[a].leaf;
+ int leaf = cell->axes[a].leaf;
if (a == t->summary_axis)
leaf += j;
dindexes[n_dindexes++] = leaf;
}
- double d = ctables_summary_value (f, &f->summaries[j], &ss->summaries[j]);
+ double d = ctables_summary_value (cell, &cell->summaries[j], &sss->summaries[j]);
struct pivot_value *value = pivot_value_new_number (d);
- value->numeric.format = ss->summaries[j].format;
+ value->numeric.format = sss->summaries[j].format;
pivot_table_put (pt, dindexes, n_dindexes, value);
}
}
"SIGTEST", "COMPARETEST");
goto error;
}
+
+ if (!lex_match (lexer, T_SLASH))
+ break;
}
if (t->row_labels != CTLP_NORMAL && t->col_labels != CTLP_NORMAL)
projects / pspp / blobdiff