struct ctables_axis *axes[PIVOT_N_AXES];
struct ctables_stack stacks[PIVOT_N_AXES];
enum pivot_axis_type summary_axis;
+ struct ctables_summary_spec_set summary_specs;
struct hmap cells;
struct hmap domains[N_CTDTS];
- enum pivot_axis_type slabels_position;
+ enum pivot_axis_type slabels_axis;
bool slabels_visible;
enum ctables_label_position row_labels;
double percentile; /* CTSF_PTILE only. */
char *label;
struct fmt_spec format; /* XXX extra CTABLES formats */
+ size_t axis_idx;
};
static void
return axis;
}
+static bool
+has_digit (const char *s)
+{
+ return s[strcspn (s, "0123456789")] != '\0';
+}
+
static struct ctables_axis *
ctables_axis_parse_postfix (struct ctables_axis_parse_ctx *ctx)
{
if (!sub || !lex_match (ctx->lexer, T_LBRACK))
return sub;
- bool totals = false;
+ enum ctables_summary_variant sv = CSV_CELL;
for (;;)
{
int start_ofs = lex_ofs (ctx->lexer);
/* Parse format. */
struct fmt_spec format;
const struct fmt_spec *formatp;
- if (lex_token (ctx->lexer) == T_ID)
+ if (lex_token (ctx->lexer) == T_ID
+ && has_digit (lex_tokcstr (ctx->lexer)))
{
if (!parse_format_specifier (ctx->lexer, &format)
|| !fmt_check_output (&format)
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,
- totals);
+ add_summary_spec (sub, function, percentile, label, formatp, loc, sv);
free (label);
msg_location_destroy (loc);
- if (lex_match (ctx->lexer, T_COMMA))
+ lex_match (ctx->lexer, T_COMMA);
+ if (sv == CSV_CELL && lex_match_id (ctx->lexer, "TOTALS"))
{
- if (!totals && lex_match_id (ctx->lexer, "TOTALS"))
- {
- if (!lex_force_match (ctx->lexer, T_LBRACK))
- goto error;
- totals = true;
- }
+ if (!lex_force_match (ctx->lexer, T_LBRACK))
+ goto error;
+ sv = CSV_TOTAL;
}
- else if (lex_force_match (ctx->lexer, T_RBRACK))
+ else if (lex_match (ctx->lexer, T_RBRACK))
{
- if (totals && !lex_force_match (ctx->lexer, T_RBRACK))
+ if (sv == CSV_TOTAL && !lex_force_match (ctx->lexer, T_RBRACK))
goto error;
return sub;
}
- else
- goto error;
}
error:
}
}
+struct merge_item
+ {
+ const struct ctables_summary_spec_set *set;
+ size_t ofs;
+ };
+
+static int
+merge_item_compare_3way (const struct merge_item *a, const struct merge_item *b)
+{
+ const struct ctables_summary_spec *as = &a->set->specs[a->ofs];
+ const struct ctables_summary_spec *bs = &b->set->specs[b->ofs];
+ if (as->function != bs->function)
+ return as->function > bs->function ? 1 : -1;
+ else if (as->percentile != bs->percentile)
+ return as->percentile < bs->percentile ? 1 : -1;
+ return strcmp (as->label, bs->label);
+}
+
+static void
+ctables_table_output_same_axis (struct ctables *ct, struct ctables_table *t)
+{
+ struct pivot_table *pt = pivot_table_create__ (
+ (t->title
+ ? pivot_value_new_user_text (t->title, SIZE_MAX)
+ : pivot_value_new_text (N_("Custom Tables"))),
+ "Custom Tables");
+ if (t->caption)
+ pivot_table_set_caption (
+ pt, pivot_value_new_user_text (t->caption, SIZE_MAX));
+ if (t->corner)
+ pivot_table_set_caption (
+ pt, pivot_value_new_user_text (t->corner, SIZE_MAX));
+
+ pivot_table_set_look (pt, ct->look);
+ struct pivot_dimension *d[PIVOT_N_AXES];
+ for (enum pivot_axis_type a = 0; a < PIVOT_N_AXES; a++)
+ {
+ static const char *names[] = {
+ [PIVOT_AXIS_ROW] = N_("Rows"),
+ [PIVOT_AXIS_COLUMN] = N_("Columns"),
+ [PIVOT_AXIS_LAYER] = N_("Layers"),
+ };
+ d[a] = (t->axes[a] || a == t->summary_axis
+ ? pivot_dimension_create (pt, a, names[a])
+ : NULL);
+ if (!d[a])
+ continue;
+
+ assert (t->axes[a]);
+
+ struct ctables_cell **sorted = xnmalloc (t->cells.count, sizeof *sorted);
+
+ struct ctables_cell *cell;
+ size_t n = 0;
+ 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);
+
+ size_t max_depth = 0;
+ for (size_t j = 0; j < t->stacks[a].n; j++)
+ if (t->stacks[a].nests[j].n > max_depth)
+ max_depth = t->stacks[a].nests[j].n;
+
+ struct pivot_category **groups = xnmalloc (max_depth, sizeof *groups);
+ struct pivot_category *top = NULL;
+ int prev_leaf = 0;
+ for (size_t j = 0; j < n; j++)
+ {
+ struct ctables_cell *cell = sorted[j];
+ const struct ctables_nest *nest = &t->stacks[a].nests[cell->axes[a].stack_idx];
+
+ size_t n_common = 0;
+ bool new_subtable = false;
+ if (j > 0)
+ {
+ struct ctables_cell *prev = sorted[j - 1];
+ if (prev->axes[a].stack_idx == cell->axes[a].stack_idx)
+ {
+ for (; n_common < nest->n; n_common++)
+ if (n_common != nest->scale_idx
+ && (prev->axes[a].cvs[n_common].category
+ != cell->axes[a].cvs[n_common].category
+ || !value_equal (&prev->axes[a].cvs[n_common].value,
+ &cell->axes[a].cvs[n_common].value,
+ var_get_type (nest->vars[n_common]))))
+ break;
+ }
+ else
+ new_subtable = true;
+ }
+ else
+ new_subtable = true;
+
+ if (new_subtable)
+ {
+ enum ctables_vlabel vlabel = ct->vlabels[var_get_dict_index (nest->vars[0])];
+ top = d[a]->root;
+ if (vlabel != CTVL_NONE)
+ top = pivot_category_create_group__ (
+ top, pivot_value_new_variable (nest->vars[0]));
+ }
+ if (n_common == nest->n)
+ {
+ cell->axes[a].leaf = prev_leaf;
+ continue;
+ }
+
+ for (size_t k = n_common; k < nest->n; k++)
+ {
+ struct pivot_category *parent = k > 0 ? groups[k - 1] : top;
+
+ struct pivot_value *label
+ = (k == nest->scale_idx ? NULL
+ : (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 (nest->vars[k],
+ &cell->axes[a].cvs[k].value));
+ if (k == nest->n - 1)
+ {
+ if (a == t->summary_axis)
+ {
+ if (label)
+ parent = pivot_category_create_group__ (parent, label);
+ const struct ctables_summary_spec_set *specs = &nest->specs[cell->sv];
+ for (size_t m = 0; m < specs->n; m++)
+ {
+ int leaf = pivot_category_create_leaf (
+ parent, pivot_value_new_text (specs->specs[m].label));
+ if (m == 0)
+ prev_leaf = leaf;
+ }
+ }
+ else
+ {
+ /* This assertion is true as long as the summary axis
+ is the axis where the summaries are displayed. */
+ assert (label);
+
+ prev_leaf = pivot_category_create_leaf (parent, label);
+ }
+ break;
+ }
+
+ if (label)
+ parent = pivot_category_create_group__ (parent, label);
+
+ enum ctables_vlabel vlabel = ct->vlabels[var_get_dict_index (nest->vars[k + 1])];
+ if (vlabel != CTVL_NONE)
+ parent = pivot_category_create_group__ (
+ parent, pivot_value_new_variable (nest->vars[k + 1]));
+ groups[k] = parent;
+ }
+
+ cell->axes[a].leaf = prev_leaf;
+ }
+ free (sorted);
+ free (groups);
+ }
+ struct ctables_cell *cell;
+ HMAP_FOR_EACH (cell, struct ctables_cell, node, &t->cells)
+ {
+ if (cell->hide)
+ continue;
+
+ const struct ctables_nest *nest = &t->stacks[t->summary_axis].nests[cell->axes[t->summary_axis].stack_idx];
+ const struct ctables_summary_spec_set *specs = &nest->specs[cell->sv];
+ for (size_t j = 0; j < specs->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 = cell->axes[a].leaf;
+ if (a == t->summary_axis)
+ leaf += j;
+ dindexes[n_dindexes++] = leaf;
+ }
+
+ double d = ctables_summary_value (cell, &cell->summaries[j], &specs->specs[j]);
+ struct pivot_value *value = pivot_value_new_number (d);
+ value->numeric.format = specs->specs[j].format;
+ pivot_table_put (pt, dindexes, n_dindexes, value);
+ }
+ }
+
+ pivot_table_submit (pt);
+}
+
+
+static void
+ctables_table_output_different_axis (struct ctables *ct, struct ctables_table *t)
+{
+ struct pivot_table *pt = pivot_table_create__ (
+ (t->title
+ ? pivot_value_new_user_text (t->title, SIZE_MAX)
+ : pivot_value_new_text (N_("Custom Tables"))),
+ "Custom Tables");
+ if (t->caption)
+ pivot_table_set_caption (
+ pt, pivot_value_new_user_text (t->caption, SIZE_MAX));
+ if (t->corner)
+ pivot_table_set_caption (
+ pt, pivot_value_new_user_text (t->corner, SIZE_MAX));
+
+ pivot_table_set_look (pt, ct->look);
+ struct pivot_dimension *d[PIVOT_N_AXES];
+ for (enum pivot_axis_type a = 0; a < PIVOT_N_AXES; a++)
+ {
+ static const char *names[] = {
+ [PIVOT_AXIS_ROW] = N_("Rows"),
+ [PIVOT_AXIS_COLUMN] = N_("Columns"),
+ [PIVOT_AXIS_LAYER] = N_("Layers"),
+ };
+ d[a] = (t->axes[a] || a == t->summary_axis
+ ? pivot_dimension_create (pt, a, names[a])
+ : NULL);
+ if (!d[a])
+ continue;
+
+ assert (t->axes[a]);
+
+ struct ctables_cell **sorted = xnmalloc (t->cells.count, sizeof *sorted);
+
+ struct ctables_cell *cell;
+ size_t n = 0;
+ 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);
+
+ size_t max_depth = 0;
+ for (size_t j = 0; j < t->stacks[a].n; j++)
+ if (t->stacks[a].nests[j].n > max_depth)
+ max_depth = t->stacks[a].nests[j].n;
+
+ struct pivot_category **groups = xnmalloc (max_depth, sizeof *groups);
+ struct pivot_category *top = NULL;
+ int prev_leaf = 0;
+ for (size_t j = 0; j < n; j++)
+ {
+ struct ctables_cell *cell = sorted[j];
+ const struct ctables_nest *nest = &t->stacks[a].nests[cell->axes[a].stack_idx];
+
+ size_t n_common = 0;
+ bool new_subtable = false;
+ if (j > 0)
+ {
+ struct ctables_cell *prev = sorted[j - 1];
+ if (prev->axes[a].stack_idx == cell->axes[a].stack_idx)
+ {
+ for (; n_common < nest->n; n_common++)
+ if (n_common != nest->scale_idx
+ && (prev->axes[a].cvs[n_common].category
+ != cell->axes[a].cvs[n_common].category
+ || !value_equal (&prev->axes[a].cvs[n_common].value,
+ &cell->axes[a].cvs[n_common].value,
+ var_get_type (nest->vars[n_common]))))
+ break;
+ }
+ else
+ new_subtable = true;
+ }
+ else
+ new_subtable = true;
+
+ if (new_subtable)
+ {
+ enum ctables_vlabel vlabel = ct->vlabels[var_get_dict_index (nest->vars[0])];
+ top = d[a]->root;
+ if (vlabel != CTVL_NONE)
+ top = pivot_category_create_group__ (
+ top, pivot_value_new_variable (nest->vars[0]));
+ }
+ if (n_common == nest->n)
+ {
+ cell->axes[a].leaf = prev_leaf;
+ continue;
+ }
+
+ for (size_t k = n_common; k < nest->n; k++)
+ {
+ struct pivot_category *parent = k > 0 ? groups[k - 1] : top;
+
+ struct pivot_value *label
+ = (k == nest->scale_idx ? NULL
+ : (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 (nest->vars[k],
+ &cell->axes[a].cvs[k].value));
+ if (k == nest->n - 1)
+ {
+ if (a == t->slabels_axis)
+ {
+ if (label)
+ parent = pivot_category_create_group__ (parent, label);
+ const struct ctables_summary_spec_set *specs = &t->summary_specs;
+ for (size_t m = 0; m < specs->n; m++)
+ {
+ int leaf = pivot_category_create_leaf (
+ parent, pivot_value_new_text (specs->specs[m].label));
+ if (m == 0)
+ prev_leaf = leaf;
+ }
+ }
+ else
+ {
+ prev_leaf = pivot_category_create_leaf (parent, label ? label : pivot_value_new_user_text ("text", SIZE_MAX));
+ }
+ break;
+ }
+
+ if (label)
+ parent = pivot_category_create_group__ (parent, label);
+
+ enum ctables_vlabel vlabel = ct->vlabels[var_get_dict_index (nest->vars[k + 1])];
+ if (vlabel != CTVL_NONE)
+ parent = pivot_category_create_group__ (
+ parent, pivot_value_new_variable (nest->vars[k + 1]));
+ groups[k] = parent;
+ }
+
+ cell->axes[a].leaf = prev_leaf;
+ }
+ free (sorted);
+ free (groups);
+ }
+ pivot_table_submit (pt);
+}
+
+
static bool
ctables_execute (struct dataset *ds, struct ctables *ct)
{
t->stacks[a] = (struct ctables_stack) { .nests = nest, .n = 1 };
}
- for (size_t i = 0; i < t->stacks[t->summary_axis].n; i++)
+ struct ctables_stack *stack = &t->stacks[t->summary_axis];
+ for (size_t i = 0; i < stack->n; i++)
{
- struct ctables_nest *nest = &t->stacks[t->summary_axis].nests[i];
+ struct ctables_nest *nest = &stack->nests[i];
if (!nest->specs[CSV_CELL].n)
{
struct ctables_summary_spec_set *specs = &nest->specs[CSV_CELL];
ctables_summary_spec_set_clone (&nest->specs[CSV_TOTAL],
&nest->specs[CSV_CELL]);
}
+
+ struct ctables_summary_spec_set *merged = &t->summary_specs;
+ struct merge_item *items = xnmalloc (2 * stack->n, sizeof *items);
+ size_t n_left = 0;
+ for (size_t j = 0; j < stack->n; j++)
+ {
+ const struct ctables_nest *nest = &stack->nests[j];
+ if (nest->n)
+ for (enum ctables_summary_variant sv = 0; sv < N_CSVS; sv++)
+ items[n_left++] = (struct merge_item) { .set = &nest->specs[sv] };
+ }
+
+ while (n_left > 0)
+ {
+ struct merge_item min = items[0];
+ for (size_t j = 1; j < n_left; j++)
+ if (merge_item_compare_3way (&items[j], &min) < 0)
+ min = items[j];
+
+ if (merged->n >= merged->allocated)
+ merged->specs = x2nrealloc (merged->specs, &merged->allocated,
+ sizeof *merged->specs);
+ merged->specs[merged->n++] = min.set->specs[min.ofs];
+
+ for (size_t j = 0; j < n_left; )
+ {
+ if (merge_item_compare_3way (&items[j], &min) == 0)
+ {
+ struct merge_item *item = &items[j];
+ item->set->specs[item->ofs].axis_idx = merged->n - 1;
+ if (++item->ofs >= item->set->n)
+ {
+ items[j] = items[--n_left];
+ continue;
+ }
+ }
+ j++;
+ }
+ }
+
+#if 0
+ for (size_t j = 0; j < merged->n; j++)
+ printf ("%s\n", ctables_summary_function_name (merged->specs[j].function));
+
+ for (size_t j = 0; j < stack->n; j++)
+ {
+ const struct ctables_nest *nest = &stack->nests[j];
+ for (enum ctables_summary_variant sv = 0; sv < N_CSVS; sv++)
+ {
+ const struct ctables_summary_spec_set *specs = &nest->specs[sv];
+ for (size_t k = 0; k < specs->n; k++)
+ printf ("(%s, %zu) ", ctables_summary_function_name (specs->specs[k].function),
+ specs->specs[k].axis_idx);
+ printf ("\n");
+ }
+ }
+#endif
}
struct casereader *input = casereader_create_filter_weight (proc_open (ds),
for (size_t i = 0; i < ct->n_tables; i++)
{
struct ctables_table *t = ct->tables[i];
-
- struct pivot_table *pt = pivot_table_create__ (
- (t->title
- ? pivot_value_new_user_text (t->title, SIZE_MAX)
- : pivot_value_new_text (N_("Custom Tables"))),
- "Custom Tables");
- if (t->caption)
- pivot_table_set_caption (
- pt, pivot_value_new_user_text (t->caption, SIZE_MAX));
- if (t->corner)
- pivot_table_set_caption (
- pt, pivot_value_new_user_text (t->corner, SIZE_MAX));
-
- pivot_table_set_look (pt, ct->look);
- struct pivot_dimension *d[PIVOT_N_AXES];
- for (enum pivot_axis_type a = 0; a < PIVOT_N_AXES; a++)
- {
- static const char *names[] = {
- [PIVOT_AXIS_ROW] = N_("Rows"),
- [PIVOT_AXIS_COLUMN] = N_("Columns"),
- [PIVOT_AXIS_LAYER] = N_("Layers"),
- };
- d[a] = (t->axes[a] || a == t->summary_axis
- ? pivot_dimension_create (pt, a, names[a])
- : NULL);
- if (!d[a])
- continue;
-
- assert (t->axes[a]);
-
- struct ctables_cell **sorted = xnmalloc (t->cells.count, sizeof *sorted);
-
- struct ctables_cell *cell;
- size_t n = 0;
- 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);
-
- size_t max_depth = 0;
- for (size_t j = 0; j < t->stacks[a].n; j++)
- if (t->stacks[a].nests[j].n > max_depth)
- max_depth = t->stacks[a].nests[j].n;
-
- struct pivot_category **groups = xnmalloc (max_depth, sizeof *groups);
- struct pivot_category *top = NULL;
- int prev_leaf = 0;
- for (size_t j = 0; j < n; j++)
- {
- struct ctables_cell *cell = sorted[j];
- const struct ctables_nest *nest = &t->stacks[a].nests[cell->axes[a].stack_idx];
-
- size_t n_common = 0;
- bool new_subtable = false;
- if (j > 0)
- {
- struct ctables_cell *prev = sorted[j - 1];
- if (prev->axes[a].stack_idx == cell->axes[a].stack_idx)
- {
- for (; n_common < nest->n; n_common++)
- if (n_common != nest->scale_idx
- && (prev->axes[a].cvs[n_common].category
- != cell->axes[a].cvs[n_common].category
- || !value_equal (&prev->axes[a].cvs[n_common].value,
- &cell->axes[a].cvs[n_common].value,
- var_get_type (nest->vars[n_common]))))
- break;
- }
- else
- new_subtable = true;
- }
- else
- new_subtable = true;
-
- if (new_subtable)
- {
- enum ctables_vlabel vlabel = ct->vlabels[var_get_dict_index (nest->vars[0])];
- top = d[a]->root;
- if (vlabel != CTVL_NONE)
- top = pivot_category_create_group__ (
- top, pivot_value_new_variable (nest->vars[0]));
- }
- if (n_common == nest->n)
- {
- cell->axes[a].leaf = prev_leaf;
- continue;
- }
-
- for (size_t k = n_common; k < nest->n; k++)
- {
- struct pivot_category *parent = k > 0 ? groups[k - 1] : top;
-
- struct pivot_value *label
- = (k == nest->scale_idx ? NULL
- : (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 (nest->vars[k],
- &cell->axes[a].cvs[k].value));
- if (k == nest->n - 1)
- {
- if (a == t->summary_axis)
- {
- if (label)
- parent = pivot_category_create_group__ (parent, label);
- const struct ctables_summary_spec_set *specs = &nest->specs[cell->sv];
- for (size_t m = 0; m < specs->n; m++)
- {
- int leaf = pivot_category_create_leaf (
- parent, pivot_value_new_text (specs->specs[m].label));
- if (m == 0)
- prev_leaf = leaf;
- }
- }
- else
- {
- /* This assertion is true as long as the summary axis
- is the axis where the summaries are displayed. */
- assert (label);
-
- prev_leaf = pivot_category_create_leaf (parent, label);
- }
- break;
- }
-
- if (label)
- parent = pivot_category_create_group__ (parent, label);
-
- enum ctables_vlabel vlabel = ct->vlabels[var_get_dict_index (nest->vars[k + 1])];
- if (vlabel != CTVL_NONE)
- parent = pivot_category_create_group__ (
- parent, pivot_value_new_variable (nest->vars[k + 1]));
- groups[k] = parent;
- }
-
- cell->axes[a].leaf = prev_leaf;
- }
- free (sorted);
- free (groups);
- }
- struct ctables_cell *cell;
- HMAP_FOR_EACH (cell, struct ctables_cell, node, &t->cells)
- {
- if (cell->hide)
- continue;
-
- const struct ctables_nest *nest = &t->stacks[t->summary_axis].nests[cell->axes[t->summary_axis].stack_idx];
- const struct ctables_summary_spec_set *specs = &nest->specs[cell->sv];
- for (size_t j = 0; j < specs->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 = cell->axes[a].leaf;
- if (a == t->summary_axis)
- leaf += j;
- dindexes[n_dindexes++] = leaf;
- }
-
- double d = ctables_summary_value (cell, &cell->summaries[j], &specs->specs[j]);
- struct pivot_value *value = pivot_value_new_number (d);
- value->numeric.format = specs->specs[j].format;
- pivot_table_put (pt, dindexes, n_dindexes, value);
- }
- }
-
- pivot_table_submit (pt);
+ if (t->summary_axis == t->slabels_axis)
+ ctables_table_output_same_axis (ct, ct->tables[i]);
+ else
+ ctables_table_output_different_axis (ct, ct->tables[i]);
}
-
return proc_commit (ds);
}
struct ctables_table *t = xmalloc (sizeof *t);
*t = (struct ctables_table) {
.cells = HMAP_INITIALIZER (t->cells),
- .slabels_position = PIVOT_AXIS_COLUMN,
+ .slabels_axis = PIVOT_AXIS_COLUMN,
.slabels_visible = true,
.row_labels = CTLP_NORMAL,
.col_labels = CTLP_NORMAL,
{
if (lex_match_id (lexer, "SLABELS"))
{
- while (lex_token (lexer) != T_SLASH)
+ while (lex_token (lexer) != T_SLASH && lex_token (lexer) != T_ENDCMD)
{
if (lex_match_id (lexer, "POSITION"))
{
lex_match (lexer, T_EQUALS);
if (lex_match_id (lexer, "COLUMN"))
- t->slabels_position = PIVOT_AXIS_COLUMN;
+ t->slabels_axis = PIVOT_AXIS_COLUMN;
else if (lex_match_id (lexer, "ROW"))
- t->slabels_position = PIVOT_AXIS_ROW;
+ t->slabels_axis = PIVOT_AXIS_ROW;
else if (lex_match_id (lexer, "LAYER"))
- t->slabels_position = PIVOT_AXIS_LAYER;
+ t->slabels_axis = PIVOT_AXIS_LAYER;
else
{
lex_error_expecting (lexer, "COLUMN", "ROW", "LAYER");
}
else if (lex_match_id (lexer, "CLABELS"))
{
- while (lex_token (lexer) != T_SLASH)
+ while (lex_token (lexer) != T_SLASH && lex_token (lexer) != T_ENDCMD)
{
if (lex_match_id (lexer, "AUTO"))
t->row_labels = t->col_labels = CTLP_NORMAL;