size_t hash = value_hash (prev, bc->widths[0], 0);
HMAP_FOR_EACH_WITH_HASH (foo, struct category, node, hash, &bc->primaries)
{
- if (value_equal (&foo->val, prev, bc->widths[0]))
+ if (value_equal (&foo->val, prev, bc->widths[0]))
break;
}
-
+
draw_tick (cr, geom, SCALE_ABSCISSA, false,
x_pos - (width * n_last_cat) / 2.0,
"%s", ds_cstr (&foo->label));
void
-xrchart_draw_barchart (const struct chart_item *chart_item, cairo_t *cr,
+xrchart_draw_barchart (const struct chart *chart, cairo_t *cr,
struct xrchart_geometry *geom)
{
- struct barchart *bc = to_barchart (chart_item);
+ struct barchart *bc = to_barchart (chart);
int i;
xrchart_write_title (cr, geom, _("Bar Chart"));
xrchart_write_ylabel (cr, geom, bc->ylabel);
- xrchart_write_xlabel (cr, geom, chart_item_get_title (chart_item));
+ xrchart_write_xlabel (cr, geom, chart_get_title (chart));
- if (bc->percent)
- xrchart_write_yscale (cr, geom, 0, bc->largest * 100.0 / bc->total_count );
- else
- xrchart_write_yscale (cr, geom, 0, bc->largest);
+ if (! xrchart_write_yscale (cr, geom, 0,
+ bc->percent ? bc->largest * 100.0 / bc->total_count : bc->largest))
+ return;
const double abscale = geom->axis[SCALE_ABSCISSA].data_max - geom->axis[SCALE_ABSCISSA].data_min;
const double width = abscale / (double) (bc->n_nzcats + bc->n_pcats);
{
const int blob_size = 13;
const int height = blob_size * (hmap_count (&bc->secondaries) * 2);
-
+
cairo_rectangle (cr,
geom->axis[SCALE_ABSCISSA].data_max + 10,
geom->axis[SCALE_ORDINATE].data_max - height,
{
const struct category *foo = bc->ss[i];
- cairo_move_to (cr,
+ cairo_move_to (cr,
geom->axis[SCALE_ABSCISSA].data_max + (1.5 * blob_size) + 20,
geom->axis[SCALE_ORDINATE].data_max - ypos);
-
+
xrchart_label (cr, 'l', 'b', geom->font_size, ds_cstr (&foo->label));
cairo_rectangle (cr,
cairo_fill_preserve (cr);
cairo_restore (cr);
-
+
cairo_stroke (cr);
ypos += blob_size * 2;