/* * Gets the properties of the widget. This is used for both displaying the * properties in the property editor, and also for saving the properties. */ static void gb_spin_button_get_properties (GtkWidget * widget, GbWidgetGetArgData * data) { gint i, update_policy; gb_widget_output_float (data, ClimbRate, GTK_SPIN_BUTTON (widget)->climb_rate); gb_widget_output_int (data, Digits, GTK_SPIN_BUTTON (widget)->digits); gb_widget_output_bool (data, Numeric, GTK_SPIN_BUTTON (widget)->numeric); /* This is a slight kludge since the spin_button's update policy is a set of flags rather than integer values */ update_policy = GTK_SPIN_BUTTON (widget)->update_policy & (GTK_UPDATE_ALWAYS | GTK_UPDATE_IF_VALID); for (i = 0; i < sizeof (GbPolicyValues) / sizeof (GbPolicyValues[0]); i++) { if (GbPolicyValues[i] == update_policy) gb_widget_output_choice (data, Policy, i, GbPolicySymbols[i]); } /* In GTK 1.1 snap_to_ticks is given its own variable. */ gb_widget_output_bool (data, Snap, GTK_SPIN_BUTTON (widget)->snap_to_ticks); gb_widget_output_bool (data, Wrap, GTK_SPIN_BUTTON (widget)->wrap); gb_widget_output_adjustment (data, Values, GTK_SPIN_BUTTON (widget)->adjustment, "adjustment"); }
/* * Gets the properties of the widget. This is used for both displaying the * properties in the property editor, and also for saving the properties. */ static void gb_bonobo_control_get_properties (GtkWidget * widget, GbWidgetGetArgData * data) { Bonobo_PropertyBag pb = control_get_pb (widget); char *moniker = gtk_object_get_data (GTK_OBJECT (widget), Moniker); GList *key_list, *names; g_assert (moniker); if (!pb) return; /* We save the moniker in the XML, though we don't show it in the property editor. */ if (data->action == GB_SAVING) { save_string (data, Moniker, moniker); } key_list = bonobo_pbclient_get_keys (pb, NULL); for (names = key_list; names; names = names->next) { CORBA_TypeCode tc; char *prop = create_prop_name (moniker, names->data); tc = bonobo_pbclient_get_type (pb, names->data, NULL); switch (tc->kind) { case CORBA_tk_boolean: gb_widget_output_bool (data, prop, bonobo_pbclient_get_boolean (pb, names->data, NULL)); break; case CORBA_tk_string: { char *str = bonobo_pbclient_get_string (pb, names->data, NULL); gb_widget_output_translatable_string (data, prop, str); g_free (str); break; } case CORBA_tk_ulong: gb_widget_output_int (data, prop, bonobo_pbclient_get_ulong (pb, names->data, NULL)); break; case CORBA_tk_long: gb_widget_output_int (data, prop, bonobo_pbclient_get_long (pb, names->data, NULL)); break; case CORBA_tk_short: gb_widget_output_int (data, prop, bonobo_pbclient_get_short (pb, names->data, NULL)); break; case CORBA_tk_ushort: gb_widget_output_int (data, prop, bonobo_pbclient_get_ushort (pb, names->data, NULL)); break; case CORBA_tk_float: gb_widget_output_float (data, prop, bonobo_pbclient_get_float (pb, names->data, NULL)); break; case CORBA_tk_double: gb_widget_output_float (data, prop, bonobo_pbclient_get_double (pb, names->data, NULL)); break; default: g_warning ("Unhandled type %d", tc->kind); break; } g_free (prop); } bonobo_pbclient_free_keys (key_list); }
void gb_label_get_standard_properties (GtkWidget * widget, GbWidgetGetArgData * data, const char *label_p, const char *use_underline_p, const char *use_markup_p, const char *justify_p, const char *wrap_p, const char *selectable_p, const char *xalign_p, const char *yalign_p, const char *xpad_p, const char *ypad_p, const char *focus_target_p) { const gchar *label_text; gint i; label_text = gtk_label_get_label (GTK_LABEL (widget)); gb_widget_output_translatable_text (data, label_p, label_text); gb_widget_output_bool (data, use_underline_p, gtk_label_get_use_underline (GTK_LABEL (widget))); gb_widget_output_bool (data, use_markup_p, GPOINTER_TO_INT (gtk_object_get_data (GTK_OBJECT (widget), use_markup_p))); for (i = 0; i < sizeof (GbJustifyValues) / sizeof (GbJustifyValues[0]); i++) { if (GbJustifyValues[i] == GTK_LABEL (widget)->jtype) gb_widget_output_choice (data, justify_p, i, GbJustifySymbols[i]); } gb_widget_output_bool (data, wrap_p, GTK_LABEL (widget)->wrap); gb_widget_output_bool (data, selectable_p, gtk_label_get_selectable (GTK_LABEL (widget))); gb_widget_output_float (data, xalign_p, GTK_MISC (widget)->xalign); gb_widget_output_float (data, yalign_p, GTK_MISC (widget)->yalign); gb_widget_output_int (data, xpad_p, GTK_MISC (widget)->xpad); gb_widget_output_int (data, ypad_p, GTK_MISC (widget)->ypad); /* Labels not in buttons may have a focus target widget. */ if (!gb_label_find_mnemonic_widget (widget)) { gchar *accel_target; accel_target = gtk_object_get_data (GTK_OBJECT (widget), focus_target_p); /* If we're showing we need to display the list of possible focus target widgets. We walk the tree of widgets in this component, and if a widget has CAN_FOCUS set, we add it to the list. */ if (data->action == GB_SHOWING) { GList *focus_targets = NULL, *standard_items = NULL; GtkWidget *item, *combo; property_set_visible (focus_target_p, TRUE); gb_label_get_focus_targets (gtk_widget_get_toplevel (widget), &focus_targets); property_set_combo_strings (focus_target_p, focus_targets); g_list_free (focus_targets); combo = property_get_value_widget (focus_target_p); item = gtk_list_item_new_with_label (_("Auto")); gtk_widget_show (item); standard_items = g_list_append (standard_items, item); item = gtk_list_item_new (); gtk_widget_set_sensitive (item, FALSE); gtk_widget_show (item); standard_items = g_list_append (standard_items, item); gtk_combo_set_item_string (GTK_COMBO (combo), GTK_ITEM (item), ""); gtk_list_prepend_items (GTK_LIST (GTK_COMBO (combo)->list), standard_items); if (!accel_target) { accel_target = _("Auto"); } gb_widget_output_combo (data, focus_target_p, accel_target); } else { /* When saving, we only save the property if it has been set. */ if (accel_target) { /* First check that the widget is still there, and if it isn't just skip it. */ if (glade_util_find_widget (gtk_widget_get_toplevel (widget), accel_target)) { gb_widget_output_combo (data, focus_target_p, accel_target); } } else { /* If no target has been set, and the label has an underlined key, we try to find a default target and save that. */ if (gtk_label_get_use_underline (GTK_LABEL (widget))) { GtkWidget *accel_target; accel_target = glade_util_find_default_accelerator_target (widget); if (accel_target) { gb_widget_output_string (data, focus_target_p, gtk_widget_get_name (accel_target)); } } } } } else { if (data->action == GB_SHOWING) { property_set_visible (focus_target_p, FALSE); } } }
/* * Gets the properties of the widget. This is used for both displaying the * properties in the property editor, and also for saving the properties. */ static void gb_image_get_properties (GtkWidget * widget, GbWidgetGetArgData * data) { gchar *icon = gtk_object_get_data (GTK_OBJECT (widget), GladeIconKey); gchar *icon_name = NULL; gboolean is_stock_icon, is_named_icon = FALSE; gint i, pixel_size; GtkImageType storage_type; storage_type = gtk_image_get_storage_type (GTK_IMAGE (widget)); pixel_size = gtk_image_get_pixel_size (GTK_IMAGE (widget)); is_stock_icon = glade_util_check_is_stock_id (icon); if (storage_type == GTK_IMAGE_ICON_NAME) { g_object_get (widget, "icon_name", &icon_name, NULL); if (icon_name && *icon_name) is_named_icon = TRUE; } if (data->action == GB_SAVING) { /* When saving we want to use "stock" or "pixbuf", depending on whether it is a stock icon or an oridinary pixmap file. */ if (is_stock_icon) gb_widget_output_icon (data, "stock", icon); else gb_widget_output_icon (data, "pixbuf", icon); } else { gb_widget_output_icon (data, Icon, icon); } if (is_stock_icon || is_named_icon) { if (data->action == GB_SHOWING) { for (i = 0; i < GladeIconSizeChoicesSize; i++) { if (GladeIconSizeValues[i] == GTK_IMAGE (widget)->icon_size) gb_widget_output_choice (data, IconSize, i, GladeIconSizeSymbols[i]); } check_visible_sizes (icon, is_named_icon); } else { /* We have to save the size as an integer, which sucks a bit. The integer is the GtkIconSize enum value, not the actual size.*/ if (is_stock_icon || pixel_size == -1) gb_widget_output_int (data, IconSize, GTK_IMAGE (widget)->icon_size); } } gb_widget_output_named_icon (data, IconName, icon_name); /* The icon size only applies to stock icons or named icons. The pixel size only applies to named icons. */ if (data->action == GB_SHOWING) { property_set_sensitive (IconSize, is_stock_icon || is_named_icon); property_set_sensitive (PixelSize, is_named_icon); } /* We only want to save the pixel size for named icons, and only if it is not -1. */ if (data->action == GB_SHOWING || (storage_type == GTK_IMAGE_ICON_NAME && pixel_size != -1)) gb_widget_output_int (data, PixelSize, pixel_size); gb_widget_output_float (data, XAlign, GTK_MISC (widget)->xalign); gb_widget_output_float (data, YAlign, GTK_MISC (widget)->yalign); gb_widget_output_int (data, XPad, GTK_MISC (widget)->xpad); gb_widget_output_int (data, YPad, GTK_MISC (widget)->ypad); }