Пример #1
0
twindow *build(CVideo &video, const std::string &type)
{
	std::vector<twindow_builder::tresolution>::const_iterator
		definition = get_window_builder(type);
	twindow *window = build(video, &*definition);
	window->set_id(type);
	return window;
}
/*WIKI
 * @page = GUIWidgetInstanceWML
 * @order = 1
 *
 * THIS PAGE IS AUTOMATICALLY GENERATED, DO NOT MODIFY DIRECTLY !!!
 *
 * = Widget instance =
 *
 * Inside a grid (which is inside all container widgets) a widget is
 * instantiated. With this instantiation some more variables of a widget can
 * be tuned. This page will describe what can be tuned.
 *
 */
twindow* build(CVideo& video, const std::string& type)
{
    std::vector<twindow_builder::tresolution>::const_iterator
    definition = get_window_builder(type);

    // We set the values from the definition since we can only determine the
    // best size (if needed) after all widgets have been placed.
    twindow* window = new twindow(video
                                  , definition->x
                                  , definition->y
                                  , definition->width
                                  , definition->height
                                  , definition->automatic_placement
                                  , definition->horizontal_placement
                                  , definition->vertical_placement
                                  , definition->maximum_width
                                  , definition->maximum_height
                                  , definition->definition);
    assert(window);
    window->set_id(type);

    foreach(const twindow_builder::tresolution::tlinked_group& lg,
            definition->linked_groups) {

        if(window->has_linked_size_group(lg.id)) {
            utils::string_map symbols;
            symbols["id"] = lg.id;
            t_string msg = vgettext(
                               "Linked '$id' group has multiple definitions."
                               , symbols);

            VALIDATE(false, msg);
        }

        window->init_linked_size_group(
            lg.id, lg.fixed_width, lg.fixed_height);
    }

    window->set_click_dismiss(definition->click_dismiss);

    boost::intrusive_ptr<const twindow_definition::tresolution> conf =
        boost::dynamic_pointer_cast<
        const twindow_definition::tresolution>(window->config());
    assert(conf);

    if(conf->grid) {
        window->init_grid(conf->grid);
        window->finalize(definition->grid);
    } else {
        window->init_grid(definition->grid);
    }

    window->add_to_keyboard_chain(window);

    return window;
}
Пример #3
0
/*WIKI
 * @page = GUIWidgetInstanceWML
 * @order = 1
 *
 * THIS PAGE IS AUTOMATICALLY GENERATED, DO NOT MODIFY DIRECTLY !!!
 *
 * = Widget instance =
 *
 * Inside a grid (which is inside all container widgets) a widget is
 * instantiated. With this instantiation some more variables of a widget can
 * be tuned. This page will describe what can be tuned.
 *
 */
twindow* build(CVideo& video, const std::string& type)
{
	std::vector<twindow_builder::tresolution>::const_iterator
		definition = get_window_builder(type);

	// We set the values from the definition since we can only determine the
	// best size (if needed) after all widgets have been placed.
	twindow* window = new twindow(video,
		definition->x, definition->y, definition->width, definition->height,
		definition->automatic_placement,
		definition->horizontal_placement, definition->vertical_placement,
		definition->definition);
	assert(window);

	log_scope2(gui, "Window builder: building grid for window");

	window->set_easy_close(definition->easy_close);

	const unsigned rows = definition->grid->rows;
	const unsigned cols = definition->grid->cols;

	window->set_rows_cols(rows, cols);

	for(unsigned x = 0; x < rows; ++x) {
		window->set_row_grow_factor(x, definition->grid->row_grow_factor[x]);
		for(unsigned y = 0; y < cols; ++y) {

			if(x == 0) {
				window->set_col_grow_factor(y, definition->grid->col_grow_factor[y]);
			}

			twidget* widget = definition->grid->widgets[x * cols + y]->build();
			window->set_child(widget, x, y,
				definition->grid->flags[x * cols + y],
				definition->grid->border_size[x * cols + y]);
		}
	}

	window->add_to_keyboard_chain(window);

	return window;
}