Displays
- important:
The basic concept of a display in LVGL is explained in the Porting section. So before reading further, please read that section first.
Multiple display support
In LVGL you can have multiple displays, each with their own driver, widgets and color depth.
Creating more displays is easy: just use lv_display_create()
and
add set the buffer and the flush_cb
. When you create the UI, use
lv_display_set_default(disp) to tell the library on which display to
create objects.
Why would you want multi-display support? Here are some examples:
Have a "normal" TFT display with local UI and create "virtual" screens on VNC on demand. (You need to add your VNC driver).
Have a large TFT display and a small monochrome display.
Have some smaller and simple displays in a large instrument or technology.
Have two large TFT displays: one for a customer and one for the shop assistant.
Using only one display
Using more displays can be useful but in most cases it's not required. Therefore, the whole concept of multi-display handling is completely hidden if you register only one display. By default, the last created (and only) display is used.
lv_screen_active()
, lv_screen_load()
, lv_layer_top()
,
lv_layer_sys()
, LV_HOR_RES
and LV_VER_RES
are always applied
on the most recently created (default) display. If you pass NULL
as
disp
parameter to display related functions the default display will
usually be used. E.g. lv_display_trigger_activity(NULL) will trigger a
user activity on the default display. (See below in Inactivity).
Mirror display
To mirror the image of a display to another display, you don't need to
use multi-display support. Just transfer the buffer received in
flush_cb
to the other display too.
Split image
You can create a larger virtual display from an array of smaller ones.
You can create it as below: 1. Set the resolution of the displays to the
large display's resolution. 2. In flush_cb
, truncate and modify the
area
parameter for each display. 3. Send the buffer's content to
each real display with the truncated area.
Screens
Every display has its own set of screens and the objects on each screen.
Be sure not to confuse displays and screens:
Displays are the physical hardware drawing the pixels.
Screens are the high-level root objects associated with a particular display. One display can have multiple screens associated with it, but not vice versa.
Screens can be considered the highest level containers which have no
parent. A screen's size is always equal to its display and their origin
is (0;0). Therefore, a screen's coordinates can't be changed,
i.e. lv_obj_set_pos()
, lv_obj_set_size()
or similar functions
can't be used on screens.
A screen can be created from any object type but the two most typical types are Base object and Image (to create a wallpaper).
To create a screen, use
lv_obj_t * scr = lv_<type>_create(NULL). NULL
indicates no parent.
To load a screen, use lv_screen_load(scr). To get the active screen, use lv_screen_active(). These functions work on the default display. If you want to specify which display to work on, use lv_display_get_screen_active(disp) and lv_display_load_screen(disp, scr). A screen can be loaded with animations too. Read more here.
Screens can be deleted with lv_obj_delete(scr), but ensure that you do not delete the currently loaded screen.
Transparent screens
Usually, the opacity of the screen is LV_OPA_COVER
to provide a
solid background for its children. If this is not the case (opacity <
100%) the display's bottom_layer
be visible. If the bottom layer's
opacity is also not LV_OPA_COVER
LVGL has no solid background to
draw.
This configuration (transparent screen and display) could be used to create for example OSD menus where a video is played on a lower layer, and a menu is overlaid on an upper layer.
To properly render the screen the display's color format needs to be set to one with alpha channel.
In summary, to enable transparent screens and displays for OSD menu-like UIs:
Set the screen's
bg_opa
to transparent: lv_obj_set_style_bg_opa(lv_screen_active(), LV_OPA_TRANSP, 0)Set the bottom layer's
bg_opa
to transparent: lv_obj_set_style_bg_opa(lv_screen_active(), LV_OPA_TRANSP, 0)Set the screen's bg_opa to 0: lv_obj_set_style_bg_opa(lv_layer_bottom(), LV_OPA_TRANSP, 0)
Set a color format with alpha channel. E.g. lv_display_set_color_format(disp, LV_COLOR_FORMAT_ARGB8888)
Features of displays
Inactivity
A user's inactivity time is measured on each display. Every use of an
Input device (if associated with the display) counts as an activity. To
get time elapsed since the last activity, use
lv_display_get_inactive_time(disp). If NULL
is passed, the lowest
inactivity time among all displays will be returned (NULL isn't just
the default display).
You can manually trigger an activity using
lv_display_trigger_activity(disp). If disp
is NULL
, the default
screen will be used (and not all displays).
Background
Every display has a background color, background image and background opacity properties. They become visible when the current screen is transparent or not positioned to cover the whole display.
The background color is a simple color to fill the display. It can be adjusted with lv_obj_set_style_bg_color(obj, color);
The display background image is a path to a file or a pointer to an
lv_image_dsc_t
variable (converted image data) to be used as
wallpaper. It can be set with lv_obj_set_style_bg_img_src(obj, &my_img);
If a background image is configured the background won't be filled with
bg_color
.
The opacity of the background color or image can be adjusted with lv_obj_set_style_bg_opa(obj, opa).
The disp
parameter of these functions can be NULL
to select the
default display.