Quick overview
Here you can learn the most important things about LVGL. You should read this first to get a general impression and read the detailed Porting and Overview sections after that.
Get started in a simulator
Instead of porting LVGL to embedded hardware straight away, it's highly recommended to get started in a simulator first.
LVGL is ported to many IDEs to be sure you will find your favorite one. Go to the Simulator on PC section to get ready-to-use projects that can be run on your PC. This way you can save the time of porting for now and get some experience with LVGL immediately.
Add LVGL into your project
If you would rather try LVGL on your own project follow these steps:
Download or clone the library from GitHub with
git clone https://github.com/lvgl/lvgl.git
.Copy the
lvgl
folder into your project.Copy
lvgl/lv_conf_template.h
aslv_conf.h
next to thelvgl
folder, change the first#if 0
to1
to enable the file's content and set theLV_COLOR_DEPTH
defines.Include
lvgl/lvgl.h
in files where you need to use LVGL related functions.Call lv_tick_inc(x) every
x
milliseconds in a Timer or Task (x
should be between 1 and 10). It is required for the internal timing of LVGL. Alternatively, register atick_get_cb
withlv_tick_set_cb()
so that LVGL can retrieve the current time directly.Call
lv_init()
Create a display.
lv_display_t *display = lv_display_create(MY_DISP_HOR_RES, MY_DISP_VER_RES);
Create a draw buffer: LVGL will render the graphics here first, and send the rendered image to the display. The buffer size can be set freely but 1/10 screen size is a good starting point.
static lv_color_t buf1[MY_DISP_HOR_RES * MY_DISP_VER_RES / 10]; /*Declare a buffer for 1/10 screen size*/
lv_display_set_buffers(display, buf1, NULL, sizeof(buf1)); /*Initialize the display buffer.*/
Implement and register a function which can copy the rendered image to an area of your display:
lv_display_set_flush_cb(display, my_disp_flush);
void my_disp_flush(lv_display_t * disp, const lv_area_t * area, lv_color_t * color_p)
{
int32_t x, y;
/*It's a very slow but simple implementation.
*`set_pixel` needs to be written by you to a set pixel on the screen*/
for(y = area->y1; y <= area->y2; y++) {
for(x = area->x1; x <= area->x2; x++) {
set_pixel(x, y, *color_p);
color_p++;
}
}
lv_display_flush_ready(disp); /* Indicate you are ready with the flushing*/
}
Implement and register a function which can read an input device. E.g. for a touchpad:
static lv_indev_t indev_drv; /*Descriptor of a input device driver*/
lv_indev_drv_init(&indev_drv); /*Basic initialization*/
indev_drv.type = LV_INDEV_TYPE_POINTER; /*Touch pad is a pointer-like device*/
indev_drv.read_cb = my_touchpad_read; /*Set your driver function*/
lv_indev_drv_register(&indev_drv); /*Finally register the driver*/
void my_touchpad_read(lv_indev_drv_t * indev_drv, lv_indev_data_t * data)
{
/*`touchpad_is_pressed` and `touchpad_get_xy` needs to be implemented by you*/
if(touchpad_is_pressed()) {
data->state = LV_INDEV_STATE_PRESSED;
touchpad_get_xy(&data->point.x, &data->point.y);
} else {
data->state = LV_INDEV_STATE_RELEASED;
}
}
Call
lv_timer_handler()
periodically every few milliseconds in the mainwhile(1)
loop or in an operating system task. It will redraw the screen if required, handle input devices, animation etc.
For a more detailed guide go to the Porting section.
Learn the basics
Widgets
The graphical elements like Buttons, Labels, Sliders, Charts etc. are called objects or widgets. Go to Widgets to see the full list of available widgets.
Every object has a parent object where it is created. For example, if a label is created on a button, the button is the parent of label.
The child object moves with the parent and if the parent is deleted the children will be deleted too.
Children can be visible only within their parent's bounding area. In other words, the parts of the children outside the parent are clipped.
A Screen is the "root" parent. You can have any number of screens.
To get the current screen call lv_screen_active()
, and to load a screen
use lv_screen_load(scr1).
You can create a new object with lv_<type>_create(parent)
. It will
return an lv_obj_t
*
variable that can be used as a reference to the
object to set its parameters.
For example:
lv_obj_t * slider1 = lv_slider_create(lv_screen_active());
To set some basic attributes lv_obj_set_<parameter_name>(obj, <value>)
functions can be used. For
example:
lv_obj_set_x(btn1, 30);
lv_obj_set_y(btn1, 10);
lv_obj_set_size(btn1, 200, 50);
Along with the basic attributes, widgets can have type specific
parameters which are set by lv_<widget_type>_set_<parameter_name>(obj, <value>)
functions. For
example:
lv_slider_set_value(slider1, 70, LV_ANIM_ON);
To see the full API visit the documentation of the widgets or the related header file (e.g. lvgl/src/widgets/slider/lv_slider.h).
Events
Events are used to inform the user that something has happened with an object. You can assign one or more callbacks to an object which will be called if the object is clicked, released, dragged, being deleted, etc.
A callback is assigned like this:
lv_obj_add_event_cb(btn, btn_event_cb, LV_EVENT_CLICKED, NULL); /*Assign a callback to the button*/
...
void btn_event_cb(lv_event_t * e)
{
printf("Clicked\n");
}
LV_EVENT_ALL
can be used instead of LV_EVENT_CLICKED
to invoke
the callback for any event.
From lv_event_t * e the current event code can be retrieved with:
lv_event_code_t code = lv_event_get_code(e);
The object that triggered the event can be retrieved with:
lv_obj_t * obj = lv_event_get_target(e);
To learn all features of the events go to the Events section.
Parts
Widgets might be built from one or more parts. For example, a button
has only one part called LV_PART_MAIN
. However, a
lv_slider.h has LV_PART_MAIN
, LV_PART_INDICATOR
and LV_PART_KNOB
.
By using parts you can apply different styles to sub-elements of a widget. (See below)
Read the widgets' documentation to learn which parts each uses.
States
LVGL objects can be in a combination of the following states:
LV_STATE_DEFAULT
: Normal, released stateLV_STATE_CHECKED
: Toggled or checked stateLV_STATE_FOCUSED
: Focused via keypad or encoder or clicked via touchpad/mouseLV_STATE_FOCUS_KEY
: Focused via keypad or encoder but not via touchpad/mouseLV_STATE_EDITED
: Edit by an encoderLV_STATE_HOVERED
: Hovered by mouse (not supported now)LV_STATE_PRESSED
: Being pressedLV_STATE_SCROLLED
: Being scrolledLV_STATE_DISABLED
: Disabled
For example, if you press an object it will automatically go to the
LV_STATE_FOCUSED
and LV_STATE_PRESSED
states and when you
release it the LV_STATE_PRESSED
state will be removed while focus
remains active.
To check if an object is in a given state use
lv_obj_has_state(obj, LV_STATE_...)
. It will return true
if the
object is currently in that state.
To manually add or remove states use:
lv_obj_add_state(obj, LV_STATE_...);
lv_obj_remove_state(obj, LV_STATE_...);
Styles
A style instance contains properties such as background color, border width, font, etc. that describe the appearance of objects.
Styles are represented with lv_style_t
variables. Only their pointer
is saved in the objects so they need to be defined as static or global.
Before using a style it needs to be initialized with
lv_style_init(&style1). After that, properties can be added to
configure the style. For example:
static lv_style_t style1;
lv_style_init(&style1);
lv_style_set_bg_color(&style1, lv_color_hex(0xa03080))
lv_style_set_border_width(&style1, 2))
See the full list of properties here Properties.
Styles are assigned using the ORed combination of an object's part and state. For example to use this style on the slider's indicator when the slider is pressed:
lv_obj_add_style(slider1, &style1, LV_PART_INDICATOR | LV_STATE_PRESSED);
If the part is LV_PART_MAIN
it can be omitted:
lv_obj_add_style(btn1, &style1, LV_STATE_PRESSED); /*Equal to LV_PART_MAIN | LV_STATE_PRESSED*/
Similarly, LV_STATE_DEFAULT
can be omitted too:
lv_obj_add_style(slider1, &style1, LV_PART_INDICATOR); /*Equal to LV_PART_INDICATOR | LV_STATE_DEFAULT*/
For LV_STATE_DEFAULT
and LV_PART_MAIN
simply write 0
:
lv_obj_add_style(btn1, &style1, 0); /*Equal to LV_PART_MAIN | LV_STATE_DEFAULT*/
Styles can be cascaded (similarly to CSS). It means you can add more
styles to a part of an object. For example style_btn
can set a
default button appearance, and style_btn_red
can overwrite the
background color to make the button red:
lv_obj_add_style(btn1, &style_btn, 0);
lv_obj_add_style(btn1, &style1_btn_red, 0);
If a property is not set on for the current state, the style with
LV_STATE_DEFAULT
will be used. A default value is used if the
property is not defined in the default state.
Some properties (typically the text-related ones) can be inherited. This means if a property is not set in an object it will be searched for in its parents too. For example, you can set the font once in the screen's style and all text on that screen will inherit it by default.
Local style properties also can be added to objects. This creates a style which resides inside the object and is used only by the object:
lv_obj_set_style_bg_color(slider1, lv_color_hex(0x2080bb), LV_PART_INDICATOR | LV_STATE_PRESSED);
To learn all the features of styles see the Styles section.
Themes
Themes are the default styles for objects. Styles from a theme are applied automatically when objects are created.
The theme for your application is a compile time configuration set in
lv_conf.h
.
Examples
A very simple hello world label
C code
View on GitHub#include "../lv_examples.h"
#if LV_BUILD_EXAMPLES && LV_USE_LABEL
/**
* Basic example to create a "Hello world" label
*/
void lv_example_get_started_1(void)
{
/*Change the active screen's background color*/
lv_obj_set_style_bg_color(lv_screen_active(), lv_color_hex(0x003a57), LV_PART_MAIN);
/*Create a white label, set its text and align it to the center*/
lv_obj_t * label = lv_label_create(lv_screen_active());
lv_label_set_text(label, "Hello world");
lv_obj_set_style_text_color(lv_screen_active(), lv_color_hex(0xffffff), LV_PART_MAIN);
lv_obj_align(label, LV_ALIGN_CENTER, 0, 0);
}
#endif
Create a slider and write its value on a label
C code
View on GitHub#include "../lv_examples.h"
#if LV_BUILD_EXAMPLES && LV_USE_SLIDER
static lv_obj_t * label;
static void slider_event_cb(lv_event_t * e)
{
lv_obj_t * slider = lv_event_get_target(e);
/*Refresh the text*/
lv_label_set_text_fmt(label, "%"LV_PRId32, lv_slider_get_value(slider));
lv_obj_align_to(label, slider, LV_ALIGN_OUT_TOP_MID, 0, -15); /*Align top of the slider*/
}
/**
* Create a slider and write its value on a label.
*/
void lv_example_get_started_4(void)
{
/*Create a slider in the center of the display*/
lv_obj_t * slider = lv_slider_create(lv_screen_active());
lv_obj_set_width(slider, 200); /*Set the width*/
lv_obj_center(slider); /*Align to the center of the parent (screen)*/
lv_obj_add_event_cb(slider, slider_event_cb, LV_EVENT_VALUE_CHANGED, NULL); /*Assign an event function*/
/*Create a label above the slider*/
label = lv_label_create(lv_screen_active());
lv_label_set_text(label, "0");
lv_obj_align_to(label, slider, LV_ALIGN_OUT_TOP_MID, 0, -15); /*Align top of the slider*/
}
#endif
Micropython
Learn more about Micropython.
# Initialize
import display_driver
import lvgl as lv
# Create a button with a label
scr = lv.obj()
btn = lv.button(scr)
btn.align(lv.ALIGN.CENTER, 0, 0)
label = lv.label(btn)
label.set_text('Hello World!')
lv.screen_load(scr)