Introduction
LVGL (Light and Versatile Graphics Library) is a free and open-source graphics library providing everything you need to create an embedded GUI with easy-to-use graphical elements, beautiful visual effects and a low memory footprint.
Key features
Powerful building blocks such as buttons, charts, lists, sliders, images, etc.
Advanced graphics with animations, anti-aliasing, opacity, smooth scrolling
Various input devices such as touchpad, mouse, keyboard, encoder, etc.
Multi-language support with UTF-8 encoding
Multi-display support, i.e. use multiple TFT, monochrome displays simultaneously
Fully customizable graphic elements with CSS-like styles
Hardware independent: use with any microcontroller or display
Scalable: able to operate with little memory (64 kB Flash, 16 kB RAM)
OS, external memory and GPU are supported but not required
Single frame buffer operation even with advanced graphic effects
Written in C for maximal compatibility (C++ compatible)
Simulator to start embedded GUI design on a PC without embedded hardware
Binding to MicroPython
Tutorials, examples, themes for rapid GUI design
Documentation is available online and as PDF
Free and open-source under MIT license
Requirements
Basically, every modern controller which is able to drive a display is suitable to run LVGL. The minimal requirements are:
16, 32 or 64 bit microcontroller or processor
> 16 MHz clock speed is recommended
Flash/ROM: > 64 kB for the very essential components (> 180 kB is recommended)
- RAM:
Static RAM usage: ~2 kB depending on the used features and object types
stack: > 2kB (> 8 kB is recommended)
- Dynamic data (heap): > 2 KB (> 48 kB is recommended if using several objects).
Set by
LV_MEM_SIZE
in lv_conf.h.
Display buffer: > "Horizontal resolution" pixels (> 10 "Horizontal resolution" is recommended)
One frame buffer in the MCU or in an external display controller
C99 or newer compiler
- Note:
memory usage may vary depending on architecture, compiler and build options.
License
The LVGL project (including all repositories) is licensed under MIT license. This means you can use it even in commercial projects.
It's not mandatory, but we highly appreciate it if you write a few words about your project in the My projects category of the forum or a private message to lvgl.io.
Although you can get LVGL for free there is a massive amount of work behind it. It's created by a group of volunteers who made it available for you in their free time.
To make the LVGL project sustainable, please consider Contributing to the project. You can choose from many different ways of contributing See Contributing such as simply writing a tweet about you using LVGL, fixing bugs, translating the documentation, or even becoming a maintainer.
Repository layout
All repositories of the LVGL project are hosted on GitHub
You will find these repositories there:
lv_drivers: Display and input device drivers
blog: Source of the blog's site
sim: Source of the online simulator's site
lv_port_*: LVGL ports to development boards or environments
lv_binding_*: Bindings to other languages
Release policy
The core repositories follow the rules of Semantic versioning:
Major version: incompatible API changes. E.g. v5.0.0, v6.0.0
Minor version: new but backward-compatible functionalities. E.g. v6.1.0, v6.2.0
Patch version: backward-compatible bug fixes. E.g. v6.1.1, v6.1.2
Tags like vX.Y.Z are created for every release.
Release cycle
Bug fixes: Released on demand even weekly
Minor releases: Every 3-4 months
Major releases: Approximately yearly
Branches
The core repositories have at least the following branches:
master: latest version, patches are merged directly here.
release/vX.Y: stable versions of the minor releases
fix/some-description: temporary branches for bug fixes
feat/some-description: temporary branches for features
Changelog
The changes are recorded in Changelog.
Version support
Before v8 the last minor release of each major series was supported for 1 year. Starting from v8, every minor release is supported for 1 year.
Version |
Release date |
Support end |
Active |
---|---|---|---|
v5.3 |
1 Feb, 2019 |
1 Feb, 2020 |
No |
v6.1 |
26 Nov, 2019 |
26 Nov, 2020 |
No |
v7.11 |
16 Mar, 2021 |
16 Mar, 2022 |
No |
v8.0 |
1 Jun, 2021 |
1 Jun, 2022 |
No |
v8.1 |
10 Nov, 2021 |
10 Nov, 2022 |
No |
v8.2 |
31 Jan, 2022 |
31 Jan, 2023 |
No |
v8.3 |
6 July, 2022 |
1 Jan, 2025 |
Yes |
v9.0 |
In progress |
FAQ
Where can I ask questions?
You can ask questions in the forum: https://forum.lvgl.io/.
We use GitHub issues for development related discussion. You should use them only if your question or issue is tightly related to the development of the library.
Before posting a question, please ready this FAQ section as you might find answer to your issue here too.
Is my MCU/hardware supported?
Every MCU which is capable of driving a display via parallel port, SPI, RGB interface or anything else and fulfills the Requirements is supported by LVGL.
This includes:
"Common" MCUs like STM32F, STM32H, NXP Kinetis, LPC, iMX, dsPIC33, PIC32, SWM341 etc.
Bluetooth, GSM, Wi-Fi modules like Nordic NRF, Espressif ESP32 and Raspberry Pi Pico W
Linux with frame buffer device such as /dev/fb0. This includes Single-board computers like the Raspberry Pi
Anything else with a strong enough MCU and a peripheral to drive a display
Is my display supported?
LVGL needs just one simple driver function to copy an array of pixels into a given area of the display. If you can do this with your display then you can use it with LVGL.
Some examples of the supported display types:
TFTs with 16 or 24 bit color depth
Monitors with an HDMI port
Small monochrome displays
Gray-scale displays
even LED matrices
or any other display where you can control the color/state of the pixels
See the Display interface section to learn more.
LVGL doesn't start, randomly crashes or nothing is drawn on the display. What can be the problem?
Try increasing
LV_MEM_SIZE
.Be sure
lv_disp_t
,lv_indev_t
andlv_fs_drv_t
are global or static.Be sure your display works without LVGL. E.g. paint it to red on start up.
Enable Logging
Enable asserts in lv_conf.h (LV_USE_ASSERT_...)
- If you use an RTOS
increase the stack size of the task which calls
lv_timer_handler()
Be sure you used a mutex as described here: Operating system and interrupts
My display driver is not called. What have I missed?
Be sure you are calling lv_tick_inc(x) in an interrupt and lv_timer_handler()
in your main while(1)
.
Learn more in the Tick interface and Timer Handler sections.
Why is the display driver called only once? Only the upper part of the display is refreshed.
Be sure you are calling lv_disp_flush_ready(drv) at the end of your "display flush callback".
Why do I see only garbage on the screen?
Probably there a bug in your display driver. Try the following code without using LVGL. You should see a square with red-blue gradient.
#define BUF_W 20
#define BUF_H 10
lv_color_t buf[BUF_W * BUF_H];
lv_color_t * buf_p = buf;
uint16_t x, y;
for(y = 0; y < BUF_H; y++) {
lv_color_t c = lv_color_mix(LV_COLOR_BLUE, LV_COLOR_RED, (y * 255) / BUF_H);
for(x = 0; x < BUF_W; x++){
(*buf_p) = c;
buf_p++;
}
}
lv_area_t a;
a.x1 = 10;
a.y1 = 40;
a.x2 = a.x1 + BUF_W - 1;
a.y2 = a.y1 + BUF_H - 1;
my_flush_cb(NULL, &a, buf);
Why do I see nonsense colors on the screen?
Probably LVGL's color format is not compatible with your display's color format. Check LV_COLOR_DEPTH
in lv_conf.h.
How to speed up my UI?
Turn on compiler optimization and enable cache if your MCU has it
Increase the size of the display buffer
Use two display buffers and flush the buffer with DMA (or similar peripheral) in the background
Increase the clock speed of the SPI or parallel port if you use them to drive the display
If your display has an SPI port consider changing to a model with a parallel interface because it has much higher throughput
Keep the display buffer in internal RAM (not in external SRAM) because LVGL uses it a lot and it should have a fast access time
How to reduce flash/ROM usage?
You can disable all the unused features (such as animations, file system, GPU etc.) and object types in lv_conf.h.
If you are using GCC/CLANG you can add -fdata-sections -ffunction-sections compiler flags and --gc-sections linker flag to remove unused functions and variables from the final binary. If possible, add the -flto compiler flag to enable link-time-optimisation together with -Os for GCC or -Oz for CLANG.
How to reduce the RAM usage
Lower the size of the Display buffer
Reduce
LV_MEM_SIZE
in lv_conf.h. This memory is used when you create objects like buttons, labels, etc.To work with lower
LV_MEM_SIZE
you can create objects only when required and delete them when they are not needed anymore
How to work with an operating system?
To work with an operating system where tasks can interrupt each other (preemptively) you should protect LVGL related function calls with a mutex. See the Operating system and interrupts section to learn more.