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Micropython + lvgl

Onion fork of LittleVGL's Micropython lvgl bindings. Also relies on Onion's fork of LittleVGL's lv_binding_micropython repo

Configured for compatibility with the Onion Omega2 Dash single board computer

More Information about Micropython and LVGL

For information abound Micropython lvgl bindings please refer to lv_bindings/README.md

See also Micropython + LittlevGL blog post.

Current Status

  • lvgl's micropython implementation was adjusted to work with the linux framebuffer and xpt7603 touch driver chip on the Omega2 Dash
  • micropython with lvgl can be compiled for the Omega2 platform
  • It runs and lvgl can be used to create UI components
  • Touch input works and can be used to interact with the UI

For more details see:

  1. This thread on the LVGL forum: https://forum.lvgl.io/t/support-for-python3/1098
  2. This thread on the Onion Community: https://community.onion.io/topic/4164/micropython-build-with-lvgl-for-omega2

Installing on the Omega2 Platform

Micropython with lvgl is available as a software package. Make sure your Omega2 device is running the latest firmware and run:

opkg update
opkg install lv_micropython

The binary will be installed to /usr/bin/micropython

Using Micropython

To run the Micropython REPL, just run

micropython

When you want to exit, hit ctrl + d

To run a script:

micropython <PATH TO SCRIPT>

Say I had a script at /root/helloworld.py, I would use the following command to run the script:

micropython /root/helloworld.py

Example Code

See the examples in examples/onion for some simple examples to use with the Omega2 Dash

And refer to the LVGL Micropython documentation for programming details.

Build Instructions for OpenWRT

lv_micropython is defined as a package in Onion's package feed. So it's easy to build your version of lv_micropython for the OpenWRT platform.

Check out OnionIoT/source repo and build it. See instructions here: https://github.com/OnionIoT/source#using-this-build-system

This step will already be done if you've just checked out OnionIoT/source and followed the setup instructions. Make sure the Onion package feed is up to date and that the lv_micropython package is installed to the build system:

./scripts/feeds update onion
./scripts/feeds install lv_micropython

This step will already be done if you've just checked out OnionIoT/source and followed the setup instructions. Next, make sure the lv_micropython package is enabled for compilation. We'll use

make menuconfig to select the lv_micropython package.

make menuconfig

Then in the menuconfig:

  • Languages
  • Python
  • Go to lv_micropython
  • Press space to enable compilation as a module
  • Exit and save changes

Now build the package based on the latest code in this GitHub repo:

make package/lv_micropython/compile

Compiling Local Code

Making changes to the code and compiling your own micropython build:

Assuming your lv_micropython repo is checked out to ~/lv_micropython, do the following:

make package/lv_micropython/download
make package/lv_micropython/clean
make package/lv_micropython/prepare USE_SOURCE_DIR=~/lv_micropython V=99
make package/lv_micropython/compile V=99

If the compile was successful you will have:

  • An ipk package file at bin/packages/mipsel_24kc/onion/lv_micropython_1.9.2-1_mipsel_24kc.ipk
  • A micropython binary at ~/lv_micropython/ports/unix/micropython

For quick testing, you can transfer the micropython binary to your Omega2 device, add executable permissions (chmod +x micropython), and use it to your liking.


Everything from here on out is from the original LittleVGL repo. It does not apply to OpenWRT or the Omega2 platform.

Build Instructions (Original LittleVGL Instructions)

  1. sudo apt-get install build-essential libreadline-dev libffi-dev git pkg-config libsdl2-2.0-0 libsdl2-dev python
  2. git clone --recurse-submodules https://github.com/littlevgl/lv_micropython.git
  3. cd lv_micropython
  4. make -C ports/unix/
  5. ./ports/unix/micropython

For ESP32 port

Please set ESPIDF parameter for the esp-idf install dir. It needs to match Micropython expected esp-idf, otherwise a warning will be displayed (and build will probably fail) For more details refer to Setting up the toolchain and ESP-IDF

When using IL9341 driver, the color depth and swap mode need to be set to match ILI9341. This can be done from the command line. Here is the command to build ESP32 + LittlevGL which is compatible with ILI9341 driver:

make -C mpy-cross
make -C ports/esp32 LV_CFLAGS="-DLV_COLOR_DEPTH=16 -DLV_COLOR_16_SWAP=1" BOARD=GENERIC_SPIRAM PYTHON=python2 deploy

Explanation about the paramters:

  • LV_CFLAGS are used to override color depth and swap mode, for ILI9341 compatibility.
    • LV_COLOR_DEPTH=16 is needed if you plan to use the ILI9341 driver.
    • LV_COLOR_16_SWAP=1 is only needed if you plan to use the Pure Micropython Display Driver. Otherwise, remove it.
  • BOARD - I use WROVER board with SPIRAM. You can choose other boards from ports/esp32/boards/ directory.
  • PYTHON=python2 - depending on your installed pyparsing version, you might or might not need this.
  • deploy - make command will create ESP32 port of Micropython, and will try to deploy it through USB-UART bridge.

For more details please refer to Micropython ESP32 README.

For JavaScript port

You need Emscripten installed and working. There are lots of guides about that on the web, but here's the official one.

Once you have Emscripten working, you also need to install the clang package:

  1. cd <path to emsdk>
  2. ./emsdk install clang-e<sdk version>-64bit # for example: clang-e1.30.0-64bit
  3. ./emsdk activate clang-e<sdk version>-64bit

Now you can build the JavaScript port.

  1. cd <path to lv_micropython>
  2. . ./emsdk_env.sh
  3. git checkout lvgl_javascript
  4. git submodule update --init --recursive (can be very important!)
  5. cd ports/javascript
  6. make
  7. Run an HTTP server that serves files from the current directory.
  8. Browse to /lvgl_editor.html on the HTTP Server.

Super Simple Example

First, LittlevGL needs to be imported and initialized

import lvgl as lv
lv.init()

Then display driver and input driver needs to be registered. Refer to Porting the library for more information. Here is an example of registering SDL drivers on Micropython unix port:

import SDL
SDL.init()

# Register SDL display driver.

disp_buf1 = lv.disp_buf_t()
buf1_1 = bytearray(480*10)
lv.disp_buf_init(disp_buf1,buf1_1, None, len(buf1_1)//4)
disp_drv = lv.disp_drv_t()
lv.disp_drv_init(disp_drv)
disp_drv.buffer = disp_buf1
disp_drv.flush_cb = SDL.monitor_flush
disp_drv.hor_res = 480
disp_drv.ver_res = 320
lv.disp_drv_register(disp_drv)

# Regsiter SDL mouse driver

indev_drv = lv.indev_drv_t()
lv.indev_drv_init(indev_drv)
indev_drv.type = lv.INDEV_TYPE.POINTER;
indev_drv.read_cb = SDL.mouse_read;
lv.indev_drv_register(indev_drv);

Here is an alternative example, for registering ILI9341 drivers on Micropython ESP32 port:

import lvgl as lv

# Import ESP32 and ILI9341 drivers (advnaces tick count and schedules tasks)

import ILI9341 as ili
import lvesp32

# Initialize the driver and register it to LittlevGL

disp = ili.display(miso=5, mosi=18, clk=19, cs=13, dc=12, rst=4, backlight=2)
disp.init()

# Register display driver

disp_buf1 = lv.disp_buf_t()
buf1_1 = bytearray(480*10)
lv.disp_buf_init(disp_buf1,buf1_1, None, len(buf1_1)//4)
disp_drv = lv.disp_drv_t()
lv.disp_drv_init(disp_drv)
disp_drv.buffer = disp_buf1
disp_drv.flush_cb = disp.flush
disp_drv.hor_res = 240
disp_drv.ver_res = 320
lv.disp_drv_register(disp_drv)

Now you can create the GUI itself

# Create a screen with a button and a label

scr = lv.obj()
btn = lv.btn(scr)
btn.align(lv.scr_act(), lv.ALIGN.CENTER, 0, 0)
label = lv.label(btn)
label.set_text("Hello World!")

# Load the screen

lv.scr_load(scr)

More information

More info about LittlevGL:

More info about lvgl Micropython bindings:

Discussions about the Microptyhon binding: lvgl/lvgl#557

More info about the unix port: https://github.com/micropython/micropython/wiki/Getting-Started#debian-ubuntu-mint-and-variants