This driver simulates USB HID devices. Currently keyboard and mouse are implemented.
This driver depends on:
Please ensure all dependencies are available on the CircuitPython filesystem. This is easily achieved by downloading the Adafruit library and driver bundle.
The Keyboard
class sends keypress reports for a USB keyboard device to the host.
The Keycode
class defines USB HID keycodes to send using Keyboard
.
from adafruit_hid.keyboard import Keyboard
from adafruit_hid.keycode import Keycode
# Set up a keyboard device.
kbd = Keyboard()
# Type lowercase 'a'. Presses the 'a' key and releases it.
kbd.send(Keycode.A)
# Type capital 'A'.
kbd.send(Keycode.SHIFT, Keycode.A)
# Type control-x.
kbd.send(Keycode.CONTROL, Keycode.X)
# You can also control press and release actions separately.
kbd.press(Keycode.CONTROL, Keycode.X)
kbd.release_all()
# Press and hold the shifted '1' key to get '!' (exclamation mark).
kbd.press(Keycode.SHIFT, Keycode.ONE)
# Release the ONE key and send another report.
kbd.release(Keycode.ONE)
# Press shifted '2' to get '@'.
kbd.press(Keycode.TWO)
# Release all keys.
kbd.release_all()
The KeyboardLayoutUS
sends ASCII characters using keypresses. It assumes
the host is set to accept keypresses from a US keyboard.
If the host is expecting a non-US keyboard, the character to key mapping provided by
KeyboardLayoutUS
will not always be correct.
Different keypresses will be needed in some cases. For instance, to type an 'A'
on
a French keyboard (AZERTY instead of QWERTY), Keycode.Q
should be pressed.
Currently this package provides only KeyboardLayoutUS
. More KeyboardLayout
classes could be added to handle non-US keyboards and the different input methods provided
by various operating systems.
from adafruit_hid.keyboard import Keyboard
from adafruit_hid.keyboard_layout_us import KeyboardLayoutUS
kbd = Keyboard()
layout = KeyboardLayoutUS(kbd)
# Type 'abc' followed by Enter (a newline).
layout.write('abc\n')
# Get the keycodes needed to type a '$'.
# The method will return (Keycode.SHIFT, Keycode.FOUR).
keycodes = layout.keycodes('$')
The Mouse
class simulates a three-button mouse with a scroll wheel.
from adafruit_hid.mouse import Mouse
m = Mouse()
# Click the left mouse button.
m.click(Mouse.LEFT_BUTTON)
# Move the mouse diagonally to the upper left.
m.move(-100, -100, 0)
# Roll the mouse wheel away from the user one unit.
# Amount scrolled depends on the host.
m.move(0, 0, -1)
# Keyword arguments may also be used. Omitted arguments default to 0.
m.move(x=-100, y=-100)
m.move(wheel=-1)
# Move the mouse while holding down the left button. (click-drag).
m.press(Mouse.LEFT_BUTTON)
m.move(x=50, y=20)
m.release_all() # or m.release(Mouse.LEFT_BUTTON)
The ConsumerControl
class emulates consumer control devices such as
remote controls, or the multimedia keys on certain keyboards.
New in CircuitPython 3.0.
from adafruit_hid.consumer_control import ConsumerControl
from adafruit_hid.consumer_control_code import ConsumerControlCode
cc = ConsumerControl()
# Raise volume.
cc.send(ConsumerControlCode.VOLUME_INCREMENT)
# Pause or resume playback.
cc.send(ConsumerControlCode.PLAY_PAUSE)
The Gamepad
class emulates a two-joystick gamepad with 16 buttons.
New in CircuitPython 3.0.
from adafruit_hid.gamepad import Gamepad
gp = Gamepad()
# Click gamepad buttons.
gp.click_buttons(1, 7)
# Move joysticks.
gp.move_joysticks(x=2, y=0, z=-20)
Contributions are welcome! Please read our Code of Conduct before contributing to help this project stay welcoming.
To build this library locally you'll need to install the circuitpython-build-tools package.
python3 -m venv .env
source .env/bin/activate
pip install circuitpython-build-tools
Once installed, make sure you are in the virtual environment:
source .env/bin/activate
Then run the build:
circuitpython-build-bundles --filename_prefix adafruit-circuitpython-hid --library_location .
Sphinx is used to build the documentation based on rST files and comments in the code. First, install dependencies (feel free to reuse the virtual environment from above):
python3 -m venv .env
source .env/bin/activate
pip install Sphinx sphinx-rtd-theme
Now, once you have the virtual environment activated:
cd docs
sphinx-build -E -W -b html . _build/html
This will output the documentation to docs/_build/html
. Open the index.html in your browser to
view them. It will also (due to -W) error out on any warning like Travis will. This is a good way to
locally verify it will pass.