High-level interface for the KY040 rotary encoder and switch.
Project description
OrangePI-KY040
High-level Python module for the KY040 rotary encoder and switch on Raspberry Pi and similar boards that use OPi.GPIO
Features
- Increment callback
- Decrement callback
- Change callback (increment or decrement)
- Switch press callback
Options
- Scale mode (internal counter is bound between X and Y, and is given as argument in the callback functions)
- Looped scale mode (from X to Y, then X again)
- Custom scale step
- GPIO polling (easier) or as a device (sturdier)
Installation
pip install pyky040
Basic
# Import the module
from OrangePi_ky040 import pyky040
# Define your callback
def my_callback(scale_position):
print('Hello world! The scale position is {}'.format(scale_position))
# Init the encoder pins
my_encoder = pyky040.Encoder(CLK=17, DT=18, SW=26)
# Or the encoder as a device (must be installed on the system beforehand!)
# my_encoder = pyky040.Encoder(device='/dev/input/event0')
# Setup the options and callbacks (see documentation)
my_encoder.setup(scale_min=0, scale_max=100, step=1, chg_callback=my_callback)
# Launch the listener
my_encoder.watch()
# Mess with the encoder...
# > Hello world! The scale position is 1
# > Hello world! The scale position is 2
# > Hello world! The scale position is 3
# > Hello world! The scale position is 2
# > Hello world! The scale position is 1
In a thread
As the watch()
method runs an infinite polling loop, you might want to run it in a thread if you don't want to block the rest of your script, or if you have multiple encoders to handle.
# Import the module and threading
from OrangePi_ky040 import pyky040
import threading
# Define your callback
def my_callback(scale_position):
print('Hello world! The scale position is {}'.format(scale_position))
# Init the encoder pins
my_encoder = pyky040.Encoder(CLK=17, DT=18, SW=26)
# Or the encoder as a device (must be installed on the system beforehand!)
# my_encoder = pyky040.Encoder(device='/dev/input/event0')
# Setup the options and callbacks (see documentation)
my_encoder.setup(scale_min=0, scale_max=100, step=1, chg_callback=my_callback)
# Create the thread
my_thread = threading.Thread(target=my_encoder.watch)
# Launch the thread
my_thread.start()
# Do other stuff
print('Other stuff...')
while True:
print('Looped stuff...')
sleep(1000)
# ... this is also where you can setup other encoders!
# Mess with the encoder...
# > Other stuff...
# > Looped stuff...
# > Hello world! The scale position is 1
# > Hello world! The scale position is 2
# > Hello world! The scale position is 3
# > Looped stuff...
# > Hello world! The scale position is 2
Note: The interruption of the module when running in threads is not yet handled, you might have to kill it by yourself 🔪
Documentation
Encoder(CLK=x, DT=y, SW=z)
Initializes the module with the specified encoder pins.
- Options
polling_interval
Specify the pins polling interval in ms (default 1ms)
Encoder(device='...')
⚠️ Linux only
Initializes the module with the specified encoder device. Read more
Requirement: pip install pyky040[device]
Encoder.setup()
Setup the behavior of the module. All of the following keyword arguments are optional.
-
Callbacks
inc_callback (function)
When the encoder is incremented (clockwise). Scale position as first argument.dec_callback (function)
When the encoder is decremented. Scale position as first argument.chg_callback (function)
When the encoder is either incremented or decremented. Scale position as first argument.sw_callback (function)
When the encoder switch is pressed
-
Scale mode
scale_min (int/float)
Scale minimumscale_max (int/float)
Scale maximumloop (boolean)
Loop mode (defaults toFalse
)step (int/float)
Scale step when incrementing or decrementing
-
Options
sw_debounce_time (int/float)
Switch debounce time in ms (allow only one interrupt per X ms, dismiss others)
Note: better keep using ints and not floats for more precise results.
Encoder.watch()
Starts the listener. The pins polling interval is 1ms
by default and can be customized (see Encoder()
).
Should I use the GPIO polling or the device overlay?
The Raspberry Pi firmware allows the encoder to be set up as a device with the rotary-encoder
overlay. It trades the promise to catch every encoder tick for the ease of use (because it needs to be installed on the host beforeheand, with root privileges).
Approach | Plug & Play | Needs prior installation | Catches every tick |
---|---|---|---|
GPIO polling | Yes | No | No |
Device overlay | No | Yes | Yes |
How to install the encoder as a device?
Only tested on Raspbian Buster at this time.
# Copy this line in `/boot/config.txt` and reboot
# (replacing {CLK_PIN} and {DT_PIN} by their real values)
dtoverlay=rotary-encoder,pin_a={CLK_PIN},pin_b={DT_PIN},relative_axis=1,steps-per-period=2
TROUBLESHOOTING
Erratic behavior
It is known that some pins combinations introduce erratic behavior (interferences?). The library has been tested successfully using the following combinations (BCM numbering).
CLK | DT | SW | Pi | Raspbian |
---|---|---|---|---|
26 | 4 | 21 | 3B (1.2) | Buster |
Feel free to edit the README to provide your working combinations!
If you are still experiencing issues, you might want to try to set up the encoder as a device instead.
CHANGELOG
0.1.4
- Added
device
mode - Added tests
0.1.3
- Fixed
latest_switch_call
not defined before the loop
0.1.2
- Changed
__init_
args to kwargs for better readability and ease of useEncoder(CLK=x, DT=y, SW=z)
- Added customizable debounce time (in ms) for the switch
setup(..., sw_debounce_time=300)
- Added customizable polling interval (in ms)
Encoder(..., polling_interval=1)
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