This Python API can be used to control Numato USB GPIO expanders.
- Configure ports as input or output port
- Write to output ports
- Read from input ports
- Read integer values from ADC input ports (1 - 7)
- Register a callback for input port events (edge detection)
See the changelog for details on the releases.
Install latest development version:
pip install --user git+https://github.com/clssn/numato-gpio.git
Install latest release:
pip install --user numato-gpio
Test whether your devices can be found running the command-line interface like
python3 -m numato_gpio
. Remember to have your user in the dialout
group,
since the devices are registered as /dev/ttyACMx (i.e. modem devices).
Expected output:
❯ python3 -m numato_gpio
dev: /dev/ttyACM0 | id: 0 | ver: 9 | ports: 32 | eol: '\r\n' | iodir: 0xffffffff | iomask: 0x00000000 | state: 0x00000000
dev: /dev/ttyACM1 | id: 1 | ver: 9 | ports: 32 | eol: '\r\n' | iodir: 0xffffffff | iomask: 0x00000000 | state: 0x00000000
The API can be used like:
import numato_gpio as gpio
# You can instantiate the device directly from its OS identifier, for instance
# "/dev/ttyACM0" on Linux or "COM5" on Windows.
dev = gpio.NumatoUsbGpio("/dev/ttyACM0")
# Alternatively, you can use the discovery function, but it is limited to
# Linux' /dev/ttyACM* devices. This is because discovery will open and try to
# interact with any device. This can lead to errors in unrelated devices.
# Under windows the naming scheme is entirely flat (COMx) increasing the error
# potential, so no discovery here.
# my_device_id = 0
# gpio.discover()
# dev = gpio.devices[my_device_id]
# Configure port 4 as output and set it to high
dev.setup(4, gpio.OUT)
dev.write(4, 1)
# Configure port 27 as input and print its logic level
dev.setup(27, gpio.IN)
print(dev.read(27))
# Configure port 2 as input and print its ADC value
dev.setup(2, gpio.IN)
print(dev.adc_read(2))
# Configure port 14 as input and setup notification on logic level changes
dev.setup(14, gpio.IN)
def callback(port, level):
print("{edge:7s} edge detected on port {port} "
"-> new logic level is {level}".format(
edge="Rising" if level else "Falling",
port=port,
level="high" if level else "low")
)
dev.add_event_detect(14, callback, gpio.BOTH)
dev.notify = True
See changelog.
In case your device can't be discovered or you even get an error message or stacktrace, please follow the troubleshooting guide.
Though the code works well in a Home Assistant integration since 2018, there are quite some aspects to improve. The following issues are only the ones the author is aware of:
- Some docstrings are hard to understand
- Device discovery/registry as module-global dict is sub-optimal
- Only
/dev/ACMx
devices are scanned which were mapped on the author's Linux - No async API available
Unit tests in the tests
directory are using a device mockup which mimicks
a Numato device's responses as far as known at the state of development.
System tests in the sys_tests
folder are meant to be run using a real device
and will just fail, if no device is connected. They are an important complement
to unit tests, because they are the real thing and might behave differently
than the mockup device for the unit tests.
If you consider to run system tests you should be aware that it may be dangerous running them.
WARNING