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Python-level driver collection for embedded periphery, such as sensors and actuators.

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About philander

Philander is a collection of drivers for the components of an embedded system or wireless sensor node. This includes but is not limited to:

  • sensors
  • battery chargers
  • battery fuel gauges
  • actors, such as motors
  • GUI elements, like LEDs and buttons
  • service modules, e.g. integer mathematics

The code is completely written in Python and relies on low-level communication modules such as smbus, smbus2 or periphery and pymitter. It aims at making application development easier by providing a unified interface for electronic parts that are expected to do similar things.

The intended hardware platform is all kind of single-board computers such as Raspberry Pi, Arduino and Google Coral. This software is specifically designed for making the features of their shields, daughter- and add-on boards available to the application.

Installation

Released builds of this collection can be installed from the python package index at https://pypi.org by just using pip as in: pip3 install philander

Application development

The main guide line is: Keep your application code as generic as possible. References to philander objects should only be as specific as necessary!

The API reference may be generated from the source code, through, e.g. sphinx. It can be found at https://philander.readthedocs.io

The most relevant philander objects are derived from module. The life cycle of such an object is as follows.

  • Instantiation: usually a default constructor without any parameter.
  • Params_init(): A class method to pre-populate a configuration dictionary with default entries.
  • open(): Configures an object and prepares it for use.
  • ...operation...: depends on the actual type and may be specified by other interfaces, such as sensor, charger or gasgauge.
  • close(): Shut down the instance and possibly release any hardware resources.

Note that the configuration is done through Python dictionaries, passed in as the first parameter to the open() method. The dictionary can be pre-initialized by Params_init() or set by the application. Alternatively, parts of it could be read from config files, for example.

Example code

from philander.accelerometer import Accelerometer
from philander.bma456 import BMA456 as sensorDriver
from philander.systypes import ErrorCode

configSensor = {
    "SerialBus.designator": "/dev/i2c-1",
    "SerialBusDevice.address": 0x18,
    "Sensor.dataRange"    : 4000,
    "Sensor.dataRate"     : 100,
}
sensor = sensorDriver()
sensorDriver.Params_init( configSensor )

err = sensor.open( configSensor )
if (err == ErrorCode.errOk):
    print("Success!")
else:
    print("Error: ", err)

mdata, err = sensor.getNextData()
if (err == ErrorCode.errOk):
    print(now, mdata)

sensor.close()

Library development

Python developers are welcome to add own classes and driver implementations to this collection. Stick to the rules and conventions of object-oriented Python programming!

The mandatory coding convention for Python code is the Python Enhancement Proposal #8 (PEP 8). It also gives advice on the naming convention.

Documentation must follow PEP 257. The Docstring format should be reStructuredText as defined by the reStructuredText Markup Specification. To generate the HTML documentation output from the source files, tools like Sphinx may be used. Preferrably, the same tool should also be able to generate PDF output.

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Python-level driver collection for embedded periphery, such as sensors and actuators.

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