==========
PyMetaWear

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PyMetaWear is a community developed Python SDK started by Henrik Blidh <https://github.com/hbldh>_ . MbientLab does not provide support for this SDK.

Python package for connecting to and using MbientLab's MetaWear <https://mbientlab.com/>_ boards.

PyMetaWear can, from version 0.11.0, be used from both Windows and Linux. This is thanks to that the metawear package <https://github.com/mbientlab/MetaWear-SDK-Python>_ package is now depending on a new BLE library called PyWarble <https://github.com/mbientlab/PyWarble>_ instead of gattlib. See installation instructions for more details about how to make it build on Windows.

Capabilities and Limitations

PyMetaWear was previously a wrapper around the MetaWear C++ API <https://github.com/mbientlab/Metawear-CppAPI>, providing a more Pythonic interface. In version 0.9.0 it instead becomes a wrapper around MetaWear's official Python SDK <https://github.com/mbientlab/MetaWear-SDK-Python>, doing the very same thing. The official SDK handles the actual board connections and communication while PyMetaWear aims to remove the low level feeling of interacting with the MetaWear board.

Installation

.. code-block:: bash

$ pip install pymetawear

Since version 0.11.0, the installation requirements for pymetawear has changed. See documentation <https://hbldh.github.io/pymetawear/>_ for details on requirements for Linux and Windows respectively.

Documentation

Available in the Github pages <https://hbldh.github.io/pymetawear/>_ of this repository.

Basic Usage

The MetaWear client can be used in two ways: either as Pythonic convenience class for handling a MetaWear board or as a simple communication client governed by the libmetawear C++ library.

Creating a client, and thus also setting up a Bluetooth connection to the MetaWear board, is equal for both the two usage profiles:

.. code-block:: python

from pymetawear.client import MetaWearClient
c = MetaWearClient('DD:3A:7D:4D:56:F0')

Example

Blinking with the LED lights can be done like this with the
convenience methods:

.. code-block:: python

    pattern = c.led.load_preset_pattern('blink', repeat_count=10)
    c.led.write_pattern(pattern, 'g')
    c.led.play()

or like this using the raw ``libmetawear`` shared library:

.. code-block:: python

    from ctypes import byref
    from pymetawear import libmetawear
    from mbientlab.metawear.cbindings import LedColor, LedPreset

    pattern = Led.Pattern(repeat_count=10)
    libmetawear.mbl_mw_led_load_preset_pattern(byref(pattern), LedPreset.BLINK)
    libmetawear.mbl_mw_led_write_pattern(c.board, byref(pattern), LedColor.GREEN)
    libmetawear.mbl_mw_led_play(c.board)

Bluetooth Low Energy Scanning

Actual addresses to your MetaWear board can be found by scanning with the included discover_devices method:

.. code-block:: python

from pymetawear.discover import discover_devices
out = discover_devices()
print(out)
[(u'DD:3A:7D:4D:56:F0', u'MetaWear'), (u'FF:50:35:82:3B:5A', u'MetaWear')]

See the examples folder for more examples on how to use the libmetawear library with this client.

Modules +++++++

All functionality of the MetaWear C++ API is able to be used using the PyMetaWear client, and some of the modules have had convenience methods added to simplify the use of them. Below is a list of modules which have had their convenience methods written and one of modules that are awaiting such focus.

================= ===================== Completed Modules Unimplemented Modules ================= ===================== Accelerometer GPIO Gyroscope NeoPixel Haptic Color Detector Switch Humidity LED iBeacon Barometer I2C Magnetometer Temperature Settings Ambient Light ================= =====================