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Tony DiCola 2016-02-19 09:41:53 +00:00
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Adafruit_PureIO/__init__.py Normal file
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Adafruit_PureIO/smbus.py Normal file
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# Copyright (c) 2016 Adafruit Industries
# Author: Tony DiCola
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
from ctypes import *
from fcntl import ioctl
import struct
# I2C C API constants (from linux kernel headers)
I2C_M_TEN = 0x0010 # this is a ten bit chip address
I2C_M_RD = 0x0001 # read data, from slave to master
I2C_M_STOP = 0x8000 # if I2C_FUNC_PROTOCOL_MANGLING
I2C_M_NOSTART = 0x4000 # if I2C_FUNC_NOSTART
I2C_M_REV_DIR_ADDR = 0x2000 # if I2C_FUNC_PROTOCOL_MANGLING
I2C_M_IGNORE_NAK = 0x1000 # if I2C_FUNC_PROTOCOL_MANGLING
I2C_M_NO_RD_ACK = 0x0800 # if I2C_FUNC_PROTOCOL_MANGLING
I2C_M_RECV_LEN = 0x0400 # length will be first received byte
I2C_SLAVE = 0x0703 # Use this slave address
I2C_SLAVE_FORCE = 0x0706 # Use this slave address, even if
# is already in use by a driver!
I2C_TENBIT = 0x0704 # 0 for 7 bit addrs, != 0 for 10 bit
I2C_FUNCS = 0x0705 # Get the adapter functionality mask
I2C_RDWR = 0x0707 # Combined R/W transfer (one STOP only)
I2C_PEC = 0x0708 # != 0 to use PEC with SMBus
I2C_SMBUS = 0x0720 # SMBus transfer
# ctypes versions of I2C structs defined by kernel.
class i2c_msg(Structure):
_fields_ = [
('addr', c_uint16),
('flags', c_uint16),
('len', c_uint16),
('buf', POINTER(c_uint8))
]
class i2c_rdwr_ioctl_data(Structure):
_fields_ = [
('msgs', POINTER(i2c_msg)),
('nmsgs', c_uint32)
]
def make_i2c_rdwr_data(messages):
"""Utility function to create and return an i2c_rdwr_ioctl_data structure
populated with a list of specified I2C messages. The messages parameter
should be a list of tuples which represent the individual I2C messages to
send in this transaction. Tuples should contain 4 elements: address value,
flags value, buffer length, ctypes c_uint8 pointer to buffer.
"""
# Create message array and populate with provided data.
msg_data_type = i2c_msg*len(messages)
msg_data = msg_data_type()
for i, m in enumerate(messages):
msg_data[i].addr = m[0] & 0x7F
msg_data[i].flags = m[1]
msg_data[i].len = m[2]
msg_data[i].buf = m[3]
# Now build the data structure.
data = i2c_rdwr_ioctl_data()
data.msgs = msg_data
data.nmsgs = len(messages)
return data
# Create an interface that mimics the Python SMBus API.
class SMBus(object):
"""I2C interface that mimics the Python SMBus API but is implemented with
pure Python calls to ioctl and direct /dev/i2c device access.
"""
def __init__(self, bus=None):
"""Create a new smbus instance. Bus is an optional parameter that
specifies the I2C bus number to use, for example 1 would use device
/dev/i2c-1. If bus is not specified then the open function should be
called to open the bus.
"""
self._device = None
if bus is not None:
self.open(bus)
def __del__(self):
"""Clean up any resources used by the SMBus instance."""
self.close()
def __enter__(self):
"""Context manager enter function."""
# Just return this object so it can be used in a with statement, like
# with SMBus(1) as bus:
# # do stuff!
return self
def __exit__(self, exc_type, exc_val, exc_tb):
"""Context manager exit function, ensures resources are cleaned up."""
self.close()
return False # Don't suppress exceptions.
def open(self, bus):
"""Open the smbus interface on the specified bus."""
# Close the device if it's already open.
if self._device is not None:
self.close()
# Try to open the file for the specified bus. Must turn off buffering
# or else Python 3 fails (see: https://bugs.python.org/issue20074)
self._device = open('/dev/i2c-{0}'.format(bus), 'r+b', buffering=0)
# TODO: Catch IOError and throw a better error message that describes
# what's wrong (i.e. I2C may not be enabled or the bus doesn't exist).
def close(self):
"""Close the smbus connection. You cannot make any other function
calls on the bus unless open is called!"""
if self._device is not None:
self._device.close()
self._device = None
def _select_device(self, addr):
"""Set the address of the device to communicate with on the I2C bus."""
ioctl(self._device.fileno(), I2C_SLAVE, addr & 0x7F)
def read_byte(self, addr):
"""Read a single byte from the specified device."""
assert self._device is not None, 'Bus must be opened before operations are made against it!'
self._select_device(addr)
return ord(self._device.read(1))
def read_byte_data(self, addr, cmd):
"""Read a single byte from the specified cmd register of the device."""
assert self._device is not None, 'Bus must be opened before operations are made against it!'
# Build ctypes values to marshall between ioctl and Python.
reg = c_uint8(cmd)
result = c_uint8()
# Build ioctl request.
request = make_i2c_rdwr_data([
(addr, 0, 1, pointer(reg)), # Write cmd register.
(addr, I2C_M_RD, 1, pointer(result)) # Read 1 byte as result.
])
# Make ioctl call and return result data.
ioctl(self._device.fileno(), I2C_RDWR, request)
return result.value
def read_word_data(self, addr, cmd):
"""Read a word (2 bytes) from the specified cmd register of the device.
Note that this will interpret data using the endianness of the processor
running Python (typically little endian)!
"""
assert self._device is not None, 'Bus must be opened before operations are made against it!'
# Build ctypes values to marshall between ioctl and Python.
reg = c_uint8(cmd)
result = c_uint16()
# Build ioctl request.
request = make_i2c_rdwr_data([
(addr, 0, 1, pointer(reg)), # Write cmd register.
(addr, I2C_M_RD, 2, cast(pointer(result), POINTER(c_uint8))) # Read word (2 bytes).
])
# Make ioctl call and return result data.
ioctl(self._device.fileno(), I2C_RDWR, request)
return result.value
def read_block_data(self, addr, cmd):
"""Perform a block read from the specified cmd register of the device.
The amount of data read is determined by the first byte send back by
the device. Data is returned as a bytearray.
"""
# TODO: Unfortunately this will require calling the low level I2C
# access ioctl to trigger a proper read_block_data. The amount of data
# returned isn't known until the device starts responding so an I2C_RDWR
# ioctl won't work.
raise NotImplementedError()
def read_i2c_block_data(self, addr, cmd, len=32):
"""Perform a read from the specified cmd register of device. Len number
of bytes (default of 32) will be read and returned as a bytearray.
"""
assert self._device is not None, 'Bus must be opened before operations are made against it!'
# Build ctypes values to marshall between ioctl and Python.
reg = c_uint8(cmd)
result = create_string_buffer(len)
# Build ioctl request.
request = make_i2c_rdwr_data([
(addr, 0, 1, pointer(reg)), # Write cmd register.
(addr, I2C_M_RD, len, cast(pointer(result), POINTER(c_uint8))) # Read data.
])
# Make ioctl call and return result data.
ioctl(self._device.fileno(), I2C_RDWR, request)
return result.value
def write_quick(self, addr):
"""Write a single byte to the specified device."""
# What a strange function, from the python-smbus source this appears to
# just write a single byte that initiates a write to the specified device
# address (but writes no data!). The functionality is duplicated below
# but the actual use case for this is unknown.
assert self._device is not None, 'Bus must be opened before operations are made against it!'
# Build ioctl request.
request = make_i2c_rdwr_data([
(addr, 0, 0, None), # Write with no data.
])
# Make ioctl call and return result data.
ioctl(self._device.fileno(), I2C_RDWR, request)
def write_byte(self, addr, val):
"""Write a single byte to the specified device."""
assert self._device is not None, 'Bus must be opened before operations are made against it!'
self._select_device(addr)
data = bytearray(1)
data[0] = val & 0xFF
self._device.write(data)
def write_byte_data(self, addr, cmd, val):
"""Write a byte of data to the specified cmd register of the device.
"""
assert self._device is not None, 'Bus must be opened before operations are made against it!'
# Construct a string of data to send with the command register and byte value.
data = bytearray(2)
data[0] = cmd & 0xFF
data[1] = val & 0xFF
# Send the data to the device.
self._select_device(addr)
self._device.write(data)
def write_word_data(self, addr, cmd, val):
"""Write a word (2 bytes) of data to the specified cmd register of the
device. Note that this will write the data in the endianness of the
processor running Python (typically little endian)!
"""
assert self._device is not None, 'Bus must be opened before operations are made against it!'
# Construct a string of data to send with the command register and word value.
data = struct.pack('=BH', cmd & 0xFF, val & 0xFFFF)
# Send the data to the device.
self._select_device(addr)
self._device.write(data)
def write_block_data(self, addr, cmd, vals):
"""Write a block of data to the specified cmd register of the device.
The amount of data to write should be the first byte inside the vals
string/bytearray and that count of bytes of data to write should follow
it.
"""
# Just use the I2C block data write to write the provided values and
# their length as the first byte.
data = bytearray(len(vals)+1)
data[0] = len(vals) & 0xFF
data[1:] = vals[0:]
self.write_i2c_block_data(addr, cmd, data)
def write_i2c_block_data(self, addr, cmd, vals):
"""Write a buffer of data to the specified cmd register of the device.
"""
assert self._device is not None, 'Bus must be opened before operations are made against it!'
assert vals is not None and len(vals) > 0, 'Vals must be a buffer with data!'
# Construct a string of data to send, including room for the command register.
data = bytearray(len(vals)+1)
data[0] = cmd & 0xFF # Command register at the start.
data[1:] = vals[0:] # Copy in the block data (ugly but necessary to ensure
# the entire write happens in one transaction).
# Send the data to the device.
self._select_device(addr)
self._device.write(data)
def process_call(self, addr, cmd, val):
"""Perform a smbus process call by writing a word (2 byte) value to
the specified register of the device, and then reading a word of response
data (which is returned).
"""
assert self._device is not None, 'Bus must be opened before operations are made against it!'
# Build ctypes values to marshall between ioctl and Python.
data = create_string_buffer(struct.pack('=BH', cmd, val))
result = c_uint16()
# Build ioctl request.
request = make_i2c_rdwr_data([
(addr, 0, 3, cast(pointer(data), POINTER(c_uint8))), # Write data.
(addr, I2C_M_RD, 2, cast(pointer(result), POINTER(c_uint8))) # Read word (2 bytes).
])
# Make ioctl call and return result data.
ioctl(self._device.fileno(), I2C_RDWR, request)
# Note the python-smbus code appears to have a rather serious bug and
# does not return the result value! This is fixed below by returning it.
return result.value

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The MIT License (MIT)
Copyright (c) 2016 Adafruit Industries
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

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README.md
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# Adafruit_Python_PureIO
Pure python (i.e. no native extensions) access to Linux IO including I2C and SPI. Drop in replacement for smbus and spidev modules.
# Adafruit Python PureIO
Pure python (i.e. no native extensions) access to Linux IO including I2C and SPI.
Drop in replacement for smbus and spidev modules.
NOTE: This is a work in progress that's not yet ready for public consumption.
API signatures could change and all APIs are not yet implemented. Wait for a
1.x.x series release before depending on this code.

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ez_setup.py Normal file
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#!/usr/bin/env python
"""Bootstrap setuptools installation
To use setuptools in your package's setup.py, include this
file in the same directory and add this to the top of your setup.py::
from ez_setup import use_setuptools
use_setuptools()
To require a specific version of setuptools, set a download
mirror, or use an alternate download directory, simply supply
the appropriate options to ``use_setuptools()``.
This file can also be run as a script to install or upgrade setuptools.
"""
import os
import shutil
import sys
import tempfile
import zipfile
import optparse
import subprocess
import platform
import textwrap
import contextlib
from distutils import log
try:
from site import USER_SITE
except ImportError:
USER_SITE = None
DEFAULT_VERSION = "3.5.1"
DEFAULT_URL = "https://pypi.python.org/packages/source/s/setuptools/"
def _python_cmd(*args):
"""
Return True if the command succeeded.
"""
args = (sys.executable,) + args
return subprocess.call(args) == 0
def _install(archive_filename, install_args=()):
with archive_context(archive_filename):
# installing
log.warn('Installing Setuptools')
if not _python_cmd('setup.py', 'install', *install_args):
log.warn('Something went wrong during the installation.')
log.warn('See the error message above.')
# exitcode will be 2
return 2
def _build_egg(egg, archive_filename, to_dir):
with archive_context(archive_filename):
# building an egg
log.warn('Building a Setuptools egg in %s', to_dir)
_python_cmd('setup.py', '-q', 'bdist_egg', '--dist-dir', to_dir)
# returning the result
log.warn(egg)
if not os.path.exists(egg):
raise IOError('Could not build the egg.')
def get_zip_class():
"""
Supplement ZipFile class to support context manager for Python 2.6
"""
class ContextualZipFile(zipfile.ZipFile):
def __enter__(self):
return self
def __exit__(self, type, value, traceback):
self.close
return zipfile.ZipFile if hasattr(zipfile.ZipFile, '__exit__') else \
ContextualZipFile
@contextlib.contextmanager
def archive_context(filename):
# extracting the archive
tmpdir = tempfile.mkdtemp()
log.warn('Extracting in %s', tmpdir)
old_wd = os.getcwd()
try:
os.chdir(tmpdir)
with get_zip_class()(filename) as archive:
archive.extractall()
# going in the directory
subdir = os.path.join(tmpdir, os.listdir(tmpdir)[0])
os.chdir(subdir)
log.warn('Now working in %s', subdir)
yield
finally:
os.chdir(old_wd)
shutil.rmtree(tmpdir)
def _do_download(version, download_base, to_dir, download_delay):
egg = os.path.join(to_dir, 'setuptools-%s-py%d.%d.egg'
% (version, sys.version_info[0], sys.version_info[1]))
if not os.path.exists(egg):
archive = download_setuptools(version, download_base,
to_dir, download_delay)
_build_egg(egg, archive, to_dir)
sys.path.insert(0, egg)
# Remove previously-imported pkg_resources if present (see
# https://bitbucket.org/pypa/setuptools/pull-request/7/ for details).
if 'pkg_resources' in sys.modules:
del sys.modules['pkg_resources']
import setuptools
setuptools.bootstrap_install_from = egg
def use_setuptools(version=DEFAULT_VERSION, download_base=DEFAULT_URL,
to_dir=os.curdir, download_delay=15):
to_dir = os.path.abspath(to_dir)
rep_modules = 'pkg_resources', 'setuptools'
imported = set(sys.modules).intersection(rep_modules)
try:
import pkg_resources
except ImportError:
return _do_download(version, download_base, to_dir, download_delay)
try:
pkg_resources.require("setuptools>=" + version)
return
except pkg_resources.DistributionNotFound:
return _do_download(version, download_base, to_dir, download_delay)
except pkg_resources.VersionConflict as VC_err:
if imported:
msg = textwrap.dedent("""
The required version of setuptools (>={version}) is not available,
and can't be installed while this script is running. Please
install a more recent version first, using
'easy_install -U setuptools'.
(Currently using {VC_err.args[0]!r})
""").format(VC_err=VC_err, version=version)
sys.stderr.write(msg)
sys.exit(2)
# otherwise, reload ok
del pkg_resources, sys.modules['pkg_resources']
return _do_download(version, download_base, to_dir, download_delay)
def _clean_check(cmd, target):
"""
Run the command to download target. If the command fails, clean up before
re-raising the error.
"""
try:
subprocess.check_call(cmd)
except subprocess.CalledProcessError:
if os.access(target, os.F_OK):
os.unlink(target)
raise
def download_file_powershell(url, target):
"""
Download the file at url to target using Powershell (which will validate
trust). Raise an exception if the command cannot complete.
"""
target = os.path.abspath(target)
cmd = [
'powershell',
'-Command',
"(new-object System.Net.WebClient).DownloadFile(%(url)r, %(target)r)" % vars(),
]
_clean_check(cmd, target)
def has_powershell():
if platform.system() != 'Windows':
return False
cmd = ['powershell', '-Command', 'echo test']
devnull = open(os.path.devnull, 'wb')
try:
try:
subprocess.check_call(cmd, stdout=devnull, stderr=devnull)
except Exception:
return False
finally:
devnull.close()
return True
download_file_powershell.viable = has_powershell
def download_file_curl(url, target):
cmd = ['curl', url, '--silent', '--output', target]
_clean_check(cmd, target)
def has_curl():
cmd = ['curl', '--version']
devnull = open(os.path.devnull, 'wb')
try:
try:
subprocess.check_call(cmd, stdout=devnull, stderr=devnull)
except Exception:
return False
finally:
devnull.close()
return True
download_file_curl.viable = has_curl
def download_file_wget(url, target):
cmd = ['wget', url, '--quiet', '--output-document', target]
_clean_check(cmd, target)
def has_wget():
cmd = ['wget', '--version']
devnull = open(os.path.devnull, 'wb')
try:
try:
subprocess.check_call(cmd, stdout=devnull, stderr=devnull)
except Exception:
return False
finally:
devnull.close()
return True
download_file_wget.viable = has_wget
def download_file_insecure(url, target):
"""
Use Python to download the file, even though it cannot authenticate the
connection.
"""
try:
from urllib.request import urlopen
except ImportError:
from urllib2 import urlopen
src = dst = None
try:
src = urlopen(url)
# Read/write all in one block, so we don't create a corrupt file
# if the download is interrupted.
data = src.read()
dst = open(target, "wb")
dst.write(data)
finally:
if src:
src.close()
if dst:
dst.close()
download_file_insecure.viable = lambda: True
def get_best_downloader():
downloaders = [
download_file_powershell,
download_file_curl,
download_file_wget,
download_file_insecure,
]
for dl in downloaders:
if dl.viable():
return dl
def download_setuptools(version=DEFAULT_VERSION, download_base=DEFAULT_URL,
to_dir=os.curdir, delay=15, downloader_factory=get_best_downloader):
"""
Download setuptools from a specified location and return its filename
`version` should be a valid setuptools version number that is available
as an egg for download under the `download_base` URL (which should end
with a '/'). `to_dir` is the directory where the egg will be downloaded.
`delay` is the number of seconds to pause before an actual download
attempt.
``downloader_factory`` should be a function taking no arguments and
returning a function for downloading a URL to a target.
"""
# making sure we use the absolute path
to_dir = os.path.abspath(to_dir)
zip_name = "setuptools-%s.zip" % version
url = download_base + zip_name
saveto = os.path.join(to_dir, zip_name)
if not os.path.exists(saveto): # Avoid repeated downloads
log.warn("Downloading %s", url)
downloader = downloader_factory()
downloader(url, saveto)
return os.path.realpath(saveto)
def _build_install_args(options):
"""
Build the arguments to 'python setup.py install' on the setuptools package
"""
return ['--user'] if options.user_install else []
def _parse_args():
"""
Parse the command line for options
"""
parser = optparse.OptionParser()
parser.add_option(
'--user', dest='user_install', action='store_true', default=False,
help='install in user site package (requires Python 2.6 or later)')
parser.add_option(
'--download-base', dest='download_base', metavar="URL",
default=DEFAULT_URL,
help='alternative URL from where to download the setuptools package')
parser.add_option(
'--insecure', dest='downloader_factory', action='store_const',
const=lambda: download_file_insecure, default=get_best_downloader,
help='Use internal, non-validating downloader'
)
parser.add_option(
'--version', help="Specify which version to download",
default=DEFAULT_VERSION,
)
options, args = parser.parse_args()
# positional arguments are ignored
return options
def main():
"""Install or upgrade setuptools and EasyInstall"""
options = _parse_args()
archive = download_setuptools(
version=options.version,
download_base=options.download_base,
downloader_factory=options.downloader_factory,
)
return _install(archive, _build_install_args(options))
if __name__ == '__main__':
sys.exit(main())

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from ez_setup import use_setuptools
use_setuptools()
from setuptools import setup, find_packages
classifiers = ['Development Status :: 4 - Beta',
'Operating System :: POSIX :: Linux',
'License :: OSI Approved :: MIT License',
'Intended Audience :: Developers',
'Programming Language :: Python :: 2.7',
'Programming Language :: Python :: 3',
'Topic :: Software Development',
'Topic :: System :: Hardware']
setup(name = 'Adafruit_PureIO',
version = '0.0.1',
author = 'Tony DiCola',
author_email = 'tdicola@adafruit.com',
description = 'Pure python (i.e. no native extensions) access to Linux IO including I2C and SPI. Drop in replacement for smbus and spidev modules.',
license = 'MIT',
classifiers = classifiers,
packages = find_packages())

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# Basic smbus test. This is pretty ugly and meant to be run against a ADS1x15
# and some output inspected by a Saleae logic analyzer. TODO: Refactor into
# something that can test without hardware?
import binascii
import Adafruit_PureIO.smbus as smbus
DEVICE_ADDR = 0x48
REGISTER = 0x01
# Test open and close.
i2c = smbus.SMBus()
i2c.open(1)
val = i2c.read_byte(DEVICE_ADDR)
print('read_byte from 0x{0:0X}: 0x{1:0X}'.format(REGISTER, val))
i2c.close()
# Test initializer open.
i2c = smbus.SMBus(1)
val = i2c.read_byte(DEVICE_ADDR)
print('read_byte from 0x{0:0X}: 0x{1:0X}'.format(REGISTER, val))
i2c.close()
# Test various data reads.
with smbus.SMBus(1) as i2c:
val = i2c.read_byte(DEVICE_ADDR)
print('read_byte from 0x{0:0X}: 0x{1:0X}'.format(REGISTER, val))
val = i2c.read_byte_data(DEVICE_ADDR, REGISTER)
print('read_byte_data from 0x{0:0X}: 0x{1:0X}'.format(REGISTER, val))
val = i2c.read_word_data(DEVICE_ADDR, REGISTER)
print('read_word_data from 0x{0:0X}: 0x{1:04X}'.format(REGISTER, val))
val = i2c.read_i2c_block_data(DEVICE_ADDR, REGISTER, 2)
print('read_i2c_block_data from 0x{0:0X}: 0x{1}'.format(REGISTER, binascii.hexlify(val)))
# Test various data writes.
with smbus.SMBus(1) as i2c:
i2c.write_byte(DEVICE_ADDR, REGISTER)
i2c.write_byte_data(DEVICE_ADDR, REGISTER, 0x85)
i2c.write_word_data(DEVICE_ADDR, REGISTER, 0x8385)
i2c.write_i2c_block_data(DEVICE_ADDR, REGISTER, [0x85, 0x83])
#i2c.write_block_data(DEVICE_ADDR, REGISTER, [0x85, 0x83])
i2c.write_quick(DEVICE_ADDR)
# Process call test.
with smbus.SMBus(1) as i2c:
val = i2c.process_call(DEVICE_ADDR, REGISTER, 0x8385)
print('process_call from 0x{0:0X}: 0x{1:04X}'.format(REGISTER, val))