-# Much code from https://github.com/vsergeev/python-periphery/blob/master/periphery/pwm.py
-# Copyright (c) 2015-2016 vsergeev / Ivan (Vanya) A. Sergeev
-# License: MIT
+"""
+Much code from https://github.com/vsergeev/python-periphery/blob/master/periphery/pwm.py
+Copyright (c) 2015-2016 vsergeev / Ivan (Vanya) A. Sergeev
+License: MIT
+"""
import os
-import digitalio
+from time import sleep
+from errno import EACCES
try:
from microcontroller.pin import pwmOuts
except ImportError:
- raise RuntimeError("No PWM outputs defined for this board")
+ raise RuntimeError("No PWM outputs defined for this board") from ImportError
+
+# pylint: disable=unnecessary-pass
class PWMError(IOError):
"""Base class for PWM errors."""
+
pass
-class PWMOut(object):
+# pylint: enable=unnecessary-pass
+
+
+class PWMOut:
+ """Pulse Width Modulation Output Class"""
+
+ # Number of retries to check for successful PWM export on open
+ PWM_STAT_RETRIES = 10
+ # Delay between check for scucessful PWM export on open (100ms)
+ PWM_STAT_DELAY = 0.1
+
# Sysfs paths
_sysfs_path = "/sys/class/pwm/"
_channel_path = "pwmchip{}"
"""
self._pwmpin = None
+ self._channel = None
+ self._period = 0
self._open(pin, duty_cycle, frequency, variable_frequency)
def __del__(self):
- self.close()
+ self.deinit()
def __enter__(self):
return self
def __exit__(self, t, value, traceback):
- self.close()
+ self.deinit()
def _open(self, pin, duty=0, freq=500, variable_frequency=False):
self._channel = None
if self._channel is None:
raise RuntimeError("No PWM channel found for this Pin")
- channel_path = os.path.join(self._sysfs_path, self._channel_path.format(self._channel))
+ if variable_frequency:
+ print("Variable Frequency is not supported, continuing without it...")
+
+ channel_path = os.path.join(
+ self._sysfs_path, self._channel_path.format(self._channel)
+ )
if not os.path.isdir(channel_path):
- raise ValueError("PWM channel does not exist, check that the required modules are loaded.")
+ raise ValueError(
+ "PWM channel does not exist, check that the required modules are loaded."
+ )
- pin_path = os.path.join(channel_path, self._pin_path.format(self._pwmpin))
try:
- with open(os.path.join(channel_path, self._unexport_path), "w") as f_unexport:
+ with open(
+ os.path.join(channel_path, self._unexport_path), "w"
+ ) as f_unexport:
f_unexport.write("%d\n" % self._pwmpin)
except IOError as e:
- pass # not unusual, it doesnt already exist
+ pass # not unusual, it doesnt already exist
try:
with open(os.path.join(channel_path, self._export_path), "w") as f_export:
f_export.write("%d\n" % self._pwmpin)
except IOError as e:
- raise PWMError(e.errno, "Exporting PWM pin: " + e.strerror)
+ raise PWMError(e.errno, "Exporting PWM pin: " + e.strerror) from IOError
+
+ # Loop until 'period' is writable, because application of udev rules
+ # after the above pin export is asynchronous.
+ # Without this loop, the following properties may not be writable yet.
+ for i in range(PWMOut.PWM_STAT_RETRIES):
+ try:
+ with open(
+ os.path.join(
+ channel_path, self._pin_path.format(self._pwmpin), "period"
+ ),
+ "w",
+ ):
+ break
+ except IOError as e:
+ if e.errno != EACCES or (
+ e.errno == EACCES and i == PWMOut.PWM_STAT_RETRIES - 1
+ ):
+ raise PWMError(e.errno, "Opening PWM period: " + e.strerror) from e
+ sleep(PWMOut.PWM_STAT_DELAY)
+
+ # self._set_enabled(False) # This line causes a write error when trying to enable
- #self._set_enabled(False) # This line causes a write error when trying to enable
-
# Look up the period, for fast duty cycle updates
self._period = self._get_period()
- self.duty_cycle = 0
+ # self.duty_cycle = 0 # This line causes a write error when trying to enable
# set frequency
self.frequency = freq
self._set_enabled(True)
- def close(self):
- """Close the sysfs PWM."""
+ def deinit(self):
+ """Deinit the sysfs PWM."""
if self._channel is not None:
self.duty_cycle = 0
try:
- channel_path = os.path.join(self._sysfs_path, self._channel_path.format(self._channel))
- with open(os.path.join(channel_path, self._unexport_path), "w") as f_unexport:
+ channel_path = os.path.join(
+ self._sysfs_path, self._channel_path.format(self._channel)
+ )
+ with open(
+ os.path.join(channel_path, self._unexport_path), "w"
+ ) as f_unexport:
f_unexport.write("%d\n" % self._pwmpin)
except IOError as e:
- raise PWMError(e.errno, "Unexporting PWM pin: " + e.strerror)
+ raise PWMError(
+ e.errno, "Unexporting PWM pin: " + e.strerror
+ ) from IOError
self._channel = None
self._pwmpin = None
+ def _is_deinited(self):
+ if self._pwmpin is None:
+ raise ValueError(
+ "Object has been deinitialize and can no longer "
+ "be used. Create a new object."
+ )
+
def _write_pin_attr(self, attr, value):
+ # Make sure the pin is active
+ self._is_deinited()
+
path = os.path.join(
self._sysfs_path,
self._channel_path.format(self._channel),
self._pin_path.format(self._pwmpin),
- attr)
+ attr,
+ )
- with open(path, 'w') as f_attr:
- #print(value, path)
+ with open(path, "w") as f_attr:
+ # print(value, path)
f_attr.write(value + "\n")
-
+
def _read_pin_attr(self, attr):
+ # Make sure the pin is active
+ self._is_deinited()
+
path = os.path.join(
self._sysfs_path,
self._channel_path.format(self._channel),
self._pin_path.format(self._pwmpin),
- attr)
+ attr,
+ )
- with open(path, 'r') as f_attr:
+ with open(path, "r") as f_attr:
return f_attr.read().strip()
# Mutable properties
def _get_period(self):
+ period_ns = self._read_pin_attr(self._pin_period_path)
try:
- period_ns = int(self._read_pin_attr(self._pin_period_path))
+ period_ns = int(period_ns)
except ValueError:
- raise PWMError(None, "Unknown period value: \"%s\"" % period_ns)
+ raise PWMError(
+ None, 'Unknown period value: "%s"' % period_ns
+ ) from ValueError
# Convert period from nanoseconds to seconds
period = period_ns / 1e9
# Update our cached period
self._period = float(period)
+ period = property(_get_period, _set_period)
+
"""Get or set the PWM's output period in seconds.
Raises:
"""
def _get_duty_cycle(self):
+ duty_cycle_ns = self._read_pin_attr(self._pin_duty_cycle_path)
try:
- duty_cycle_ns = int(self._read_pin_attr(self._pin_duty_cycle_path))
+ duty_cycle_ns = int(duty_cycle_ns)
except ValueError:
- raise PWMError(None, "Unknown duty cycle value: \"%s\"" % duty_cycle_ns)
+ raise PWMError(
+ None, 'Unknown duty cycle value: "%s"' % duty_cycle_ns
+ ) from ValueError
# Convert duty cycle from nanoseconds to seconds
duty_cycle = duty_cycle_ns / 1e9
if enabled == "1":
return True
- elif enabled == "0":
+ if enabled == "0":
return False
- raise PWMError(None, "Unknown enabled value: \"%s\"" % enabled)
+ raise PWMError(None, 'Unknown enabled value: "%s"' % enabled)
def _set_enabled(self, value):
+ """Get or set the PWM's output enabled state.
+
+ Raises:
+ PWMError: if an I/O or OS error occurs.
+ TypeError: if value type is not bool.
+
+ :type: bool
+ """
if not isinstance(value, bool):
raise TypeError("Invalid enabled type, should be string.")
self._write_pin_attr(self._pin_enable_path, "1" if value else "0")
- """Get or set the PWM's output enabled state.
-
- Raises:
- PWMError: if an I/O or OS error occurs.
- TypeError: if value type is not bool.
-
- :type: bool
- """
-
# String representation
def __str__(self):
- return "PWM%d, pin %s (freq=%f Hz, duty_cycle=%f%%)" % \
- (self._channel, self._pin, self.frequency, self.duty_cycle * 100,)
+ return "PWM%d, pin %s (freq=%f Hz, duty_cycle=%f%%)" % (
+ self._channel,
+ self._pin,
+ self.frequency,
+ self.duty_cycle * 100,
+ )
projects / Adafruit_Blinka-hackapet.git / blobdiff