Source code for gpiozero.pins.rpio

from __future__ import (
str = type('')

from threading import Lock

import RPIO
import RPIO.PWM

from . import Pin, PINS_CLEANUP
from .exc import (

[docs]class RPIOPin(Pin): """ Uses the `RPIO`_ library to interface to the Pi's GPIO pins. This is the default pin implementation if the RPi.GPIO library is not installed, but RPIO is. Supports all features including PWM (hardware via DMA). .. note:: Please note that at the time of writing, RPIO is only compatible with Pi 1's; the Raspberry Pi 2 Model B is *not* supported. Also note that root access is required so scripts must typically be run with ``sudo``. .. _RPIO: """ _PINS = {} GPIO_FUNCTIONS = { 'input': RPIO.IN, 'output': RPIO.OUT, 'alt0': RPIO.ALT0, } GPIO_PULL_UPS = { 'up': RPIO.PUD_UP, 'down': RPIO.PUD_DOWN, 'floating': RPIO.PUD_OFF, } GPIO_FUNCTION_NAMES = {v: k for (k, v) in GPIO_FUNCTIONS.items()} GPIO_PULL_UP_NAMES = {v: k for (k, v) in GPIO_PULL_UPS.items()} def __new__(cls, number): if not cls._PINS: RPIO.setmode(RPIO.BCM) RPIO.setwarnings(False) RPIO.wait_for_interrupts(threaded=True) RPIO.PWM.setup() RPIO.PWM.init_channel(0, 10000) PINS_CLEANUP.append(RPIO.PWM.cleanup) PINS_CLEANUP.append(RPIO.stop_waiting_for_interrupts) PINS_CLEANUP.append(RPIO.cleanup) try: return cls._PINS[number] except KeyError: self = super(RPIOPin, cls).__new__(cls) cls._PINS[number] = self self._number = number self._pull = 'up' if number in (2, 3) else 'floating' self._pwm = False self._duty_cycle = None self._bounce = None self._when_changed = None self._edges = 'both' RPIO.setup(self._number, RPIO.IN, self.GPIO_PULL_UPS[self._pull]) return self def __repr__(self): return "GPIO%d" % self._number @property def number(self): return self._number def close(self): self.frequency = None self.when_changed = None RPIO.setup(self._number, RPIO.IN, RPIO.PUD_OFF) def _get_function(self): return self.GPIO_FUNCTION_NAMES[RPIO.gpio_function(self._number)] def _set_function(self, value): if value != 'input': self._pull = 'floating' try: RPIO.setup(self._number, self.GPIO_FUNCTIONS[value], self.GPIO_PULL_UPS[self._pull]) except KeyError: raise PinInvalidFunction('invalid function "%s" for pin %r' % (value, self)) def _get_state(self): if self._pwm: return self._duty_cycle else: return RPIO.input(self._number) def _set_state(self, value): if not 0 <= value <= 1: raise PinInvalidValue('invalid state "%s" for pin %r' % (value, self)) if self._pwm: RPIO.PWM.clear_channel_gpio(0, self._number) if value == 0: RPIO.output(self._number, False) elif value == 1: RPIO.output(self._number, True) else: RPIO.PWM.add_channel_pulse(0, self._number, start=0, width=int(1000 * value)) self._duty_cycle = value else: try: RPIO.output(self._number, value) except ValueError: raise PinInvalidState('invalid state "%s" for pin %r' % (value, self)) except RuntimeError: raise PinSetInput('cannot set state of pin %r' % self) def _get_pull(self): return self._pull def _set_pull(self, value): if self.function != 'input': raise PinFixedPull('cannot set pull on non-input pin %r' % self) if value != 'up' and self._number in (2, 3): raise PinFixedPull('%r has a physical pull-up resistor' % self) try: RPIO.setup(self._number, RPIO.IN, self.GPIO_PULL_UPS[value]) self._pull = value except KeyError: raise PinInvalidPull('invalid pull "%s" for pin %r' % (value, self)) def _get_frequency(self): return 100 def _set_frequency(self, value): if value is not None and value != 100: raise PinPWMError( 'RPIOPin implementation is currently limited to ' '100Hz sub-cycles') if not self._pwm and value is not None: self._pwm = True # Dirty hack to get RPIO's PWM support to setup, but do nothing, # for a given GPIO pin RPIO.PWM.add_channel_pulse(0, self._number, start=0, width=0) RPIO.PWM.clear_channel_gpio(0, self._number) elif self._pwm and value is None: RPIO.PWM.clear_channel_gpio(0, self._number) self._pwm = False def _get_bounce(self): return None if self._bounce is None else (self._bounce / 1000) def _set_bounce(self, value): f = self.when_changed self.when_changed = None try: self._bounce = None if value is None else (value * 1000) finally: self.when_changed = f def _get_edges(self): return self._edges def _set_edges(self, value): f = self.when_changed self.when_changed = None try: self._edges = value finally: self.when_changed = f def _get_when_changed(self): return self._when_changed def _set_when_changed(self, value): if self._when_changed is None and value is not None: self._when_changed = value RPIO.add_interrupt_callback( self._number, lambda channel, value: self._when_changed(), self._edges, self.GPIO_PULL_UPS[self._pull], self._bounce) elif self._when_changed is not None and value is None: try: RPIO.del_interrupt_callback(self._number) except KeyError: # Ignore this exception which occurs during shutdown; this # simply means RPIO's built-in cleanup has already run and # removed the handler pass self._when_changed = None else: self._when_changed = value