pizzabox-main/pizzactrl/hal.py

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import logging
import functools
from time import sleep
from typing import Any, List
from scipy.io.wavfile import write as writewav
import sounddevice as sd
import soundfile as sf
import numpy as np
from . import gpio_pins
from picamera import PiCamera
from gpiozero import Button, OutputDevice, PWMOutputDevice, PWMLED
logger = logging.getLogger(__name__)
# Constants
VIDEO_RES = (1920, 1080) # Video Resolution
PHOTO_RES = (2592, 1944) # Photo Resolution
AUDIO_REC_SR = 44100 # Audio Recording Samplerate
class Motor:
def __init__(self, in1, in2, enable):
self._in1 = OutputDevice(in1)
self._in2 = OutputDevice(in2)
self._en = PWMOutputDevice(enable)
@property
def direction(self):
return self._in1.value > self._in2.value
@direction.setter
def direction(self, cw=True):
if cw is None:
self._in1.value = self._in2.value = 0
if cw:
self._in1.value = 1
self._in2.value = 0
else:
self._in1.value = 0
self._in2.value = 1
@property
def speed(self):
return self._en.value * (1.0 if self.direction else -1.0)
@speed.setter
def speed(self, speed: float):
"""
Turn on motor. Negative speed = CCW direction
:param speed: float [-1.0 .. 1.0]
"""
if self.speed == speed:
return
if speed == 0:
self.off()
return
if abs(speed) > 1.:
speed = 1. if speed > 0 else -1.
self.direction = speed > 0
self._en.value = abs(speed)
def off(self):
"""
Stop motor
"""
logger.debug(f'motor{self}.off()')
self._en.off()
self.direction = None
class ScrollSensor:
def __init__(self, low_bit: int, high_bit: int, endstop: int):
self._low = Button(low_bit, pull_up=False)
self._high = Button(high_bit, pull_up=False)
self._end = Button(endstop, pull_up=False)
# self._low.when_released = self._callback
# self.direction = 0
# self.count = 0
@property
def is_home(self):
"""
:return: `True` if the endstops are active
"""
return self._high.value and self._end.value
@property
def eot_callback(self):
return self._high.when_pressed
@eot_callback.setter
def eot_callback(self, callback):
logger.debug(f'setting eot_callback={callback}')
self._high.when_pressed = callback
@property
def stop_callback(self):
return self._end.when_pressed
@stop_callback.setter
def stop_callback(self, callback):
logger.debug(f'setting stop_callback={callback}')
self._end.when_pressed = callback
class PizzaHAL:
"""
This class holds a represenation of the pizza box hardware and provides
methods to interact with it.
- lights upper/lower on/off
- motor up-down/left-right speed distance
- scroll up-down/left-right positions
- lid open/closed detectors
- user interface buttons
"""
def __init__(self):
self.btn_forward = Button(gpio_pins.BTN_FORWARD_GPIO)
self.btn_back = Button(gpio_pins.BTN_BACK_GPIO)
self.led_btn_fwd = PWMLED(gpio_pins.LED_FWD_BTN)
self.led_btn_back = PWMLED(gpio_pins.LED_BACK_BTN)
# self.lid_sensor = Button(gpio_pins.LID_SWITCH)
self.ud_sensor = ScrollSensor(*gpio_pins.SCROLL_UPDOWN_SENSORS,
gpio_pins.SCROLL_UPDOWN_ENDSTOP)
self.lr_sensor = ScrollSensor(*gpio_pins.SCROLL_LR_SENSORS,
gpio_pins.SCROLL_LR_ENDSTOP)
self.motor_lr = Motor(*gpio_pins.MOTOR_CTRL_LR)
self.motor_ud = Motor(*gpio_pins.MOTOR_CTRL_UPDOWN)
self.led_layer = PWMOutputDevice(gpio_pins.LED_LAYER)
self.led_backlight = PWMOutputDevice(gpio_pins.LED_BACKLIGHT)
self.camera = None
self.soundcache = {}
self.blocked = False
def blocking(func):
@functools.wraps(func)
def _wrapper(*args, **kwargs):
hal = kwargs.get('hal', None)
if hal is not None:
logger.debug('blocking...')
while hal.blocked:
pass
hal.blocked = True
func(*args, **kwargs)
if hal is not None:
logger.debug('unblocking')
hal.blocked = False
sleep(0.1)
return _wrapper
@blocking
def advance(motor: Motor, sensor: ScrollSensor, speed: float=0.3,
direction: bool=True):
"""
Move the motor controlling the up-down scroll a given distance at a
given speed.
"""
logger.debug(f'advance(motor={motor}, sensor={sensor}, speed={speed},'
f'direction={direction})')
if sensor.is_home and not direction:
logger.debug('home reached, not advancing.')
return
sensor.stop_callback = motor.off
sensor.eot_callback = motor.off
motor.speed = speed if direction else -speed
# Safety catch
sleeptime = abs(5 / (speed * 10))
sleep(sleeptime)
motor.off()
sensor.stop_callback = None
sensor.eot_callback = None
@blocking
def rewind(motor: Motor, sensor: ScrollSensor, direction: bool=True,
max_time: float=13.2):
2021-11-19 15:09:49 +00:00
# TODO fix this
if sensor.is_home:
return
sensor.eot_callback = motor.off
sensor.stop_callback = None
motor.speed = -0.3 if direction else 0.3
# Safety catch
sleep(max_time)
motor.off()
def turn_off(hal: PizzaHAL):
"""
Rewind the scrolls to starting position
:param hal: The hardware abstraction object
"""
hal.led_btn_back.off()
hal.led_btn_fwd.off()
hal.led_layer.off()
hal.led_backlight.off()
hal.btn_back.when_pressed = None
hal.btn_back.when_held = None
hal.btn_forward.when_pressed = None
hal.btn_forward.when_held = None
hal.motor_ud.off()
hal.motor_lr.off()
def wait_for_input(hal: PizzaHAL=None, go_callback: Any=None,
back_callback: Any=None, **kwargs):
"""
Blink leds on buttons. Wait until the user presses a button, then execute
the appropriate callback
:param hal: The hardware abstraction object
:param go_callback: called when button 'go' is pressed
:param back_callback: called whan button 'back' is pressed
"""
hal.led_btn_fwd.blink(0.3, 0.3, 0.15, 0.15)
hal.led_btn_back.blink(0.3, 0.3, 0.15, 0.15)
hal.blocked = True
hal.btn_forward.when_pressed = \
_wrap_wait_btn(hal=hal, callback=go_callback, **kwargs)
hal.btn_back.when_pressed = \
_wrap_wait_btn(hal=hal, callback=back_callback, **kwargs)
sleep(0.5)
while hal.blocked:
pass
def _wrap_wait_btn(hal: PizzaHAL=None, callback: Any=None, **kwargs):
@functools.wraps(callback)
def wrapper():
hal.blocked = True
if callback is not None:
callback(hal=hal, **kwargs)
hal.btn_forward.when_pressed = None
hal.btn_back.when_pressed = None
hal.led_btn_back.off()
hal.led_btn_fwd.off()
hal.blocked = False
return wrapper
def _fade_led(led_pin: PWMOutputDevice, intensity: float, fade: float = 1.0,
steps: int = 100):
brightness = led_pin.value
step = (intensity - brightness) / float(steps)
wait = fade / float(steps)
if step != 0.:
for i in np.arange(brightness, intensity, step):
led_pin.value = i
sleep(wait)
led_pin.value = intensity
@blocking
def light_layer(hal: PizzaHAL, intensity: float, fade: float = 0.0,
steps: int = 100, **kwargs):
"""
Turn on the light to illuminate the upper scroll
:param hal: The hardware abstraction object
:param fade: float
Default 0, time in seconds to fade in or out
:param intensity: float
Intensity of the light in percent
:param steps: int
How many steps for the fade (default: 10)
"""
if fade > 0.:
_fade_led(hal.led_layer, intensity, fade, steps)
else:
hal.led_layer.value = intensity
@blocking
def backlight(hal: PizzaHAL, intensity: float, fade: float = 0.0,
steps: int = 100, **kwargs):
"""
Turn on the backlight
:param hal: The hardware abstraction object
:param fade: float
Default 0, time in seconds to fade in or out
:param intensity: float
Intensity of the light in percent
:param steps: int
How many steps for the fade (default: 10)
"""
if fade > 0.:
_fade_led(hal.led_backlight, intensity, fade, steps)
else:
hal.led_backlight.value = intensity
@blocking
def play_sound(hal: PizzaHAL, sound: Any, **kwargs):
"""
Play a sound.
:param hal: The hardware abstraction object
:param sound: The sound to be played
"""
# Extract data and sampling rate from file
try:
data, fs = hal.soundcache.get(str(sound), sf.read(str(sound), dtype='float32'))
sd.play(data, fs)
sd.wait() # Wait until file is done playing
except KeyboardInterrupt:
logger.debug('skipped playback')
# sd.stop()
@blocking
def record_sound(hal: PizzaHAL, filename: Any, duration: int,
cache: bool = False, **kwargs):
"""
Record sound using the microphone
:param hal: The hardware abstraction object
:param filename: The path of the file to record to
:param duration: The time to record in seconds
:param cache: `True` to save recording to cache. Default is `False`
"""
myrecording = sd.rec(int(duration * AUDIO_REC_SR),
samplerate=AUDIO_REC_SR,
channels=2)
sd.wait() # Wait until recording is finished
writewav(str(filename), AUDIO_REC_SR, myrecording)
if cache:
hal.soundcache[str(filename)] = (myrecording, AUDIO_REC_SR)
@blocking
def record_video(hal: PizzaHAL, filename: Any, duration: float, **kwargs):
"""
Record video using the camera
:param hal: The hardware abstraction object
:param filename: The path of the file to record to
:param duration: The time to record in seconds
"""
hal.camera.resolution = VIDEO_RES
hal.camera.start_recording(str(filename))
hal.camera.wait_recording(duration)
hal.camera.stop_recording()
@blocking
def take_photo(hal: PizzaHAL, filename: Any, **kwargs):
"""
Take a foto with the camera
:param hal: The hardware abstraction object
:param filename: The path of the filename for the foto
"""
hal.camera.resolution = PHOTO_RES
hal.camera.capture(str(filename))
@blocking
def init_sounds(hal: PizzaHAL, sounds: List):
"""
Load prerecorded Sounds into memory
:param hal:
:param sounds: A list of sound files
"""
if hal.soundcache is None:
hal.soundcache = {}
for sound in sounds:
# Extract data and sampling rate from file
data, fs = sf.read(str(sound), dtype='float32')
hal.soundcache[str(sound)] = (data, fs)
@blocking
def init_camera(hal: PizzaHAL):
if hal.camera is None:
hal.camera = PiCamera()