from .input_devices import Button from .output_devices import LED, Buzzer from .devices import GPIODeviceError from time import sleep class LEDBoard(object): """ A Generic LED Board or collecfion of LEDs. """ def __init__(self, leds): self._leds = tuple(LED(led) for led in leds) @property def leds(self): return self._leds def on(self): """ Turn all the LEDs on. """ for led in self._leds: led.on() def off(self): """ Turn all the LEDs off. """ for led in self._leds: led.off() def toggle(self): """ Toggle all the LEDs. For each LED, if it's on, turn it off; if it's off, turn it on. """ for led in self._leds: led.toggle() def blink(self, on_time=1, off_time=1): """ Make all the LEDs turn on and off repeatedly in the background. on_time: 1 Number of seconds to be on off_time: 1 Number of seconds to be off """ for led in self._leds: led.blink(on_time, off_time) def flash(self, on_time=1, off_time=1, n=1): """ Turn all the LEDs on and off a given number of times. on_time: 1 Number of seconds on off_time: 1 Number of seconds off n: 1 Number of iterations """ for i in range(n): self.on() sleep(on_time) self.off() if i+1 < n: # don't sleep on final iteration sleep(off_time) class PiLiter(LEDBoard): """ Ciseco Pi-LITEr: strip of 8 very bright LEDs. """ def __init__(self): leds = (4, 17, 27, 18, 22, 23, 24, 25) super(PiLiter, self).__init__(leds) class TrafficLights(LEDBoard): """ Generic Traffic Lights set. red: None Red LED pin amber: None Amber LED pin green: None Green LED pin """ def __init__(self, red=None, amber=None, green=None): if not all([red, amber, green]): raise GPIODeviceError('Red, Amber and Green pins must be provided') self.red = LED(red) self.amber = LED(amber) self.green = LED(green) self._leds = (self.red, self.amber, self.green) class PiTraffic(TrafficLights): """ Low Voltage Labs PI-TRAFFIC: vertical traffic lights board on pins 9, 10 and 11. """ def __init__(self): red, amber, green = (9, 10, 11) super(PiTraffic, self).__init__(red, amber, green) class FishDish(TrafficLights): """ Pi Supply FishDish: horizontal traffic light LEDs, a button and a buzzer. """ def __init__(self): red, amber, green = (9, 22, 4) super(FishDish, self).__init__(red, amber, green) self.buzzer = Buzzer(8) self.button = Button(pin=7, pull_up=False) self._all = self._leds + (self.buzzer,) @property def all(self): return self._all def on(self): """ Turn all the board's components on. """ for thing in self._all: thing.on() def off(self): """ Turn all the board's components off. """ for thing in self._all: thing.off() def toggle(self): """ Toggle all the board's components. For each component, if it's on, turn it off; if it's off, turn it on. """ for thing in self._all: thing.toggle() def lights_on(self): """ Turn all the board's LEDs on. """ super(FishDish, self).on() def lights_off(self): """ Turn all the board's LEDs off. """ super(FishDish, self).off() def toggle_lights(self): """ Toggle all the board's LEDs. For each LED, if it's on, turn it off; if it's off, turn it on. """ super(FishDish, self).toggle() def flash_lights(self, on_time=1, off_time=1, n=1): """ Turn all the LEDs on and off a given number of times. on_time: 1 Number of seconds on off_time: 1 Number of seconds off n: 1 Number of iterations """ for i in range(n): [led.on() for led in self.leds] sleep(on_time) [led.off() for led in self.leds] if i+1 < n: # don't sleep on final iteration sleep(off_time) class TrafficHat(FishDish): """ Ryanteck Traffic HAT: horizontal traffic light LEDs, a button and a buzzer. """ def __init__(self): red, amber, green = (22, 23, 24) super(FishDish, self).__init__(red, amber, green) self.buzzer = Buzzer(5) self.button = Button(25) self._all = self._leds + (self.buzzer,)