from datetime import datetime, timedelta import time import RPi.GPIO as GPIO import threading import events from config import config BUTTON_GPIO = 25 REST_TIME = 0.3 # seconds DIAL_RESET_TIME = 5 # seconds class DialThread(threading.Thread): def __init__(self, queue, phone_held, processing_event): threading.Thread.__init__(self, args=(), kwargs=None) self.queue = queue self.daemon = True self.phone_held = phone_held self.processing_event = processing_event GPIO.setmode(GPIO.BCM) GPIO.setup(BUTTON_GPIO, GPIO.IN, pull_up_down=GPIO.PUD_UP) def run(self): pressed = True rest_start = datetime.now() count = 0 printed = True while True: # button is pressed when pin is LOW if not GPIO.input(BUTTON_GPIO): if not pressed: count+=1 pressed = True printed = False # button not pressed (or released) else: if pressed: rest_start = datetime.now() pressed = False if self.dial_over(rest_start) and not printed: # Only add this dial to queue if we should accept numbers at this time if self.phone_held.is_set() and not self.processing_event.is_set(): self.queue.put(count % 10) # wrap 10 to 0 count = 0 printed = True time.sleep(0.01) def dial_over(self, rest_start): # After REST_TIME seconds, assume the rotary dial stopped spinning return datetime.now() - rest_start > timedelta(seconds=REST_TIME) class DialManager: def __init__(self, phone_held, phone_hung_up): self.sequence = [] self.update = datetime.now() self._load_sequences(phone_held, phone_hung_up) def _load_sequences(self, phone_held, phone_hung_up): def recursive_add(classname, sequence_list, sequences): key = int(sequence_list[0]) if not sequence_list[1:]: sequences[key] = eval(classname)(self, phone_held, phone_hung_up) else: sequences[key] = {} recursive_add(classname, sequence_list[1:], sequences[key]) self.sequences = {} for sequence in config["sequences"]: print(sequence, config["sequences"][sequence], sep="\t") recursive_add(config["sequences"][sequence], list(sequence), self.sequences) def dial(self, number): if datetime.now() - self.update > timedelta(seconds=DIAL_RESET_TIME): self.sequence = [] self.sequence.append(number) match = self.match_sequence() print(self.sequence, match, sep="\t") if match is not None: self.sequence = [] self.update = datetime.now() return match def match_sequence(self): def recursive_find(sequence, sequences): if not sequence: return None digit = sequence[0] if not digit in sequences: return None if isinstance(sequences[digit], dict): return recursive_find(sequence[1:], sequences[digit]) return sequences[digit] return recursive_find(self.sequence, self.sequences) def clear_sequence(self): self.sequence = []