def __init__(self, m, f, period, kind, lamb): self.turns = utils.generateTimes(kind, lamb, period) self.top = m + f self.people = dict() self.newSingles = [] for _ in range(m): p = Person('m', utils.randint(0, 100) * 48) self.people[len(self.people) + 1] = p if p.age >= 12: self.newSingles.append(len(self.people)) for _ in range(f): p = Person('f', utils.randint(0, 100) * 48) self.people[len(self.people) + 1] = p if p.age >= 12: self.newSingles.append(len(self.people)) self.actual_time = 0 self.period = period self.events = [] self.couples = [] self.singlesM = [] self.singlesF = [] self.totalDeaths = 0 self.totalBirths = 0
def add_prefix(text): add_prefix_rnd = utils.randint(0, 100) if add_prefix_rnd < 50: return prefix[utils.randint( 0, len(prefix) - 1)] + " " + text[0].lower() + text[1:] return text
def schedule_all(): log.info("starting pws module...") # schedule the run job schedule.add_job(run, 'cron', minute="*/" + str(conf["pws"]["publishing_interval"]), second=utils.randint(1, 59), args=[])
def schedule_all(): # for each backup job for entry in conf["general"]["backup"]: # schedule the execution of the daily and weekly job if not entry["enabled"]: return log.info("Scheduling backup job " + entry["backup_id"]) schedule.add_job(run, 'cron', hour="0", minute="30", second=utils.randint(1, 59), args=[entry["backup_id"], "daily"]) schedule.add_job(run, 'cron', day_of_week='sun', hour="0", minute="30", second=utils.randint(1, 59), args=[entry["backup_id"], "weekly"])
def randomk(x, k, state): y = x.flatten() low = np.uint64(0) high = np.uint64(len(y)) indices = np.array([randint(low, high, state) for _ in range(k)], dtype=np.uint64) vals = y[indices] y.fill(0) for idx, val in zip(indices, vals): y[idx] = val return y.reshape(x.shape)
def addComma(token, punctChar): orginal_length = len(token) comma_pointer = 0 if len(token) > 1: while comma_pointer < orginal_length: comma_pointer += randint(1, orginal_length - 1) if comma_pointer < orginal_length: token = token[:comma_pointer] + \ punctChar + token[comma_pointer:] comma_pointer += 1 return token
def translate_response(action): response = {'type': 'text', 'content': ''} request = action.split("|") what = request.pop(0) if what == "text": response["content"] = request[utils.randint(0, len(request) - 1)] elif what == "rule": response["content"] = add_prefix( alerter.run(request[0], request[1], notify=False)) elif what == "chart": response["type"] = "chart" response["content"] = request[0] + "," + request[1] return response
def run(): # schedule module summary report for module in conf["modules"]: if not module["enabled"]: continue if "daily_digest" not in module: continue if module["daily_digest"]: schedule.add_job(smtp.module_digest,'cron',hour="23",minute="55",second=utils.randint(1,59),args=[module["module_id"]]) log.info("["+module['module_id']+"] scheduling daily module digest") # schedule alert summary report if conf["output"]["email"]["alerts_digest"]: log.info("scheduling daily alert digest") schedule.add_job(smtp.alerts_digest,'cron',hour="0",minute="55",args=[]) # run slack bot if conf["input"]["slack"]["enabled"]: schedule.add_job(slack.run,'date',run_date=datetime.datetime.now()) # listen for voice commands if conf["input"]["audio"]["enabled"]: schedule.add_job(audio.listen,'date',run_date=datetime.datetime.now())
def victory(self, player, attack_type): return super().victory(player) print("You have been defeated in combat by the bandit!") #randomly decide whether to kill the player or loot their body and leave them unconscious choice = utils.randint(1, 7) if choice == 1: print( "The bandit knocks you unconscious. You wake up on the floor where they left you, stripped of your clothes, weapons, and gold." ) elif attack_type == "melee": print("The last thing you see is the bandit's " + self.melee_weapon_name + " being brought down on your head. You have been killed.") else: print("The bandit's " + self.ranged_weapon_name + " delivers death from afar. You have been killed.")
def miller_rabin_primality_testing(n, k): # prevent potential infinite loop when d = 0 if n < 2: return False # Decompose (n - 1) to write it as (2 ** r) * d # While d is even, divide it by 2 and increase the exponent. d = n - 1 r = 0 while not (d & 1): r += 1 d >>= 1 # Test k witnesses. for _ in range(k): # Generate random integer a, where 2 <= a <= (n - 2) a = utils.randint(n - 3) + 1 x = pow(a, d, n) if x == 1 or x == n - 1: continue for _ in range(r - 1): x = pow(x, 2, n) if x == 1: # n is composite. return False if x == n - 1: # Exit inner loop and continue with next witness. break else: # If loop doesn't break, n is composite. return False return True
def get_price(self): return (self.tier * (5 + utils.randint(0, 10))) + utils.randint(1, 5)
def gen_case(): vals = types[randint(len(types))] return [vals[randint(len(vals))] for _ in range(randint(16) + 4)]
def get_wait_message(): return wait[utils.randint(0, len(wait) - 1)]
def roll(self): self.strength_roll = utils.randint(0, 10) + self.strength self.dexterity_roll = utils.randint(0, 10) + self.dexterity self.intellect_roll = utils.randint(0, 10) + self.intellect self.charisma_roll = utils.randint(0, 10) + self.charisma
def schedule_all(): # init plugins init_plugins() log.info("setting up all the configured sensors") # for each module for module in conf["modules"]: if not module["enabled"]: continue # skip group without sensors if "sensors" not in module: continue for sensor in module["sensors"]: # check if the sensor is enabled if not sensor["enabled"]: continue # initialize the sensor data structure sensor = init_sensor(sensor) if sensor is None: continue # skip sensors without a plugin if 'plugin' not in sensor: continue # this plugin needs sensors to be registered with it first if hasattr(plugins[sensor['plugin']['plugin_name']], 'register'): # register the sensor log.debug("[" + sensor['module_id'] + "][" + sensor['group_id'] + "][" + sensor['sensor_id'] + "] registering with plugin service " + sensor['plugin']['plugin_name']) plugins[sensor['plugin']['plugin_name']].register(sensor) # this plugin needs the sensor to be polled if "polling_interval" in sensor["plugin"]: # schedule polling log.debug("[" + sensor['module_id'] + "][" + sensor['group_id'] + "][" + sensor['sensor_id'] + "] scheduling polling every " + str(sensor["plugin"]["polling_interval"]) + " minutes") # run it now first if conf["sensors"]["poll_at_startup"]: schedule.add_job( run, 'date', run_date=datetime.datetime.now() + datetime.timedelta(seconds=utils.randint(1, 59)), args=[ sensor['module_id'], sensor['group_id'], sensor['sensor_id'], 'save' ]) # then schedule it for each refresh interval schedule.add_job(run, 'cron', minute="*/" + str(sensor["plugin"]["polling_interval"]), second=utils.randint(1, 59), args=[ sensor['module_id'], sensor['group_id'], sensor['sensor_id'], 'save' ]) # schedule an expire job every day schedule.add_job(run, 'cron', hour="1", minute="0", second=utils.randint(1, 59), args=[ sensor['module_id'], sensor['group_id'], sensor['sensor_id'], 'expire' ]) # schedule a summarize job every hour and every day if needed if "summarize" in sensor: log.debug("[" + sensor['module_id'] + "][" + sensor['group_id'] + "][" + sensor['sensor_id'] + "] scheduling summary every hour and day") schedule.add_job(run, 'cron', minute="0", second=utils.randint(1, 59), args=[ sensor['module_id'], sensor['group_id'], sensor['sensor_id'], 'summarize_hour' ]) schedule.add_job(run, 'cron', hour="0", minute="0", second=utils.randint(1, 59), args=[ sensor['module_id'], sensor['group_id'], sensor['sensor_id'], 'summarize_day' ]) # start all the plugin services start_plugins()