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@ -6,6 +6,110 @@ Maybe we just call timers.py from here?
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"""
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class Alarms:
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import requests
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if __name__ == "__main__": # Handle running this script directly vs as a project
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from config import ntfy_url
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from utility import parsetime2
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from skill import Skill
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else:
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from skills.config import ntfy_url
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from skills.utility import parsetime2
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from skills.skill import Skill
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import threading
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import schedule
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import time
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def run_continuously(schedule, interval=1):
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# Borrowed from schedule documentation, why reinvent the wheel when its been created.
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"""Continuously run, while executing pending jobs at each
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elapsed time interval.
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@return cease_continuous_run: threading. Event which can
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be set to cease continuous run. Please note that it is
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*intended behavior that run_continuously() does not run
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missed jobs*. For example, if you've registered a job that
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should run every minute and you set a continuous run
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interval of one hour then your job won't be run 60 times
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at each interval but only once.
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"""
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cease_continuous_run = threading.Event()
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class ScheduleThread(threading.Thread):
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@classmethod
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def run(cls):
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while not cease_continuous_run.is_set():
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schedule.run_pending()
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time.sleep(interval)
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continuous_thread = ScheduleThread()
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continuous_thread.start()
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return cease_continuous_run
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class Alarms(Skill):
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def __init__(self):
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self.trigger_phrase = "alarms"
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self.trigger_phrase = "alarm"
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self.alarms = {} #This is a good canidate for dashboard data
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self.schedule = schedule.Scheduler()
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def _notify(self, device_id, alarm_name):
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r = requests.post(f"https://ntfy.sh/{device_id}",
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data=f"{alarm_name}",
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headers={
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"Title": "Your alarm is going off!",
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"Priority": "default",
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"Tags": "bell"
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})
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return r
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def _add_alarm(self, duration, name):
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if len(self.alarms) == 0:
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self.stop_run_continuously = run_continuously(self.schedule)
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self.alarms[name] = time.mktime(duration.timetuple())
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self.schedule.every().day.at(time.strftime("%H:%M:%S", duration.timetuple())).do(self._trigger_alarm, name).tag(name)
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# use https://schedule.readthedocs.io/en/stable/examples.html#run-a-job-once to trigger self._trigger_alarm()
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def _remove_alarm(self, name):
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del self.alarms[name]
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if len(self.alarms) == 0:
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self.stop_run_continuously.set()
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def _trigger_alarm(self, name):
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if name in self.alarms:
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res = self._notify(ntfy_url, name).text
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print(res)
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self._remove_alarm(name)
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# TODO: play alarm done sound, send response on api saying to listen to ntfy.sh for signal to trigger sound.
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# Better option for two way communication: WEBSOCKETS!
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return schedule.CancelJob
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def get_remaining_time(self, name=""): #TODO: test this function
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"""Returns time remaining for alarm as seconds remaining"""
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return self.alarms[name]-time.mktime(datetime.now().timetuple())
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# if name == "":
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def run(self, query="", duration_string="", name=""):
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if "add" in query:
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# duration = time.mktime(parsetime2(duration_string).timetuple())
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duration = parsetime2(duration_string)
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self._add_alarm(duration, name)
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return True # Return true to indicate success
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if "remove" in query:
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self._remove_alarm(name)
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return True
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return False # Return false to indicate failure
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def _disable_alarm_check_thread(self):
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self.stop_run_continuously.set()
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if __name__ == "__main__":
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dur = Alarms()
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dur.run("add", "15 seconds", "test alarm")
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# dur._add_alarm(123, "123")
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# dur._trigger_alarm("123")
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samerbam
1 year ago