There’s a vaporent community and a vaporists community. Neither have been active for almost a year. It would be nice to have one of those going to see what everybody’s using. I also miss the old old cult/ Franklin/thca groups from r/. Anyone interested in starting one of those?

  • Frisbeedude@sopuli.xyz
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    7 months ago

    I think it’s cool, but who cares?

    We do! Please open-source it, king of stoner engineering!

    (I use the Plenty from time to time, but it kinda sucks)

    • JTskulk@lemmy.world
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      6 months ago

      Ask and ye shall receive! I’m tacking a GPL 3 license to it. The plugs that play a sound after a delay won’t work on Windows because I use fork(), but I don’t use Windows because fuck Windows. It uses mpv to play sounds, but that is easily changed. AMA.

      #!/usr/bin/env python
      "Control my various tasmota devices. Licensed under GPL v3: https://www.gnu.org/licenses/gpl-3.0.en.html#license-text"
      
      import os
      from time import sleep
      import urllib.request
      from json import loads
      from subprocess import Popen
      
      __all__ = ["Tasmota", "TasmotaWarmup", "TasmotaOffFirst", "DEVICENAMES"]
      
      class Tasmota():
          "A tasmota device."
          def __init__(self, ipaddress: str, name: str=None):
              self.ipaddress = ipaddress
              self.name = name
      
          def __repr__(self):
              return f"<{type(self).__name__} {self.name if self.name else self.ipaddress}>"
      
          def _request(self, cmd: str) -> str:
              "make an http request to the device"
              return urllib.request.urlopen(f"http://{self.ipaddress}/cm?cmnd={cmd.replace(' ', '%20')}").read()
      
          def on(self) -> bool:
              "Turn the device on. return True if successful"
              return b"ON" in self._request("Power On")
      
          def off(self) -> bool:
              "Turn the device off. return True if successful"
              return b"OFF" in self._request("Power Off")
      
          def toggle(self) -> bool:
              "Toggle the device power. return True if power is now on, False if it's off"
              return b"ON" in self._request("Power Toggle")
      
          def status(self) -> bool:
              "return True if the device is on, False if it is off"
              return bool(loads(self._request("Status"))["Status"]["Power"])
      
      class TasmotaWarmup(Tasmota):
          "Plays a sound when started, plays a sound after a waiting period."
          def __init__(self, ipaddress: str, name: str=None, warmup_time: int=None, on_sound: str=None, ready_sound: str=None):
              "warmup_time is seconds, on/ready_sound is the path to the audio file to play"
              super().__init__(ipaddress, name)
              self.warmup_time = warmup_time
              self.on_sound = on_sound
              self.ready_sound = ready_sound
      
          def _playSound(self, sound: str) -> None:
              "play a sound"
              Popen(["mpv", "--no-terminal", "--volume=60", sound])
      
          def _beginPowerOnSounds(self) -> None:
              "Play a sound when turning on and another sound when ready"
              if self.on_sound:
                      self._playSound(self.on_sound)
              if self.warmup_time and self.ready_sound:
                  if __name__ == "__main__": # using this as a script, fork to background and return terminal
                      if os.fork() == 0: # wait in the background for the warmup_time
                          self._sleepAndPlay()
                          raise SystemExit
                  else:
                      Thread(target=self._sleepAndPlay).start()
      
          def _sleepAndPlay(self) -> None:
              "The actual sleeping and playing, to be run in a thread if needed."
              sleep(self.warmup_time)
              if self.status(): # if device is still on
                  self._playSound(self.ready_sound)
      
          def on(self) -> bool:
              "Turn the device on and play sounds"
              if super().on():
                  self._beginPowerOnSounds()
                  return True
              return False
      
          def toggle(self) -> bool:
              "toggle the status and play sounds if we're turning it on"
              if super().toggle():
                  self._beginPowerOnSounds()
                  return True
              return False
      
      class TasmotaOffFirst(TasmotaWarmup):
          "A Tasmota object that turns the device off first before turning it on"
          def _turn_off_before_on(self) -> bool:
              "Turn this device off first if it's already on when it's switched on"
              if not super().toggle(): # if toggling turned it off
                  super().on()
              return True
      
          def on(self) -> bool:
              return self._turn_off_before_on()
      
      class TasmotaAlwaysOn(TasmotaOffFirst):
          "This Tasmota class is always on; toggling it will turn it off briefly and then back on"
          def toggle(self) -> bool:
              "toggle this device off and then back on again"
              return self._turn_off_before_on()
      
      DEVICENAMES = {"volcano": TasmotaWarmup("192.168.1.152", "Volcano", 355, "/home/jt/.sounds/hold up hey.ogg",
                                              "/home/jt/.sounds/fill that bag up right now2.flac"),
                         "towel": TasmotaOffFirst("192.168.1.153", "Towel Warmer", warmup_time=(20*60)+30,
                                                  ready_sound="/home/jt/.sounds/yayeah.ogg"),
                         "radiator": Tasmota("192.168.1.166", "Radiator"),
                         "taco": TasmotaAlwaysOn("192.168.1.156", "Taco")
                         }
      
      if __name__ != "__main__":
          from threading import Thread # only needed when importing this module
      else:
          import sys, argparse
          parser = argparse.ArgumentParser(description="Control Tasmota wifi power plugs")
          parser.add_argument("devices", help="device(s)", action="store", nargs="*")
          operation_group = parser.add_mutually_exclusive_group()
          operation_group.add_argument('--on', '-n', help="power on device", action="store_true")
          operation_group.add_argument('--off', '-f', help="power off device", action="store_true")
          operation_group.add_argument('--toggle', '-t', help="toggle device power", action="store_true")
          operation_group.add_argument('--status', '-s', help="get status of device", action="store_true")
          args = parser.parse_args()
      
          # Sanity checks
          if not args.devices:
              print(f"No device specified. Available devices are: {' '.join(DEVICENAMES.keys())}", file=sys.stderr)
              parser.print_help()
              sys.exit(1)
          invalid = []
          for d in args.devices:
              if not DEVICENAMES.get(d):
                  invalid.append(d)
          if invalid:
              print(f"Invalid device{'s' if len(invalid) > 1 else ''}: {' '.join(invalid)}", file=sys.stderr)
              print(f"Available devices are: {' '.join(DEVICENAMES.keys())}", file=sys.stderr)
              sys.exit(3)
          for d in args.devices: # gogo
              t = DEVICENAMES[d]
              if args.on:
                  if t.on():
                      print(f"{t.name} turned on")
                  else:
                      print(f"Failed to turn on {t.name}", file=sys.stderr)
              elif args.off:
                  if t.off():
                      print(f"{t.name} turned off")
                  else:
                      print(f"Failed to turn off {t.name}", file=sys.stderr)
              elif args.toggle:
                  print(f"{t.name} turned {'on' if t.toggle() else 'off'}")
              elif args.status:
                  print(f"{t.name} is {'on' if t.status() else 'off'}")