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transferred original controller

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2023-07-30 13:25:59 -05:00
parent 4a492e5861
commit c90687ca39
4 changed files with 382 additions and 143 deletions
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2
requirements.txt
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pvlib
matplotlib

382
room_control.py Executable file
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from copy import deepcopy
from datetime import time, timedelta
from typing import Dict, List, Tuple, Union
import astral
from appdaemon.plugins.hass.hassapi import Hass
from continuous import Continuous
class RoomController(Hass):
"""Class for linking an light with a motion sensor.
- Separate the turning on and turning off functions.
- Use the state change of the light to set up the event for changing to the other state
- `handle_on`
- `handle_off`
- When the light comes on, check if it's attributes match what they should, given the time.
"""
def initialize(self):
self.state_change_handle = self.listen_state(self.handle_state_change, self.entity)
self.refresh_state_times()
self.sync_state()
self.run_daily(callback=self.refresh_state_times, start='00:00:00')
self.app_entities = self.gather_app_entities()
if (button := self.args.get('button')):
if not isinstance(button, list):
button = [button]
for button in button:
self.log(f'Setting up button: {button}')
self.listen_event(self.handle_button, event='deconz_event', id=button)
if (door := self.args.get('door')):
door_entity = self.get_entity(door)
self.log(f'Setting up door: {door_entity.friendly_name}')
self.listen_state(
callback=self.activate_all_off,
entity_id=door,
new='on'
)
@property
def sensor(self) -> str:
return self.args['sensor']
@property
def entity(self) -> str:
return self.args['entity']
@property
def off_duration(self) -> timedelta:
"""Determines the time that the motion sensor has to be clear before deactivating
Priority:
- Value in scene definition
- Default value
- Normal - value in app definition
- Sleep - 0
"""
duration_str = self.current_state().get(
'off_duration',
self.args.get('off_duration', '00:00:00')
)
try:
hours, minutes, seconds = map(int, duration_str.split(':'))
return timedelta(hours=hours, minutes=minutes, seconds=seconds)
except Exception:
return timedelta()
@property
def entity_state(self) -> bool:
return self.get_state(self.entity) == 'on'
@entity_state.setter
def entity_state(self, new):
if isinstance(new, str):
if new == 'on':
self.turn_on(self.entity)
elif new == 'off':
self.turn_on(self.entity)
else:
raise ValueError(f'Invalid value for entity state: {new}')
elif isinstance(new, bool):
if new:
self.turn_on(self.entity)
self.log(f'Turned on {self.friendly_name(self.entity)}')
else:
self.turn_off(self.entity)
self.log(f'Turned off {self.friendly_name(self.entity)}')
elif isinstance(new, dict):
if any(isinstance(val, dict) for val in new.values()):
# self.log(f'Setting scene with nested dict: {new}')
for entity, state in new.items():
if state.pop('state', 'on') == 'on':
# self.log(f'Setting {entity} state with: {state}')
self.turn_on(entity_id=entity, **state)
else:
self.turn_off(entity)
else:
if new.pop('state', 'on') == 'on':
self.turn_on(self.entity, **new)
else:
self.turn_off(self.entity)
else:
raise TypeError(f'Invalid type: {type(new)}: {new}')
@property
def is_stateful(self):
return 'scene' in self.args and isinstance(self.args['scene'], (list, dict))
def parse_states(self):
def gen():
for state in deepcopy(self.args['scene']):
if (time := state.get('time')):
state['time'] = self.parse_time(time)
elif isinstance((elevation := state.get('elevation')), (int, float)):
assert 'direction' in state, f'State needs a direction if it has an elevation'
if state['direction'] == 'rising':
dir = astral.SunDirection.RISING
elif state['direction'] == 'setting':
dir = astral.SunDirection.SETTING
else:
raise ValueError(f'Invalid sun direction: {state["direction"]}')
state['time'] = self.AD.sched.location.time_at_elevation(
elevation=elevation, direction=dir
).time()
else:
raise ValueError(f'Missing time')
yield state
states = sorted(gen(), key=lambda s: s['time'])
return states
def current_state(self, time: time = None):
if self.sleep_bool:
if (state := self.args.get('sleep_state')):
return state
else:
time = time or self.get_now().time()
for state in self.states[::-1]:
if state['time'] <= time:
return state
else:
return self.states[-1]
def current_scene(self, time: time = None):
return self.current_state(time=time)['scene']
def gather_app_entities(self) -> List[str]:
"""Returns a list of all the entities involved in any of the states
"""
def gen():
for settings in deepcopy(self.args['scene']):
# dt = self.parse_time(settings.pop('time'))
if (scene := settings.get('scene')):
if isinstance(scene, str):
yield from self.get_entity(scene).get_state('all')['attributes']['entity_id']
else:
yield from scene.keys()
else:
yield self.args['entity']
return list(set(gen()))
@property
def all_off(self) -> bool:
""""All off" is the logic opposite of "any on"
Returns:
bool: Whether all the lights associated with the app are off
"""
return all(self.get_state(entity) != 'on' for entity in self.app_entities)
@property
def any_on(self) -> bool:
""""Any on" is the logic opposite of "all off"
Returns:
bool: Whether any of the lights associated with the app are on
"""
return any(self.get_state(entity) == 'on' for entity in self.app_entities)
@property
def delay(self) -> timedelta:
try:
hours, minutes, seconds = map(int, self.args['delay'].split(':'))
return timedelta(hours=hours, minutes=minutes, seconds=seconds)
except Exception:
return timedelta()
@property
def sleep_bool(self) -> bool:
if (sleep_var := self.args.get('sleep')):
return self.get_state(sleep_var) == 'on'
else:
# self.log('WARNING')
return False
@sleep_bool.setter
def sleep_bool(self, val) -> bool:
if (sleep_var := self.args.get('sleep')):
if isinstance(val, str):
self.set_state(sleep_var, state=val)
elif isinstance(val, bool):
self.set_state(sleep_var, state='on' if val else 'off')
else:
raise ValueError('Sleep variable is undefined')
def sync_state(self):
"""Synchronizes the callbacks with the state of the light.
Essentially mimics the `state_change` callback based on the current state of the light.
"""
if self.entity_state:
self.callback_light_on()
else:
self.callback_light_off()
def listen_motion_on(self):
"""Sets up the motion on callback to activate the room
"""
self.log(f'Waiting for motion on {self.friendly_name(self.sensor)} to turn on {self.friendly_name(self.entity)}')
self.motion_on_handle = self.listen_state(
callback=self.activate,
entity_id=self.sensor,
new='on',
oneshot=True
)
def listen_motion_off(self, duration: timedelta):
"""Sets up the motion off callback to deactivate the room
"""
self.log(f'Waiting for motion to stop on {self.friendly_name(self.sensor)} for {duration} to turn off {self.friendly_name(self.entity)}')
self.motion_off_handle = self.listen_state(
callback=self.deactivate,
entity_id=self.sensor,
new='off',
duration=duration.total_seconds(),
oneshot=True
)
def handle_state_change(self, entity=None, attribute=None, old=None, new=None, kwargs=None):
"""Callback attached to the state change of the light.
"""
if new == 'on':
self.callback_light_on(entity, attribute, old, new, kwargs)
elif new == 'off':
self.callback_light_off(entity, attribute, old, new, kwargs)
else:
self.log(f'Unknown state: {new}')
def callback_light_on(self, entity=None, attribute=None, old=None, new=None, kwargs=None):
"""Called when the light turns on
"""
self.log('Light on callback')
self.cancel_motion_callback(new='on')
self.listen_motion_off(self.off_duration)
def callback_light_off(self, entity=None, attribute=None, old=None, new=None, kwargs=None):
"""Called when the light turns off
"""
self.log('Light off callback')
self.cancel_motion_callback(new='off')
self.listen_motion_on()
def activate(self, *args, **kwargs):
self.log('Activating')
scene = self.current_scene()
if isinstance(scene, str):
self.turn_on(scene)
self.log(f'Turned on scene: {scene}')
elif isinstance(scene, dict):
# makes setting the state to 'on' optional in the yaml definition
for entity, settings in scene.items():
if 'state' not in settings:
scene[entity]['state'] = 'on'
self.call_service('scene/apply', entities=scene, transition=0)
self.log(f'Applied scene: {scene}')
elif scene is None:
self.log(f'No scene, ignoring...')
# Need to act as if the light had just turned off to reset the motion (and maybe other things?)
self.callback_light_off()
else:
self.log(f'ERROR: unknown scene: {scene}')
def activate_all_off(self, *args, **kwargs):
if self.all_off:
self.activate()
else:
self.log(f'Skipped activating - everything is not off')
def activate_any_on(self, kwargs):
if self.any_on:
self.activate()
else:
self.log(f'Skipped activating - everything is not off')
def deactivate(self, *args, **kwargs):
self.log('Deactivating')
for entity in self.app_entities:
self.turn_off(entity)
self.log(f'Turned off {entity}')
def refresh_state_times(self, *args, **kwargs):
"""Resets the `self.states` attribute to a newly parsed version of the states.
Parsed states have an absolute time for a certain day.
"""
# re-parse the state strings into times for the current day
self.states = self.parse_states()
# schedule the transitions
for state in self.states:
dt = str(state['time'])[:8]
self.log(f'Scheduling transition at: {dt}')
try:
self.run_at(callback=self.activate_any_on, start=dt)
except ValueError:
# happens when the callback time is in the past
pass
except Exception as e:
self.log(f'Failed with {type(e)}: {e}')
def handle_button(self, event_name, data, kwargs):
# event 1002 is a single button press
if data['event'] == 1002:
self.log(f'{data["id"]} single click')
if self.entity_state:
self.deactivate()
else:
self.activate()
# event 1001 is a long press start
elif data['event'] == 1001:
self.log(f'{data["id"]} long press down')
if 'delay' in self.args and self.entity_state:
self.cancel_motion_callback(new='off')
self.listen_motion_off(self.delay)
self.turn_on(self.entity, brightness_pct=100)
# event 1004 is a double click
elif data['event'] == 1004:
self.log(f'{data["id"]} double click')
if 'sleep' in self.args:
self.sleep_bool = not self.sleep_bool
# self.cancel_motion_callback(new='off')
# self.callback_light_on()
self.activate()
def get_app_callbacks(self, name: str = None):
name = name or self.name
for app_name, callbacks in self.get_callback_entries().items():
if app_name == name:
return callbacks
def get_motion_callback(self):
return {
handle: info
for handle, info in self.get_app_callbacks().items()
if info['entity'] == self.sensor
}
def cancel_motion_callback(self, new: str):
for handle, info in self.get_motion_callback().items():
if f'new={new}' in info['kwargs']:
self.log(f'Cancelling callback for {info}')
self.cancel_listen_state(handle)

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room_control/__init__.py
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room_control/daylight_adjuster.py
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import logging
from dataclasses import InitVar, dataclass, field
from datetime import datetime, timedelta
from typing import Iterable
import matplotlib.dates as mdates
import matplotlib.pyplot as plt
import pandas as pd
import pvlib
def format_x_axis(fig):
ax: plt.Axes = fig.axes[0]
# ax.xaxis.axis_date(tz=HOME_TZ)
# logging.info(HOME_TZ)
ax.xaxis.set_major_locator(mdates.HourLocator(byhour=range(0, 24, 2)))
ax.xaxis.set_major_formatter(mdates.DateFormatter('%I%p'))
ax.grid(True)
fig.autofmt_xdate()
HOME_TZ = datetime.now().astimezone().tzinfo
@dataclass
class DaylightAdjuster:
location: pvlib.location.Location
brightness_range: Iterable[int] = field(default=(0, 100))
periods: InitVar[int] = field(default=200)
datetime: datetime = field(default_factory=datetime.now)
def __post_init__(self, periods: int):
self.logger: logging.Logger = logging.getLogger(type(self).__name__)
today = self.datetime.date()
times = pd.date_range(
today, today + timedelta(days=1),
periods=periods,
tz=HOME_TZ
)
self.logger.info(
f'{type(times).__name__}:\n' +
'\n'.join(f' {dt}' for dt in times[:5]) +
'\n ...\n' +
'\n'.join(f' {dt}' for dt in times[-5:])
)
df = self.location.get_solarposition(times)
df.index = df.index.tz_localize(None)
min_e, max_e = df['elevation'].min(), df['elevation'].max()
self.elevation_range = (min_e, max_e)
df['pct_elevation'] = (df['elevation'] - min_e) / (max_e - min_e)
df['brightness'] = (df['pct_elevation'] * (self.brightness_range[1] - self.brightness_range[0])
) + self.brightness_range[0]
# df['brightness'] = df['brightness'].round(0).astype(int)
self.df = df[['elevation', 'pct_elevation', 'brightness']]
@property
def elevation(self):
return self.df['elevation']
def elevation_fig(self):
fig, ax = plt.subplots(figsize=(10, 7))
handles = ax.plot(self.elevation)
ax.set_ylabel('Elevation')
ax.set_ylim(-100, 100)
format_x_axis(fig)
ax.set_xlim(self.df.index[0], self.df.index[-1])
ax2 = ax.twinx()
handles.extend(ax2.plot(
self.df['brightness'], 'r',
# drawstyle='steps'
))
ax2.set_ylabel('Brightness')
ax2.set_ylim(0, 255)
handles.append(ax.axvline(datetime.now(),
linestyle='--',
color='g'))
handles.append(ax2.axhline(self.get_brightness(),
linestyle='--',
color='r'))
handles.append(ax.axhline(self.get_elevation(),
linestyle='--',
color=handles[0].get_color()))
ax.legend(handles=handles, loc='lower center', labels=[
'Sun Elevation Angle',
'Brightness Setting',
'Current Time',
'Current Brightness',
'Current Elevation'
])
fig.tight_layout()
plt.close(fig)
return fig
def get_solar_position(self, dt: datetime = None):
dt = dt or datetime.now()
if dt.tzinfo is None:
dt = dt.replace(tzinfo=HOME_TZ)
return pvlib.solarposition.get_solarposition(
dt.astimezone(None),
latitude=self.location.latitude,
longitude=self.location.longitude
)
def get_elevation(self, time=None):
time = time or datetime.now()
return self.get_solar_position(dt=time).iloc[0].loc['elevation']
def get_brightness(self, time=None):
time = time or datetime.now()
min_e, max_e = self.elevation_range
rng_e = max_e - min_e
min_b, max_b = self.brightness_range
rng_b = max_b - min_b
current_elevation = self.get_elevation(time=time)
pct = (current_elevation - min_e) / rng_e
current_brightness = (pct * rng_b) + min_b
# self.logger.info(time)
# self.logger.info(f'Elevation: {current_elevation:.0f}, {pct*100:.1f}%')
# self.logger.info(f'Brightness: {current_brightness:.0f}')
print(time)
print(f'Elevation: {current_elevation:.0f}, {pct*100:.1f}%')
print(f'Brightness: {current_brightness:.0f}')
return int(round(current_brightness))