import logging from contextlib import suppress from dataclasses import InitVar, dataclass, field from datetime import datetime, timedelta from typing import Dict, Iterable import astral import matplotlib.dates as mdates import matplotlib.pyplot as plt import pandas as pd from astral import Observer, SunDirection from astral.sun import elevation, sun, time_at_elevation from IPython.display import display HOME_TZ = datetime.now().astimezone().tzinfo def format_x_axis(fig): ax: plt.Axes = fig.axes[0] # 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() def normalize(s: pd.Series, min=None, max=None): min = min or s.min() max = max or s.max() rng = max - min return ((s - min) / rng) * 100 def parse_periods(observer: Observer, periods: Dict): for period in periods: if 'elevation' in period: if period['direction'] == 'rising': dir = SunDirection.RISING elif period['direction'] == 'setting': dir = SunDirection.SETTING if isinstance(period['elevation'], int): time = time_at_elevation( observer, elevation=period['elevation'], direction=dir, tzinfo=HOME_TZ, ) elif period['elevation'] == 'min': pass elif period['elevation'] == 'max': pass elif 'time' in period: try: time = sun(observer, datetime.today().date())[period['time']].astimezone() except: time = datetime.combine( datetime.today().date(), datetime.strptime(period['time'], '%I:%M:%S%p').time() ).astimezone() res = {'time': time.replace(tzinfo=None)} # res = {'time': time.replace(tzinfo=HOME_TZ)} # res = {'time': time} res.update({k: period[k] for k in ['brightness', 'color_temp'] if k in period}) yield res @dataclass class DaylightAdjuster: latitude: float longitude: float periods: InitVar[Dict] datetime: datetime = field(default_factory=datetime.now) resolution: InitVar[int] = field(default=200) def __post_init__(self, periods: Dict, resolution: int): self.logger: logging.Logger = logging.getLogger(type(self).__name__) today = self.datetime.date() times = pd.date_range( today, today + timedelta(days=1), periods=resolution, tz=HOME_TZ ) pytimes = [dt.to_pydatetime() for dt in times] el = pd.Series( (elevation(self.observer, dt) for dt in pytimes), times, name='elevation' ) # el.index = el.index.tz_convert(HOME_TZ) # el.index = el.index.tz_convert(None) self.df = pd.DataFrame(el) # self.df = pd.concat([ # pd.DataFrame(parse_periods(self.observer, periods)).set_index('time'), # el # ], axis=1).sort_index().interpolate().bfill().ffill() # self.df.index = self.df.index.to_series().dt.tz_localize(None) # print('Done making daylight_adjuster') @property def observer(self) -> astral.Observer: return astral.Observer(self.latitude, self.longitude) @property def current_settings(self) -> pd.Series: return self.df[:datetime.now().astimezone()].iloc[0].drop('elevation').astype(int).to_dict() def elevation_fig(self): fig, ax = plt.subplots(figsize=(10, 7)) handles = ax.plot(self.df['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(normalize(self.df['brightness'], 1, 255), 'tab:orange')) # handles.extend(ax2.plot(normalize(self.df['color_temp'], 1, 255), 'tab:green')) ax2.set_ylabel('Brightness') ax2.set_ylim(0, 100) # 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', 'Color Temp Setting', 'Current Time', # 'Current Brightness', # 'Current Elevation' ]) fig.tight_layout() plt.close(fig) return fig