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- #!/usr/bin/env python3
-
- # ----------------------------------------------------------------------------
- # "THE BEER-WARE LICENSE" (Revision 42):
- # <xythobuz@xythobuz.de> wrote this file. As long as you retain this notice
- # you can do whatever you want with this stuff. If we meet some day, and you
- # think this stuff is worth it, you can buy me a beer in return. Thomas Buck
- # ----------------------------------------------------------------------------
-
- import util
- from image import ImageScreen
-
- import time
- from datetime import datetime, timezone, timedelta
-
- from wetterdienst import Settings
- from wetterdienst.provider.dwd.mosmix import (
- DwdForecastDate,
- DwdMosmixRequest,
- DwdMosmixType,
- )
- import polars
-
- def get_first_capitalized_word(s):
- words = s.split()
- for w in words:
- if w[0].isupper():
- return w
- return None
-
- class WeatherScreen:
- def __init__(self, g, i, latlon, timestep = 5.0, refresh = (60.0 * 60.0)):
- self.gui = g
- self.input = i
- self.latlon = latlon
- self.timestep = timestep
-
- DrawText = util.getTextDrawer()
- self.t_head = DrawText(self.gui, (255, 255, 255), (0, 0, 0))
- self.t_sub = DrawText(self.gui, (0, 255, 255), (0, 0, 0))
- self.t_val = DrawText(self.gui, (255, 0, 255), (0, 0, 0))
- self.t_aux = DrawText(self.gui, (255, 255, 0), (0, 0, 0))
-
- self.params = [
- "weather_significant",
- "temperature_air_mean_200",
- "cloud_cover_effective",
- ]
- self.num_state = 4
-
- self.descriptions = [
- (95, 'leichtes oder mäßiges Gewitter mit Regen oder Schnee', 'weather_icon_95.png'),
- (57, 'mäßiger oder starker gefrierender Sprühregen', 'weather_icon_57.png'),
- (56, 'leichter gefrierender Sprühregen', 'weather_icon_56.png'),
- (67, 'mäßiger bis starker gefrierender Regen', 'weather_icon_67.png'),
- (66, 'leichter gefrierender Regen', 'weather_icon_66.png'),
- (86, 'mäßiger bis starker Schneeschauer', 'weather_icon_86.png'),
- (85, 'leichter Schneeschauer', 'weather_icon_85.png'),
- (84, 'mäßiger oder starker Schneeregenschauer', 'weather_icon_84.png'),
- (83, 'leichter Schneeregenschauer', 'weather_icon_83.png'),
- (82, 'äußerst heftiger Regenschauer', 'weather_icon_82.png'),
- (81, 'mäßiger oder starker Regenschauer', 'weather_icon_81.png'),
- (80, 'leichter Regenschauer', 'weather_icon_80.png'),
- (75, 'durchgehend starker Schneefall', 'weather_icon_75.png'),
- (73, 'durchgehend mäßiger Schneefall', 'weather_icon_73.png'),
- (71, 'durchgehend leichter Schneefall', 'weather_icon_71.png'),
- (69, 'mäßger oder starker Schneeregen', 'weather_icon_69.png'),
- (68, 'leichter Schneeregen', 'weather_icon_68.png'),
- (55, 'durchgehend starker Sprühregen', 'weather_icon_55.png'),
- (53, 'durchgehend mäßiger Sprühregen', 'weather_icon_53.png'),
- (51, 'durchgehend leichter Sprühregen', 'weather_icon_51.png'),
- (65, 'durchgehend starker Regen', 'weather_icon_65.png'),
- (63, 'durchgehend mäßiger Regen', 'weather_icon_63.png'),
- (61, 'durchgehend leichter Regen', 'weather_icon_61.png'),
- (49, 'Nebel mit Reifansatz, Himmel nicht erkennbar, unverändert', 'weather_icon_49.png'),
- (45, 'Nebel, Himmel nicht erkennbar', 'weather_icon_45.png'),
- (3, 'Bewölkung zunehmend', None),
- (2, 'Bewölkung unverändert', None),
- (1, 'Bewölkung abnehmend', None),
- (0, 'keine Bewölkungsentwicklung', None),
- ]
-
- self.find_station()
- self.restart()
-
- def restart(self):
- self.state = 0
- self.old_keys = {
- "left": False,
- "right": False,
- "up": False,
- "down": False,
- "a": False,
- "b": False,
- "x": False,
- "y": False,
- "l": False,
- "r": False,
- "start": False,
- "select": False,
- }
- self.done = False
- self.last = time.time()
-
- def find_station(self):
- self.gui.loop_start()
- self.t_head.setText("Weather:", "lemon")
- self.t_head.draw(3, -self.gui.height / 2 + 7)
- self.t_sub.setText("Loading...", "tom-thumb")
- self.t_sub.draw(0, -self.gui.height / 2 + 5 + 6 * 4)
- self.t_val.setText("Station...", "tom-thumb")
- self.t_val.draw(0, -self.gui.height / 2 + 5 + 6 * 6)
- self.gui.loop_end()
-
- settings = Settings(ts_shape=True, ts_humanize=True, cache_disable=False)
- request = DwdMosmixRequest(
- parameter=self.params,
- start_issue=DwdForecastDate.LATEST,
- mosmix_type=DwdMosmixType.LARGE,
- settings=settings,
- )
- stations = request.filter_by_distance(latlon=self.latlon, distance=30)
- self.station = stations.df[0]
-
- print("Found station '{}' ({}) in {:.2f} km distance".format(
- self.station["name"][0],
- self.station["station_id"][0],
- self.station["distance"][0]
- ))
-
- self.forecast = request.filter_by_station_id(station_id=[
- self.station["station_id"][0],
- ])
- self.parse_forecast()
-
- def get_forecast(self):
- self.gui.loop_start()
- self.t_head.setText("Weather:", "lemon")
- self.t_head.draw(3, -self.gui.height / 2 + 7)
- self.t_sub.setText("Loading...", "tom-thumb")
- self.t_sub.draw(0, -self.gui.height / 2 + 5 + 6 * 4)
- self.t_val.setText("Refresh...", "tom-thumb")
- self.t_val.draw(0, -self.gui.height / 2 + 5 + 6 * 6)
- self.gui.loop_end()
-
- settings = Settings(ts_shape=True, ts_humanize=True, cache_disable=False)
- request = DwdMosmixRequest(
- parameter=self.params,
- start_issue=DwdForecastDate.LATEST,
- mosmix_type=DwdMosmixType.LARGE,
- settings=settings,
- )
- self.forecast = request.filter_by_station_id(station_id=[self.station["station_id"][0]])
- self.parse_forecast()
-
- def parse_forecast(self):
- self.gui.loop_start()
- self.t_head.setText("Weather:", "lemon")
- self.t_head.draw(3, -self.gui.height / 2 + 7)
- self.t_sub.setText("Parsing", "tom-thumb")
- self.t_sub.draw(0, -self.gui.height / 2 + 5 + 6 * 4)
- self.t_val.setText("Forecast", "tom-thumb")
- self.t_val.draw(0, -self.gui.height / 2 + 5 + 6 * 6)
- self.gui.loop_end()
-
- self.last_forecast = time.time()
-
- response = next(self.forecast.values.query())
- response_subset = response.df.select(["date", "parameter", "value"])
-
- # only datapoints from -1h to +12h from now
- start_time = datetime.now(timezone.utc) - timedelta(hours=1)
- end_time = datetime.now(timezone.utc) + timedelta(hours=12)
- self.data = response_subset.filter((polars.col("date") >= start_time) & (polars.col("date") <= end_time))
-
- #print(self.data)
- #for p in self.params:
- # print(self.data.filter(polars.col("parameter") == p)[0])
- #for i in range(0, len(self.data)):
- # print(self.data[i])
-
- def buttons(self):
- keys = self.input.get()
-
- if keys["up"] and (not self.old_keys["up"]) and (not self.old_keys["select"]):
- self.state = (self.state + 1) % self.num_state
- self.last = time.time()
- elif keys["down"] and (not self.old_keys["down"]) and (not self.old_keys["select"]):
- self.state = (self.state - 1) % self.num_state
- self.last = time.time()
-
- self.old_keys = keys.copy()
-
- def finished(self):
- return self.done
-
- def draw_station_info(self):
- # heading
- self.t_head.setText("Weather:", "lemon")
- self.t_head.draw(3, -self.gui.height / 2 + 7)
-
- # station info (2 lines)
- self.t_sub.setText(self.station["name"][0], "tom-thumb")
- self.t_sub.draw(0, -self.gui.height / 2 + 5 + 6 * 2)
- self.t_sub.draw(self.gui.width, -self.gui.height / 2 + 5 + 6 * 3)
-
- # distance
- self.t_val.setText("Distance:", "tom-thumb")
- self.t_val.draw(0, -self.gui.height / 2 + 5 + 6 * 5)
- self.t_val.setText("{:.2f} km".format(self.station["distance"][0]), "tom-thumb")
- self.t_val.draw(0, -self.gui.height / 2 + 5 + 6 * 6)
-
- # lat lon
- self.t_aux.setText("Lat: {:.2f}".format(self.station["latitude"][0]), "tom-thumb")
- self.t_aux.draw(0, -self.gui.height / 2 + 5 + 6 * 8)
- self.t_aux.setText("Lon: {:.2f}".format(self.station["longitude"][0]), "tom-thumb")
- self.t_aux.draw(0, -self.gui.height / 2 + 5 + 6 * 9)
-
- def draw_weather(self):
- # heading
- self.t_head.setText("Weather:", "lemon")
- self.t_head.draw(3, -self.gui.height / 2 + 7)
-
- # convert weather id
- val = self.data.filter(polars.col("parameter") == self.params[0])[0]["value"][0]
- name = "ID {} Unknown".format(val)
- img = None
- for i, d in enumerate(self.descriptions):
- if d[0] != val:
- continue
-
- if isinstance(d[2], str):
- w = 50
- target_size = (w, w)
- iscr = ImageScreen(self.gui, d[2], 0.2, 1, 5.0, None, target_size, False)
- self.descriptions[i] = (d[0], d[1], iscr)
- iscr.xOff = (self.gui.width - w) / 2
- iscr.yOff = self.gui.height - w + 5
- img = iscr
- else:
- img = d[2]
-
- name = get_first_capitalized_word(d[1])
-
- # print weather description text
- self.t_sub.setText(name, "tom-thumb")
- self.t_sub.draw(0, -self.gui.height / 2 + 5 + 6 * 1 + 2)
- #self.t_sub.draw(0, -self.gui.height / 2 + 5 + 6 * 2)
- #self.t_sub.draw(self.gui.width, -self.gui.height / 2 + 5 + 6 * 3)
- #self.t_sub.draw(self.gui.width * 2, -self.gui.height / 2 + 5 + 6 * 4)
-
- # show image if it exists
- if img != None:
- img.draw()
-
- # id of weather / image
- self.t_aux.setText("{}".format(int(val)), "tom-thumb")
- self.t_aux.draw(0, -self.gui.height / 2 + 5 + 6 * 9 + 3)
-
- def draw_temperature(self):
- # heading
- self.t_head.setText("Temps:", "lemon")
- self.t_head.draw(3, -self.gui.height / 2 + 7)
- self.t_sub.setText("Current:", "lemon")
- self.t_sub.draw(3, -self.gui.height / 2 + 20)
-
- # current temperature
- val = self.data.filter(polars.col("parameter") == self.params[1])[0]["value"][0]
- val = val - 273.15 # kelvin to celsius
- self.t_val.setText("{:.1f}°C".format(val), "tom-thumb")
- self.t_val.draw(0, -self.gui.height / 2 + 5 + 6 * 5)
-
- def draw_cloud_cover(self):
- # heading
- self.t_head.setText("Cloud", "lemon")
- self.t_head.draw(3, -self.gui.height / 2 + 7)
- self.t_sub.setText("Coverage:", "lemon")
- self.t_sub.draw(3, -self.gui.height / 2 + 20)
-
- val = self.data.filter(polars.col("parameter") == self.params[2])[0]["value"][0]
- self.t_val.setText("{:.1f}%".format(val), "tom-thumb")
- self.t_val.draw(0, -self.gui.height / 2 + 5 + 6 * 5)
-
- def draw(self):
- # handle button input
- if self.input != None:
- self.buttons()
-
- # draw screen contents
- if self.state == 0:
- self.draw_station_info()
- elif self.state == 1:
- self.draw_weather()
- elif self.state == 2:
- self.draw_temperature()
- elif self.state == 3:
- self.draw_cloud_cover()
-
- # advance to next screen after time has passed
- if (time.time() - self.last) >= self.timestep:
- self.state = (self.state + 1) % self.num_state
- if self.state == 0:
- self.done = True
- self.last = time.time()
-
- # draw progress bar on bottom most row
- elapsed = (time.time() - self.last)
- ratio = elapsed / self.timestep
- for i in range(0, int(ratio * self.gui.width) + 1):
- self.gui.set_pixel(i, self.gui.height - 1, (0, 255, 0))
-
- if __name__ == "__main__":
- from config import Config
-
- i = util.getInput()
- t = util.getTarget(i)
-
- s = WeatherScreen(t, i, Config.weather_latlon, 5.0, 60.0 * 10.0)
- util.loop(t, s.draw)
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