+#!/usr/bin/env python3
+
from datetime import datetime
-import file_writer
-import renderer
import json
import re
-import secrets
+from typing import Dict, List
import urllib.request, urllib.error, urllib.parse
+
+import file_writer
+import renderer
+import secrets
import random
+
class weather_renderer(renderer.debuggable_abstaining_renderer):
"""A renderer to fetch forecast from wunderground."""
- def __init__(self,
- name_to_timeout_dict,
- file_prefix):
+ def __init__(self, name_to_timeout_dict: Dict[str, int], file_prefix: str) -> None:
super(weather_renderer, self).__init__(name_to_timeout_dict, False)
self.file_prefix = file_prefix
- def debug_prefix(self):
- return "weather(%s)" % (self.file_prefix)
+ def debug_prefix(self) -> str:
+ return f"weather({self.file_prefix})"
- def periodic_render(self, key):
+ def periodic_render(self, key: str) -> bool:
return self.fetch_weather()
- def describe_time(self, index):
- if (index <= 1):
+ def describe_time(self, index: int) -> str:
+ if index <= 1:
return "overnight"
- elif (index <= 3):
+ elif index <= 3:
return "morning"
- elif (index <= 5):
+ elif index <= 5:
return "afternoon"
else:
return "evening"
- def describe_wind(self, mph):
+ def describe_wind(self, mph: float) -> str:
if mph <= 0.3:
return "calm"
elif mph <= 5.0:
else:
return "heavy"
- def describe_magnitude(self, mm):
- if (mm < 2):
+ def describe_magnitude(self, mm: float) -> str:
+ if mm < 2.0:
return "light"
- elif (mm < 10):
+ elif mm < 10.0:
return "moderate"
else:
return "heavy"
- def describe_precip(self, rain, snow):
- if rain == 0 and snow == 0:
+ def describe_precip(self, rain: float, snow: float) -> str:
+ if rain == 0.0 and snow == 0.0:
return "no precipitation"
magnitude = rain + snow
if rain > 0 and snow > 0:
- return "a %s mix of rain and snow" % self.describe_magnitude(magnitude)
+ return f"a {self.describe_magnitude(magnitude)} mix of rain and snow"
elif rain > 0:
- return "%s rain" % self.describe_magnitude(magnitude)
+ return f"{self.describe_magnitude(magnitude)} rain"
elif snow > 0:
- return "%s snow" % self.describe_magnitude(magnitude)
+ return f"{self.describe_magnitude(magnitude)} snow"
+ return "rain"
- def fix_caps(self, s):
+ def fix_caps(self, s: str) -> str:
r = ""
s = s.lower()
for x in s.split("."):
r = r.replace(". .", ".")
return r
- def pick_icon(self, conditions, rain, snow):
+ def pick_icon(
+ self, conditions: List[str], rain: List[float], snow: List[float]
+ ) -> str:
# rain snow clouds sun
# fog.gif
# hazy.gif
seen_snow = False
cloud_count = 0
clear_count = 0
- total_snow = 0
+ total_snow = 0.0
count = min(len(conditions), len(rain), len(snow))
for x in range(0, count):
- seen_rain = rain[x] > 0;
- seen_snow = snow[x] > 0;
+ seen_rain = rain[x] > 0
+ seen_snow = snow[x] > 0
total_snow += snow[x]
txt = conditions[x].lower()
- if ("cloud" in txt):
+ if "cloud" in txt:
cloud_count += 1
- if ("clear" in txt or "sun" in txt):
+ if "clear" in txt or "sun" in txt:
clear_count += 1
- if (seen_rain and seen_snow):
- if (total_snow < 10):
+ if seen_rain and seen_snow:
+ if total_snow < 10:
return "sleet.gif"
else:
return "snow.gif"
- if (seen_snow):
- if (total_snow < 10):
+ if seen_snow:
+ if total_snow < 10:
return "flurries.gif"
else:
return "snow.gif"
- if (seen_rain):
+ if seen_rain:
return "rain.gif"
- if (cloud_count >= 6):
+ if cloud_count >= 6:
return "mostlycloudy.gif"
- elif (cloud_count >= 4):
+ elif cloud_count >= 4:
return "partlycloudy.gif"
- if (clear_count >= 7):
+ if clear_count >= 7:
return "sunny.gif"
- elif (clear_count >= 6):
+ elif clear_count >= 6:
return "mostlysunny.gif"
- elif (clear_count >= 4):
+ elif clear_count >= 4:
return "partlysunny.gif"
return "clear.gif"
- def describe_weather(self,
- high, low,
- wind, conditions, rain, snow):
+ def describe_weather(
+ self,
+ high: float,
+ low: float,
+ wind: List[float],
+ conditions: List[str],
+ rain: List[float],
+ snow: List[float],
+ ) -> str:
# High temp: 65
# Low temp: 44
# -onight------ -morning----- -afternoon-- -evening----
elif txt == "Rain":
txt = "rainy"
- if (txt != lcondition):
+ if txt != lcondition:
if txt != "Snow" and txt != "Rain":
current += txt
chunks += 1
lcondition = txt
txt = self.describe_wind(wind[x])
- if (txt != lwind):
- if (len(current) > 0):
+ if txt != lwind:
+ if len(current) > 0:
current += " with "
current += txt + " winds"
lwind = txt
chunks += 1
txt = self.describe_precip(rain[x], snow[x])
- if (txt != lprecip):
- if (len(current) > 0):
- if (chunks > 1):
+ if txt != lprecip:
+ if len(current) > 0:
+ if chunks > 1:
current += " and "
else:
current += " with "
current += txt
lprecip = txt
- if (len(current)):
- if (ltime != time):
- if (random.randint(0, 3) == 0):
- if (time != "overnight"):
+ if len(current):
+ if ltime != time:
+ if random.randint(0, 3) == 0:
+ if time != "overnight":
descr += current + " in the " + time + ". "
descr += current + " overnight. "
else:
- if (time != "overnight"):
+ if time != "overnight":
descr += "In the "
descr += time + ", " + current + ". "
else:
current = current.replace("cloudy", "clouds")
descr += current + " developing. "
ltime = time
- if (ltime == "overnight" or ltime == "morning"):
+ if ltime == "overnight" or ltime == "morning":
descr += "Conditions continuing the rest of the day. "
descr = descr.replace("with breezy winds", "and breezy")
descr = descr.replace("Clear developing", "Skies clearing")
descr = self.fix_caps(descr)
return descr
- def fetch_weather(self):
+ def fetch_weather(self) -> bool:
if self.file_prefix == "stevens":
text_location = "Stevens Pass, WA"
param = "lat=47.74&lon=-121.08"
text_location = "Bellevue, WA"
param = "id=5786882"
- www = urllib.request.urlopen('http://api.openweathermap.org/data/2.5/forecast?%s&APPID=%s&units=imperial' % (
- param, secrets.openweather_key))
+ www = urllib.request.urlopen(
+ "http://api.openweathermap.org/data/2.5/forecast?%s&APPID=%s&units=imperial"
+ % (param, secrets.openweather_key)
+ )
response = www.read()
www.close()
parsed_json = json.loads(response)
# "dt_txt":"2017-01-30 18:00:00"
# },
# {"dt":1485810000,....
- f = file_writer.file_writer('weather-%s_3_10800.html' % self.file_prefix)
- f.write("""
-<h1>Weather at %s:</h1>
+ with file_writer.file_writer("weather-%s_3_10800.html" % self.file_prefix) as f:
+ f.write(
+ f"""
+<h1>Weather at {text_location}:</h1>
<hr>
<center>
-<table width=99%% cellspacing=10 border=0>
- <tr>""" % text_location)
- count = parsed_json['cnt']
-
- ts = {}
- highs = {}
- lows = {}
- wind = {}
- conditions = {}
- rain = {}
- snow = {}
- for x in range(0, count):
- data = parsed_json['list'][x]
- dt = data['dt_txt'] # 2019-10-07 18:00:00
- date = dt.split(" ")[0]
- time = dt.split(" ")[1]
- wind[date] = []
- conditions[date] = []
- highs[date] = -99999
- lows[date] = +99999
- rain[date] = []
- snow[date] = []
- ts[date] = 0
-
- for x in range(0, count):
- data = parsed_json['list'][x]
- dt = data['dt_txt'] # 2019-10-07 18:00:00
- date = dt.split(" ")[0]
- time = dt.split(" ")[1]
- _ = data['dt']
- if (_ > ts[date]):
- ts[date] = _
- temp = data["main"]["temp"]
- if (highs[date] < temp):
- highs[date] = temp
- if (temp < lows[date]):
- lows[date] = temp
- wind[date].append(data["wind"]["speed"])
- conditions[date].append(data["weather"][0]["main"])
- if "rain" in data and "3h" in data["rain"]:
- rain[date].append(data["rain"]["3h"])
- else:
- rain[date].append(0)
- if "snow" in data and "3h" in data["snow"]:
- snow[date].append(data["snow"]["3h"])
- else:
- snow[date].append(0)
-
- # {u'clouds': {u'all': 0},
- # u'sys': {u'pod': u'd'},
- # u'dt_txt': u'2019-10-09 21:00:00',
- # u'weather': [
- # {u'main': u'Clear',
- # u'id': 800,
- # u'icon': u'01d',
- # u'description': u'clear sky'}
- # ],
- # u'dt': 1570654800,
- # u'main': {
- # u'temp_kf': 0,
- # u'temp': 54.74,
- # u'grnd_level': 1018.95,
- # u'temp_max': 54.74,
- # u'sea_level': 1026.46,
- # u'humidity': 37,
- # u'pressure': 1026.46,
- # u'temp_min': 54.74
- # },
- # u'wind': {u'speed': 6.31, u'deg': 10.09}}
-
- # Next 5 half-days
- #for x in xrange(0, 5):
- # fcast = parsed_json['forecast']['txt_forecast']['forecastday'][x]
- # text = fcast['fcttext']
- # text = re.subn(r' ([0-9]+)F', r' \1°F', text)[0]
- # f.write('<td style="vertical-align:top;font-size:75%%"><P STYLE="padding:8px;">%s</P></td>' % text)
- #f.write('</tr></table>')
- #f.close()
- #return True
-
- #f.write("<table border=0 cellspacing=10>\n")
- days_seen = {}
- for date in sorted(highs.keys()):
- today = datetime.fromtimestamp(ts[date])
- formatted_date = today.strftime('%a %e %b')
- if (formatted_date in days_seen):
- continue;
- days_seen[formatted_date] = True
- num_days = len(list(days_seen.keys()))
-
- days_seen = {}
- for date in sorted(highs.keys()):
- precip = 0.0
- for _ in rain[date]:
- precip += _
- for _ in snow[date]:
- precip += _
-
- today = datetime.fromtimestamp(ts[date])
- formatted_date = today.strftime('%a %e %b')
- if (formatted_date in days_seen):
- continue;
- days_seen[formatted_date] = True
- f.write('<td width=%d%% style="vertical-align:top;">\n' % (100 / num_days))
- f.write('<table border=0>\n')
-
- # Date
- f.write(' <tr><td colspan=3 height=50><b><center><font size=6>' + formatted_date + '</font></center></b></td></tr>\n')
-
- # Icon
- f.write(' <tr><td colspan=3 height=100><center><img src="/icons/weather/%s" height=125></center></td></tr>\n' %
- self.pick_icon(conditions[date], rain[date], snow[date]))
-
- # Low temp
- color = "#000099"
- if (lows[date] <= 32.5):
- color = "#009999"
- f.write(' <tr><td width=33%% align=left><font color="%s"><b>%d°F </b></font></td>\n' % (
- color, int(lows[date])))
-
- # Total precip
- precip *= 0.0393701
- if (precip > 0.025):
- f.write(' <td width=33%%><center><b><font style="background-color:#dfdfff; color:#003355">%3.1f"</font></b></center></td>\n' % precip)
- else:
- f.write(' <td width=33%> </td>\n')
-
- # High temp
- color = "#800000"
- if (highs[date] >= 80):
- color = "#AA0000"
- f.write(' <td align=right><font color="%s"><b> %d°F</b></font></td></tr>\n' % (
- color, int(highs[date])))
-
- # Text "description"
- f.write('<tr><td colspan=3 style="vertical-align:top;font-size:75%%">%s</td></tr>\n' %
- self.describe_weather(highs[date], lows[date], wind[date], conditions[date], rain[date], snow[date]))
- f.write('</table>\n</td>\n')
- f.write("</tr></table></center>")
+<table width=99% cellspacing=10 border=0>
+ <tr>"""
+ )
+ count = parsed_json["cnt"]
+
+ ts = {}
+ highs = {}
+ lows = {}
+ wind: Dict[str, List[float]] = {}
+ conditions: Dict[str, List[str]] = {}
+ rain: Dict[str, List[float]] = {}
+ snow: Dict[str, List[float]] = {}
+ for x in range(0, count):
+ data = parsed_json["list"][x]
+ dt = data["dt_txt"] # 2019-10-07 18:00:00
+ date = dt.split(" ")[0]
+ time = dt.split(" ")[1]
+ wind[date] = []
+ conditions[date] = []
+ highs[date] = -99999
+ lows[date] = +99999
+ rain[date] = []
+ snow[date] = []
+ ts[date] = 0
+
+ for x in range(0, count):
+ data = parsed_json["list"][x]
+ dt = data["dt_txt"] # 2019-10-07 18:00:00
+ date = dt.split(" ")[0]
+ time = dt.split(" ")[1]
+ _ = data["dt"]
+ if _ > ts[date]:
+ ts[date] = _
+ temp = data["main"]["temp"]
+ if highs[date] < temp:
+ highs[date] = temp
+ if temp < lows[date]:
+ lows[date] = temp
+ wind[date].append(data["wind"]["speed"])
+ conditions[date].append(data["weather"][0]["main"])
+ if "rain" in data and "3h" in data["rain"]:
+ rain[date].append(data["rain"]["3h"])
+ else:
+ rain[date].append(0)
+ if "snow" in data and "3h" in data["snow"]:
+ snow[date].append(data["snow"]["3h"])
+ else:
+ snow[date].append(0)
+
+ # {u'clouds': {u'all': 0},
+ # u'sys': {u'pod': u'd'},
+ # u'dt_txt': u'2019-10-09 21:00:00',
+ # u'weather': [
+ # {u'main': u'Clear',
+ # u'id': 800,
+ # u'icon': u'01d',
+ # u'description': u'clear sky'}
+ # ],
+ # u'dt': 1570654800,
+ # u'main': {
+ # u'temp_kf': 0,
+ # u'temp': 54.74,
+ # u'grnd_level': 1018.95,
+ # u'temp_max': 54.74,
+ # u'sea_level': 1026.46,
+ # u'humidity': 37,
+ # u'pressure': 1026.46,
+ # u'temp_min': 54.74
+ # },
+ # u'wind': {u'speed': 6.31, u'deg': 10.09}}
+
+ # Next 5 half-days
+ # for x in xrange(0, 5):
+ # fcast = parsed_json['forecast']['txt_forecast']['forecastday'][x]
+ # text = fcast['fcttext']
+ # text = re.subn(r' ([0-9]+)F', r' \1°F', text)[0]
+ # f.write('<td style="vertical-align:top;font-size:75%%"><P STYLE="padding:8px;">%s</P></td>' % text)
+ # f.write('</tr></table>')
+ # f.close()
+ # return True
+
+ # f.write("<table border=0 cellspacing=10>\n")
+ days_seen = {}
+ for date in sorted(highs.keys()):
+ today = datetime.fromtimestamp(ts[date])
+ formatted_date = today.strftime("%a %e %b")
+ if formatted_date in days_seen:
+ continue
+ days_seen[formatted_date] = True
+ num_days = len(list(days_seen.keys()))
+
+ days_seen = {}
+ for date in sorted(highs.keys()):
+ precip = 0.0
+ for _ in rain[date]:
+ precip += _
+ for _ in snow[date]:
+ precip += _
+
+ today = datetime.fromtimestamp(ts[date])
+ formatted_date = today.strftime("%a %e %b")
+ if formatted_date in days_seen:
+ continue
+ days_seen[formatted_date] = True
+ f.write(
+ '<td width=%d%% style="vertical-align:top;">\n' % (100 / num_days)
+ )
+ f.write("<table border=0>\n")
+
+ # Date
+ f.write(
+ " <tr><td colspan=3 height=50><b><center><font size=6>"
+ + formatted_date
+ + "</font></center></b></td></tr>\n"
+ )
+
+ # Icon
+ f.write(
+ ' <tr><td colspan=3 height=100><center><img src="/kiosk/pages/images/weather/%s" height=125></center></td></tr>\n'
+ % self.pick_icon(conditions[date], rain[date], snow[date])
+ )
+
+ # Low temp
+ color = "#000099"
+ if lows[date] <= 32.5:
+ color = "#009999"
+ f.write(
+ ' <tr><td width=33%% align=left><font color="%s"><b>%d°F </b></font></td>\n'
+ % (color, int(lows[date]))
+ )
+
+ # Total precip
+ precip *= 0.0393701
+ if precip > 0.025:
+ f.write(
+ ' <td width=33%%><center><b><font style="background-color:#dfdfff; color:#003355">%3.1f"</font></b></center></td>\n'
+ % precip
+ )
+ else:
+ f.write(" <td width=33%> </td>\n")
+
+ # High temp
+ color = "#800000"
+ if highs[date] >= 80:
+ color = "#AA0000"
+ f.write(
+ ' <td align=right><font color="%s"><b> %d°F</b></font></td></tr>\n'
+ % (color, int(highs[date]))
+ )
+
+ # Text "description"
+ f.write(
+ '<tr><td colspan=3 style="vertical-align:top;font-size:75%%">%s</td></tr>\n'
+ % self.describe_weather(
+ highs[date],
+ lows[date],
+ wind[date],
+ conditions[date],
+ rain[date],
+ snow[date],
+ )
+ )
+ f.write("</table>\n</td>\n")
+ f.write("</tr></table></center>")
return True
-#x = weather_renderer({"Stevens": 1000},
-# "stevens")
-#x.periodic_render("Stevens")
+
+# x = weather_renderer({"Stevens": 1000}, "stevens")
+# x.periodic_render("Stevens")