wttr.in/lib/wttr_line.py

292 lines
6.9 KiB
Python

#vim: fileencoding=utf-8
"""
One-line output mode.
Initial implementation of one-line output mode.
[ ] forecast
[ ] spark
[ ] several locations
[ ] location handling
[ ] more preconfigured format lines
[ ] add information about this mode to /:help
"""
import sys
import re
import datetime
import json
from astral import Astral, Location
from constants import WWO_CODE, WEATHER_SYMBOL, WIND_DIRECTION
from weather_data import get_weather_data
import spark
PRECONFIGURED_FORMAT = {
'1': u'%c %t',
'2': u'%c 🌡️%t 🌬️%w',
'3': u'%l: %c %t',
'4': u'%l: %c 🌡️%t 🌬️%w',
}
MOON_PHASES = (
u"🌑", u"🌒", u"🌓", u"🌔", u"🌕", u"🌖", u"🌗", u"🌘"
)
def convert_to_fahrenheit(temp):
"Convert Celcius `temp` to Fahrenheit"
return (temp*9.0/5)+32
def render_temperature(data, query):
"""
temperature (t)
"""
if query.get('use_imperial', False):
temperature = u'%s°F' % data['temp_F']
else:
temperature = u'%s°C' % data['temp_C']
if temperature[0] != '-':
temperature = '+' + temperature
return temperature
def render_condition(data, query):
"""
condition (c)
"""
weather_condition = WEATHER_SYMBOL[WWO_CODE[data['weatherCode']]]
return weather_condition
def render_condition_fullname(data, query):
"""
condition_fullname (C)
"""
found = None
for key, val in data.items():
if key.startswith('lang_'):
found = val
break
if not found:
found = data['weatherDesc']
try:
weather_condition = found[0]['value']
except KeyError:
weather_condition = ''
return weather_condition
def render_humidity(data, query):
"""
humidity (h)
"""
humidity = data.get('humidity', '')
if humidity:
humidity += '%'
return humidity
def render_precipitation(data, query):
"""
precipitation (p)
"""
answer = data.get('precipMM', '')
if answer:
answer += 'mm'
return answer
def render_precipitation_chance(data, query):
"""
precipitation chance (o)
"""
answer = data.get('chanceofrain', '')
if answer:
answer += '%'
return answer
def render_pressure(data, query):
"""
pressure (P)
"""
answer = data.get('pressure', '')
if answer:
answer += 'hPa'
return answer
def render_wind(data, query):
"""
wind (w)
"""
try:
degree = data["winddirDegree"]
except KeyError:
degree = ""
try:
degree = int(degree)
except ValueError:
degree = ""
if degree:
wind_direction = WIND_DIRECTION[((degree+22)%360)/45]
else:
wind_direction = ""
if query.get('use_ms_for_wind', False):
unit = ' m/s'
wind = u'%s%.1f%s' % (wind_direction, float(data['windspeedKmph'])/36.0*10.0, unit)
elif query.get('use_imperial', False):
unit = ' mph'
wind = u'%s%s%s' % (wind_direction, data['windspeedMiles'], unit)
else:
unit = ' km/h'
wind = u'%s%s%s' % (wind_direction, data['windspeedKmph'], unit)
return wind
def render_location(data, query):
"""
location (l)
"""
return (data['override_location'] or data['location']) # .title()
def render_moonphase(_, query):
"""
A symbol describing the phase of the moon
"""
astral = Astral()
moon_index = int(
int(32.0*astral.moon_phase(date=datetime.datetime.today())/28+2)%32/4
)
return MOON_PHASES[moon_index]
def render_moonday(_, query):
"""
An number describing the phase of the moon (days after the New Moon)
"""
astral = Astral()
return str(int(astral.moon_phase(date=datetime.datetime.today())))
def render_sunset(data, query):
location = data['location']
city_name = location
astral = Astral()
location = Location(('Nuremberg', 'Germany',
49.453872, 11.077298, 'Europe/Berlin', 0))
sun = location.sun(date=datetime.datetime.today(), local=True)
return str(sun['sunset'])
FORMAT_SYMBOL = {
'c': render_condition,
'C': render_condition_fullname,
'h': render_humidity,
't': render_temperature,
'w': render_wind,
'l': render_location,
'm': render_moonphase,
'M': render_moonday,
's': render_sunset,
'p': render_precipitation,
'o': render_precipitation_chance,
'P': render_pressure,
}
def render_line(line, data, query):
"""
Render format `line` using `data`
"""
def render_symbol(match):
"""
Render one format symbol from re `match`
using `data` from external scope.
"""
symbol_string = match.group(0)
symbol = symbol_string[-1]
if symbol not in FORMAT_SYMBOL:
return ''
render_function = FORMAT_SYMBOL[symbol]
return render_function(data, query)
return re.sub(r'%[^%]*[a-zA-Z]', render_symbol, line)
def render_json(data):
output = json.dumps(data, indent=4, sort_keys=True)
output = "\n".join(
re.sub('"[^"]*worldweatheronline[^"]*"', '""', line) if "worldweatheronline" in line else line
for line in output.splitlines()) + "\n"
return output
def format_weather_data(format_line, location, override_location, full_address, data, query):
"""
Format information about current weather `data` for `location`
with specified in `format_line` format
"""
if 'data' not in data:
return 'Unknown location; please try ~%s' % location
if format_line == "j1":
return render_json(data['data'])
if format_line[:2] == "v2":
return spark.main(location,
override_location=override_location,
full_address=full_address, data=data,
view=format_line)
current_condition = data['data']['current_condition'][0]
current_condition['location'] = location
current_condition['override_location'] = override_location
output = render_line(format_line, current_condition, query)
return output
def wttr_line(location, override_location_name, full_address, query, lang, fmt):
"""
Return 1line weather information for `location`
in format `line_format`
"""
format_line = query.get('format', fmt or '')
if format_line in PRECONFIGURED_FORMAT:
format_line = PRECONFIGURED_FORMAT[format_line]
weather_data = get_weather_data(location, lang)
output = format_weather_data(
format_line, location, override_location_name, full_address,
weather_data, query)
output = output.rstrip("\n")+"\n"
return output
def main():
"""
Function for standalone module usage
"""
location = sys.argv[1]
query = {
'line': sys.argv[2],
}
sys.stdout.write(wttr_line(location, location, None, query, 'en', "v1"))
if __name__ == '__main__':
main()