def get_hourly_weather(self):
weatherdata = []
if self.id:
url = URL_HOURLY_CITY_ID % self.id
else:
url = URL_HOURLY_CITY_LL % (self.latitude, self.longitude)
print('OWMWeatherService Current Weather url:%s' % (url))
parsed_json = read_json_from_url(url)
if parsed_json is None:
return weatherdata
for contador, data in enumerate(parsed_json['list']):
condition = CONDITION[data['weather'][0]['id']]
temperature = cf.fa2f(data['main']['temp'])
cloudiness = data['clouds']['all']
# pressure = data['main']['pressure']
humidity = data['main']['humidity']
velocity = data['wind']['speed'] if 'wind' in data.keys() and\
'speed' in data['wind'].keys() else 0.0
t1 = cf.fa2f(data['main']['temp_min'])
t2 = cf.fa2f(data['main']['temp_max'])
direction = data['wind']['deg'] if 'wind' in data.keys() and\
'deg' in data['wind'].keys() else 0.0
if t1 < t2:
temp_min = str(t1)
temp_max = str(t2)
else:
temp_min = str(t2)
temp_max = str(t1)
wind_direction = weatherservice.degToCompass2(direction)
wdd = {}
wdd['datetime'] = datetime.fromtimestamp(data['dt'])
wdd['condition'] = condition
wdd['condition_text'] = weatherservice.get_condition(
condition, 'text')
wdd['condition_image'] = weatherservice.get_condition(
condition, 'image')
wdd['condition_icon'] = weatherservice.get_condition(
condition, 'icon-light')
wdd['temperature'] = cf.change_temperature(
temperature, self.units.temperature).split(' ')[0]
wdd['low'] = cf.change_temperature(temp_min,
self.units.temperature)
wdd['high'] = cf.change_temperature(temp_max,
self.units.temperature)
wdd['cloudiness'] = '%s' % (cloudiness)
wdd['avehumidity'] = '%s' % (humidity)
wdd['avewind'] = weatherservice.get_wind_condition2(
velocity, wind_direction[0], self.units.wind)
wdd['wind_icon'] = wind_direction[2]
weatherdata.append(wdd)
return weatherdata
def get_hourly_weather(self):
weatherdata = []
if self.id:
url = URL_HOURLY_CITY_ID % self.id
else:
url = URL_HOURLY_CITY_LL % (self.latitude, self.longitude)
print('OWMWeatherService Current Weather url:%s' % (url))
parsed_json = read_json_from_url(url)
if parsed_json is None:
return weatherdata
for contador, data in enumerate(parsed_json['list']):
condition = CONDITION[data['weather'][0]['id']]
temperature = fa2f(data['main']['temp'])
cloudiness = data['clouds']['all']
pressure = data['main']['pressure']
humidity = data['main']['humidity']
velocity = data['wind']['speed'] if 'wind' in data.keys() and\
'speed' in data['wind'].keys() else 0.0
t1 = fa2f(data['main']['temp_min'])
t2 = fa2f(data['main']['temp_max'])
direction = data['wind']['deg'] if 'wind' in data.keys() and\
'deg' in data['wind'].keys() else 0.0
if t1 < t2:
temp_min = str(t1)
temp_max = str(t2)
else:
temp_min = str(t2)
temp_max = str(t1)
wind_direction = weatherservice.degToCompass2(direction)
wdd = {}
wdd['datetime'] = datetime.fromtimestamp(data['dt'])
wdd['condition'] = condition
wdd['condition_text'] = weatherservice.get_condition(
condition, 'text')
wdd['condition_image'] = weatherservice.get_condition(
condition, 'image')
wdd['condition_icon'] = weatherservice.get_condition(
condition, 'icon-light')
wdd['temperature'] = weatherservice.change_temperature(
temperature, self.units.temperature).split(' ')[0]
wdd['low'] = weatherservice.change_temperature(
temp_min, self.units.temperature)
wdd['high'] = weatherservice.change_temperature(
temp_max, self.units.temperature)
wdd['cloudiness'] = '%s' % (cloudiness)
wdd['avehumidity'] = '%s' % (humidity)
wdd['avewind'] = weatherservice.get_wind_condition2(
velocity, wind_direction[0], self.units.wind)
wdd['wind_icon'] = wind_direction[2]
weatherdata.append(wdd)
return weatherdata
def get_weather(self):
weather_data = self.get_default_values()
if self.id is None:
self.id = find_city(self.longitude, self.latitude)
print('****', self.id)
if self.id is not None:
url = URL_CURRENT_CITY_ID % self.id
else:
url = URL_CURRENT_CITY_LL % (self.latitude, self.longitude)
print('-------------------------------------------------------')
print('OpenWeatherMap Weather Service url:%s' % (url))
print('-------------------------------------------------------')
parsed_json = read_json_from_url(url)
if parsed_json is None or\
'weather' not in parsed_json.keys() or\
'main' not in parsed_json.keys() or\
'wind' not in parsed_json.keys() or\
'clouds' not in parsed_json.keys():
return weather_data
weather_data['update_time'] = time.time()
weather_data['ok'] = True
if parsed_json['weather'][0]['id'] not in CONDITION.keys():
condition = 'not available'
else:
condition = CONDITION[parsed_json['weather'][0]['id']]
temperature = fa2f(parsed_json['main']['temp'])
pressure = parsed_json['main']['pressure'] if 'pressure' in\
parsed_json['main'] else 0
humidity = parsed_json['main']['humidity'] if 'humidity' in\
parsed_json['main'] else 0
velocity = parsed_json['wind']['speed'] if 'speed' in\
parsed_json['wind'] else 0
cloudiness = parsed_json['clouds']['all']
if 'deg' in parsed_json['wind'].keys():
direction = parsed_json['wind']['deg']
else:
direction = 0
wind_direction = weatherservice.degToCompass2(direction)
weather_data['current_conditions']['condition'] = condition
weather_data['current_conditions']['condition_text'] =\
weatherservice.get_condition(condition, 'text')
if weather_data['current_conditions']['isday']:
weather_data['current_conditions']['condition_image'] =\
weatherservice.get_condition(condition, 'image')
weather_data['current_conditions']['condition_icon_dark'] =\
weatherservice.get_condition(condition, 'icon-dark')
weather_data['current_conditions']['condition_icon_light'] =\
weatherservice.get_condition(condition, 'icon-light')
else:
weather_data['current_conditions']['condition_image'] =\
weatherservice.get_condition(condition, 'image-night')
weather_data['current_conditions']['condition_icon_dark'] =\
weatherservice.get_condition(condition, 'icon-night-dark')
weather_data['current_conditions']['condition_icon_light'] =\
weatherservice.get_condition(condition, 'icon-night-light')
weather_data['current_conditions']['temperature'] =\
weatherservice.change_temperature(
temperature, self.units.temperature)
weather_data['current_conditions']['pressure'] =\
weatherservice.change_pressure(
pressure, self.units.pressure)
weather_data['current_conditions']['humidity'] = '%s %%' % (humidity)
weather_data['current_conditions']['dew_point'] =\
weatherservice.get_dew_point(
humidity, temperature, self.units.temperature)
weather_data['current_conditions']['wind_condition'] =\
weatherservice.get_wind_condition2(
velocity, wind_direction[0], self.units.wind)
weather_data['current_conditions']['wind_icon'] = wind_direction[2]
weather_data['current_conditions']['heat_index'] =\
weatherservice.get_heat_index(temperature, humidity)
weather_data['current_conditions']['windchill'] =\
weatherservice.get_wind_chill(temperature, velocity)
weather_data['current_conditions']['feels_like'] =\
weatherservice.get_feels_like(
temperature, humidity, velocity, self.units.temperature)
weather_data['current_conditions']['visibility'] = None
weather_data['current_conditions']['cloudiness'] = \
'%s %%' % (cloudiness)
weather_data['current_conditions']['solarradiation'] = None
weather_data['current_conditions']['UV'] = None
weather_data['current_conditions']['precip_1hr'] = None
weather_data['current_conditions']['precip_today'] = None
#
# try:
if self.id:
url = URL_FORECAST_CITY_ID % self.id
else:
url = URL_FORECAST_CITY_LL % (self.latitude, self.longitude)
parsed_json = read_json_from_url(url)
if parsed_json is None:
return weather_data
for contador, data in enumerate(parsed_json['list']):
condition = CONDITION[data['weather'][0]['id']]
temperature = fa2f(data['temp']['day'])
cloudiness = data['clouds'] if 'clouds' in data.keys() else 0
pressure = data['pressure'] if 'pressure' in data.keys() else 0
humidity = data['humidity'] if 'humidity' in data.keys() else 0
velocity = data['speed'] if 'speed' in data.keys() else 0
t1 = fa2f(data['temp']['min'])
t2 = fa2f(data['temp']['max'])
direction = data['deg']
if t1 < t2:
temp_min = str(t1)
temp_max = str(t2)
else:
temp_min = str(t2)
temp_max = str(t1)
wind_direction = weatherservice.degToCompass2(direction)
weather_data['forecasts'][contador]['condition'] = condition
weather_data['forecasts'][contador]['condition_text'] =\
weatherservice.get_condition(condition, 'text')
weather_data['forecasts'][contador]['condition_image'] =\
weatherservice.get_condition(condition, 'image')
weather_data['forecasts'][contador]['condition_icon'] =\
weatherservice.get_condition(condition, 'icon-light')
weather_data['forecasts'][contador]['low'] =\
weatherservice.change_temperature(
temp_min, self.units.temperature)
weather_data['forecasts'][contador]['high'] =\
weatherservice.change_temperature(
temp_max, self.units.temperature)
weather_data['forecasts'][contador]['cloudiness'] =\
'%s %%' % (cloudiness)
weather_data['forecasts'][contador]['avehumidity'] =\
'%s %%' % (humidity)
weather_data['forecasts'][contador]['avewind'] =\
weatherservice.get_wind_condition2(
velocity, wind_direction[0], self.units.wind)
weather_data['forecasts'][contador]['wind_icon'] =\
wind_direction[2]
weather_data['forecasts'][contador]['qpf_allday'] = None
weather_data['forecasts'][contador]['qpf_day'] = None
weather_data['forecasts'][contador]['qpf_night'] = None
weather_data['forecasts'][contador]['snow_allday'] = None
weather_data['forecasts'][contador]['snow_day'] = None
weather_data['forecasts'][contador]['snow_night'] = None
weather_data['forecasts'][contador]['maxwind'] = None
weather_data['forecasts'][contador]['maxhumidity'] = None
weather_data['forecasts'][contador]['minhumidity'] = None
# except Exception as e:
# print(e)
return weather_data
def get_weather(self):
weather_data = self.get_default_values()
if self.id is None:
self.id = find_city(self.longitude, self.latitude)
print('****', self.id)
if self.id is not None:
url = URL_CURRENT_CITY_ID % self.id
else:
url = URL_CURRENT_CITY_LL % (self.latitude, self.longitude)
print('-------------------------------------------------------')
print('OpenWeatherMap Weather Service url:%s' % (url))
print('-------------------------------------------------------')
parsed_json = read_json_from_url(url)
if parsed_json is None or\
'weather' not in parsed_json.keys() or\
'main' not in parsed_json.keys() or\
'wind' not in parsed_json.keys() or\
'clouds' not in parsed_json.keys():
return weather_data
weather_data['update_time'] = time.time()
weather_data['ok'] = True
if parsed_json['weather'][0]['id'] not in CONDITION.keys():
condition = 'not available'
else:
condition = CONDITION[parsed_json['weather'][0]['id']]
temperature = fa2f(parsed_json['main']['temp'])
pressure = parsed_json['main']['pressure'] if 'pressure' in\
parsed_json['main'] else 0
humidity = parsed_json['main']['humidity'] if 'humidity' in\
parsed_json['main'] else 0
velocity = parsed_json['wind']['speed'] if 'speed' in\
parsed_json['wind'] else 0
cloudiness = parsed_json['clouds']['all']
if 'deg' in parsed_json['wind'].keys():
direction = parsed_json['wind']['deg']
else:
direction = 0
wind_direction = weatherservice.degToCompass2(direction)
weather_data['current_conditions']['condition'] = condition
weather_data['current_conditions']['condition_text'] =\
weatherservice.get_condition(condition, 'text')
if weather_data['current_conditions']['isday']:
weather_data['current_conditions']['condition_image'] =\
weatherservice.get_condition(condition, 'image')
weather_data['current_conditions']['condition_icon_dark'] =\
weatherservice.get_condition(condition, 'icon-dark')
weather_data['current_conditions']['condition_icon_light'] =\
weatherservice.get_condition(condition, 'icon-light')
else:
weather_data['current_conditions']['condition_image'] =\
weatherservice.get_condition(condition, 'image-night')
weather_data['current_conditions']['condition_icon_dark'] =\
weatherservice.get_condition(condition, 'icon-night-dark')
weather_data['current_conditions']['condition_icon_light'] =\
weatherservice.get_condition(condition, 'icon-night-light')
weather_data['current_conditions']['temperature'] =\
weatherservice.change_temperature(
temperature, self.units.temperature)
weather_data['current_conditions']['pressure'] =\
weatherservice.change_pressure(
pressure, self.units.pressure)
weather_data['current_conditions']['humidity'] = '%s %%' % (humidity)
weather_data['current_conditions']['dew_point'] =\
weatherservice.get_dew_point(
humidity, temperature, self.units.temperature)
weather_data['current_conditions']['wind_condition'] =\
weatherservice.get_wind_condition2(
velocity, wind_direction[0], self.units.wind)
weather_data['current_conditions']['wind_icon'] = wind_direction[2]
weather_data['current_conditions']['heat_index'] =\
weatherservice.get_heat_index(temperature, humidity)
weather_data['current_conditions']['windchill'] =\
weatherservice.get_wind_chill(temperature, velocity)
weather_data['current_conditions']['feels_like'] =\
weatherservice.get_feels_like(
temperature, humidity, velocity, self.units.temperature)
weather_data['current_conditions']['visibility'] = None
weather_data['current_conditions']['cloudiness'] = \
'%s %%' % (cloudiness)
weather_data['current_conditions']['solarradiation'] = None
weather_data['current_conditions']['UV'] = None
weather_data['current_conditions']['precip_1hr'] = None
weather_data['current_conditions']['precip_today'] = None
#
# try:
if self.id:
url = URL_FORECAST_CITY_ID % self.id
else:
url = URL_FORECAST_CITY_LL % (self.latitude, self.longitude)
parsed_json = read_json_from_url(url)
if parsed_json is None:
return weather_data
for contador, data in enumerate(parsed_json['list']):
condition = CONDITION[data['weather'][0]['id']]
temperature = fa2f(data['temp']['day'])
cloudiness = data['clouds'] if 'clouds' in data.keys() else 0
pressure = data['pressure'] if 'pressure' in data.keys() else 0
humidity = data['humidity'] if 'humidity' in data.keys() else 0
velocity = data['speed'] if 'speed' in data.keys() else 0
t1 = fa2f(data['temp']['min'])
t2 = fa2f(data['temp']['max'])
direction = data['deg']
if t1 < t2:
temp_min = str(t1)
temp_max = str(t2)
else:
temp_min = str(t2)
temp_max = str(t1)
wind_direction = weatherservice.degToCompass2(direction)
weather_data['forecasts'][contador]['condition'] = condition
weather_data['forecasts'][contador]['condition_text'] =\
weatherservice.get_condition(condition, 'text')
weather_data['forecasts'][contador]['condition_image'] =\
weatherservice.get_condition(condition, 'image')
weather_data['forecasts'][contador]['condition_icon'] =\
weatherservice.get_condition(condition, 'icon-light')
weather_data['forecasts'][contador]['low'] =\
weatherservice.change_temperature(
temp_min, self.units.temperature)
weather_data['forecasts'][contador]['high'] =\
weatherservice.change_temperature(
temp_max, self.units.temperature)
weather_data['forecasts'][contador]['cloudiness'] =\
'%s %%' % (cloudiness)
weather_data['forecasts'][contador]['avehumidity'] =\
'%s %%' % (humidity)
weather_data['forecasts'][contador]['avewind'] =\
weatherservice.get_wind_condition2(
velocity, wind_direction[0], self.units.wind)
weather_data['forecasts'][contador]['wind_icon'] =\
wind_direction[2]
weather_data['forecasts'][contador]['qpf_allday'] = None
weather_data['forecasts'][contador]['qpf_day'] = None
weather_data['forecasts'][contador]['qpf_night'] = None
weather_data['forecasts'][contador]['snow_allday'] = None
weather_data['forecasts'][contador]['snow_day'] = None
weather_data['forecasts'][contador]['snow_night'] = None
weather_data['forecasts'][contador]['maxwind'] = None
weather_data['forecasts'][contador]['maxhumidity'] = None
weather_data['forecasts'][contador]['minhumidity'] = None
# except Exception as e:
# print(e)
return weather_data
def _get_weather(self):
weather_data = self.get_default_values()
print('-------------------------------------------------------')
print('-------------------------------------------------------')
print('Underground Weather Service url: %s' % URL %
(self.key, self.latitude, self.longitude))
print('-------------------------------------------------------')
print('-------------------------------------------------------')
parsed_json = read_json_from_url(
URL % (self.key, self.latitude, self.longitude))
if parsed_json is None:
return weather_data
weather_data['update_time'] = time.time()
weather_data['ok'] = True
condition = gvfco('weather', parsed_json).lower()
#
weather_data['current_conditions']['condition_text'] =\
weatherservice.get_condition(condition, 'text')
if weather_data['current_conditions']['isday']:
weather_data['current_conditions']['condition_image'] =\
weatherservice.get_condition(condition, 'image')
weather_data['current_conditions']['condition_icon_dark'] =\
weatherservice.get_condition(condition, 'icon-dark')
weather_data['current_conditions']['condition_icon_light'] =\
weatherservice.get_condition(condition, 'icon-light')
else:
weather_data['current_conditions']['condition_image'] =\
weatherservice.get_condition(condition, 'image-night')
weather_data['current_conditions']['condition_icon_dark'] =\
weatherservice.get_condition(condition, 'icon-night-dark')
weather_data['current_conditions']['condition_icon_light'] =\
weatherservice.get_condition(condition, 'icon-night-light')
temperature = weatherservice.s2f(gvfco('temp_f', parsed_json))
weather_data['current_conditions']['temperature'] =\
weatherservice.change_temperature(
temperature, self.units.temperature)
pressure = weatherservice.s2f(gvfco('pressure_mb', parsed_json))
weather_data['current_conditions']['pressure'] =\
weatherservice.change_pressure(pressure, self.units.pressure)
humidity = weatherservice.s2f(
gvfco('relative_humidity', parsed_json)[:-1])
weather_data['current_conditions']['humidity'] = str(
int(humidity)) + ' %'
weather_data['current_conditions']['dew_point'] =\
weatherservice.get_dew_point(
humidity, temperature, self.units.temperature)
wind_velocity = weatherservice.s2f(gvfco('wind_mph', parsed_json))
wind_direction = gvfco('wind_dir', parsed_json)
weather_data['current_conditions']['wind_condition'] =\
weatherservice.get_wind_condition(
wind_velocity, wind_direction, self.units.wind)
weather_data['current_conditions']['wind_icon'] =\
weatherservice.get_wind_icon(wind_direction)
#
weather_data['current_conditions']['heat_index'] =\
weatherservice.get_heat_index(temperature, humidity)
weather_data['current_conditions']['windchill'] =\
weatherservice.get_wind_chill(temperature, wind_velocity)
#
weather_data['current_conditions']['feels_like'] =\
weatherservice.get_feels_like(
temperature, humidity, wind_velocity, self.units.temperature)
#
weather_data['current_conditions']['visibility'] =\
weatherservice.change_distance(
gvfco('visibility_mi', parsed_json), self.units.visibility)
weather_data['current_conditions']['solarradiation'] = gvfco(
'solarradiation', parsed_json)
weather_data['current_conditions']['UV'] = gvfco('UV', parsed_json)
weather_data['current_conditions']['precip_1hr'] =\
weatherservice.change_longitude(
gvfco('precip_1hr_in', parsed_json), self.units.rain)
weather_data['current_conditions']['precip_today'] =\
weatherservice.change_longitude(
gvfco('precip_today_in', parsed_json), self.units.rain)
for i in range(0, 4):
weather_data['forecasts'][i]['low'] =\
weatherservice.change_temperature(
gvff('low', i, parsed_json)['fahrenheit'],
self.units.temperature)
weather_data['forecasts'][i]['high'] =\
weatherservice.change_temperature(
gvff('high', i, parsed_json)['fahrenheit'],
self.units.temperature)
#
weather_data['forecasts'][i]['qpf_allday'] =\
weatherservice.change_longitude(
gvff('qpf_allday', i, parsed_json)['in'], self.units.rain)
weather_data['forecasts'][i]['qpf_day'] =\
weatherservice.change_longitude(
gvff('qpf_day', i, parsed_json)['in'], self.units.rain)
weather_data['forecasts'][i]['qpf_night'] =\
weatherservice.change_longitude(
gvff('qpf_night', i, parsed_json)['in'], self.units.rain)
weather_data['forecasts'][i]['snow_allday'] =\
weatherservice.change_longitude(
gvff('snow_allday', i, parsed_json)['in'], self.units.snow)
weather_data['forecasts'][i]['snow_day'] =\
weatherservice.change_longitude(
gvff('snow_day', i, parsed_json)['in'], self.units.snow)
weather_data['forecasts'][i]['snow_night'] =\
weatherservice.change_longitude(
gvff('snow_night', i, parsed_json)['in'], self.units.snow)
wind = gvff('maxwind', i, parsed_json)
weather_data['forecasts'][i]['maxwind'] =\
weatherservice.get_wind_condition(
wind['mph'], wind['dir'], self.units.wind)
wind = gvff('avewind', i, parsed_json)
weather_data['forecasts'][i]['avewind'] =\
weatherservice.get_wind_condition(
wind['mph'], wind['dir'], self.units.wind)
weather_data['forecasts'][i]['avehumidity'] = '%s %%' % gvff(
'avehumidity', i, parsed_json)
weather_data['forecasts'][i]['maxhumidity'] = '%s %%' % gvff(
'maxhumidity', i, parsed_json)
weather_data['forecasts'][i]['minhumidity'] = '%s %%' % gvff(
'minhumidity', i, parsed_json)
#
condition = gvff('conditions', i, parsed_json).lower()
weather_data['forecasts'][i]['condition'] = condition
weather_data['forecasts'][i]['condition_text'] =\
weatherservice.get_condition(condition, 'text')
weather_data['forecasts'][i]['condition_image'] =\
weatherservice.get_condition(condition, 'image')
weather_data['forecasts'][i]['condition_icon'] =\
weatherservice.get_condition(condition, 'icon-light')
weather_data['forecast_information']['city'] =\
gvfi('city', parsed_json)
weather_data['forecast_information']['postal_code'] =\
gvfi('zip', parsed_json)
weather_data['forecast_information']['latitude_e6'] =\
gvfi('latitude', parsed_json)
weather_data['forecast_information']['longitude_e6'] =\
gvfi('longitude', parsed_json)
return weather_data
def _get_weather(self):
weather_data = self.get_default_values()
print('-------------------------------------------------------')
print('-------------------------------------------------------')
print('Underground Weather Service url: %s'%URL%(self.key,self.latitude,self.longitude))
print('-------------------------------------------------------')
print('-------------------------------------------------------')
parsed_json = read_json_from_url(
URL % (self.key, self.latitude, self.longitude))
if parsed_json is None:
return None
condition = gvfco('weather',parsed_json).lower()
#
weather_data['current_conditions']['condition_text'] = weatherservice.get_condition(condition,'text')
if weather_data['current_conditions']['isday']:
weather_data['current_conditions']['condition_image'] = weatherservice.get_condition(condition,'image')
weather_data['current_conditions']['condition_icon_dark'] = weatherservice.get_condition(condition,'icon-dark')
weather_data['current_conditions']['condition_icon_light'] = weatherservice.get_condition(condition,'icon-light')
else:
weather_data['current_conditions']['condition_image'] = weatherservice.get_condition(condition,'image-night')
weather_data['current_conditions']['condition_icon_dark'] = weatherservice.get_condition(condition,'icon-night-dark')
weather_data['current_conditions']['condition_icon_light'] = weatherservice.get_condition(condition,'icon-night-light')
temperature = weatherservice.s2f(gvfco('temp_f',parsed_json))
weather_data['current_conditions']['temperature'] = weatherservice.change_temperature(temperature,self.units.temperature)
pressure = weatherservice.s2f(gvfco('pressure_mb',parsed_json))
weather_data['current_conditions']['pressure'] = weatherservice.change_pressure(pressure,self.units.pressure)
humidity = weatherservice.s2f(gvfco('relative_humidity',parsed_json)[:-1])
weather_data['current_conditions']['humidity'] = str(int(humidity))+' %'
weather_data['current_conditions']['dew_point'] = weatherservice.get_dew_point(humidity,temperature,self.units.temperature)
wind_velocity = weatherservice.s2f(gvfco('wind_mph',parsed_json))
wind_direction = gvfco('wind_dir',parsed_json)
print(wind_direction)
weather_data['current_conditions']['wind_condition'] = weatherservice.get_wind_condition(wind_velocity,wind_direction,self.units.wind)
weather_data['current_conditions']['wind_icon'] =weatherservice.get_wind_icon(wind_direction)
#
weather_data['current_conditions']['heat_index'] = weatherservice.get_heat_index(temperature,humidity)
weather_data['current_conditions']['windchill'] = weatherservice.get_wind_chill(temperature,wind_velocity)
#
weather_data['current_conditions']['feels_like'] = weatherservice.get_feels_like(temperature,humidity,wind_velocity,self.units.temperature)
#
weather_data['current_conditions']['visibility'] = weatherservice.change_distance(gvfco('visibility_mi',parsed_json),self.units.visibility)
weather_data['current_conditions']['solarradiation'] = gvfco('solarradiation',parsed_json)
weather_data['current_conditions']['UV'] = gvfco('UV',parsed_json)
weather_data['current_conditions']['precip_1hr'] = weatherservice.change_longitude(gvfco('precip_1hr_in',parsed_json),self.units.rain)
weather_data['current_conditions']['precip_today'] = weatherservice.change_longitude(gvfco('precip_today_in',parsed_json),self.units.rain)
for i in range(0,4):
weather_data['forecasts'][i]['low'] = weatherservice.change_temperature(gvff('low',i,parsed_json)['fahrenheit'],self.units.temperature)
weather_data['forecasts'][i]['high'] = weatherservice.change_temperature(gvff('high',i,parsed_json)['fahrenheit'],self.units.temperature)
#
weather_data['forecasts'][i]['qpf_allday'] = weatherservice.change_longitude(gvff('qpf_allday',i,parsed_json)['in'],self.units.rain)
weather_data['forecasts'][i]['qpf_day'] = weatherservice.change_longitude(gvff('qpf_day',i,parsed_json)['in'],self.units.rain)
weather_data['forecasts'][i]['qpf_night'] = weatherservice.change_longitude(gvff('qpf_night',i,parsed_json)['in'],self.units.rain)
weather_data['forecasts'][i]['snow_allday'] = weatherservice.change_longitude(gvff('snow_allday',i,parsed_json)['in'],self.units.snow)
weather_data['forecasts'][i]['snow_day'] = weatherservice.change_longitude(gvff('snow_day',i,parsed_json)['in'],self.units.snow)
weather_data['forecasts'][i]['snow_night'] = weatherservice.change_longitude(gvff('snow_night',i,parsed_json)['in'],self.units.snow)
wind = gvff('maxwind',i,parsed_json)
weather_data['forecasts'][i]['maxwind'] = weatherservice.get_wind_condition(wind['mph'],wind['dir'],self.units.wind)
wind = gvff('avewind',i,parsed_json)
weather_data['forecasts'][i]['avewind'] = weatherservice.get_wind_condition(wind['mph'],wind['dir'],self.units.wind)
weather_data['forecasts'][i]['avehumidity'] = '%s %%'%gvff('avehumidity',i,parsed_json)
weather_data['forecasts'][i]['maxhumidity'] = '%s %%'%gvff('maxhumidity',i,parsed_json)
weather_data['forecasts'][i]['minhumidity'] = '%s %%'%gvff('minhumidity',i,parsed_json)
#
condition = gvff('conditions',i,parsed_json).lower()
weather_data['forecasts'][i]['condition'] = condition
weather_data['forecasts'][i]['condition_text'] = weatherservice.get_condition(condition,'text')
weather_data['forecasts'][i]['condition_image'] = weatherservice.get_condition(condition,'image')
weather_data['forecasts'][i]['condition_icon'] = weatherservice.get_condition(condition,'icon-light')
weather_data['forecast_information']['city'] = gvfi('city',parsed_json)
weather_data['forecast_information']['postal_code'] = gvfi('zip',parsed_json)
weather_data['forecast_information']['latitude_e6'] = gvfi('latitude',parsed_json)
weather_data['forecast_information']['longitude_e6'] = gvfi('longitude',parsed_json)
return weather_data
def get_weather(self):
weather_data = self.get_default_values()
if self.latlontrouble:
temp = self.url2
self.url2 = self.url1
self.url1 = temp
self.latlontrouble = False
for i in range(0, 6):
if i < 3:
URL = self.url1
self.latlontrouble = False
else:
URL = self.url2
self.latlontrouble = True
try:
#
xml_response = download_xml(URL)
root = etree.fromstring(xml_response).xpath('/xml_api_reply/weather/current_conditions')
if len(root) == 0:
raise Exception('Root 0')
temperature = get_data(root[0], 'temp_f')
velocity = get_data(root[0], 'wind_condition')
velocity = cf.s2f(velocity.split(' ')[3])
humidity = weatherservice.get_humidity(get_data(root[0], 'humidity'))
condition = get_data(root[0], 'condition').lower()
weather_data['current_conditions']['condition'] = condition
weather_data['current_conditions']['condition_text'] = weatherservice.get_condition(condition, 'text')
if weatherservice.is_day_now(weather_data['current_conditions']['sunrise_time'], weather_data['current_conditions']['sunset_time']):
weather_data['current_conditions']['condition_image'] = weatherservice.get_condition(condition, 'image')
weather_data['current_conditions']['condition_icon_dark'] = weatherservice.get_condition(condition, 'icon-dark')
weather_data['current_conditions']['condition_icon_light'] = weatherservice.get_condition(condition, 'icon-light')
else:
weather_data['current_conditions']['condition_image'] = weatherservice.get_condition(condition, 'image-night')
weather_data['current_conditions']['condition_icon_dark'] = weatherservice.get_condition(condition, 'icon-night-dark')
weather_data['current_conditions']['condition_icon_light'] = weatherservice.get_condition(condition, 'icon-night-light')
weather_data['current_conditions']['temperature'] = cf.change_temperature(temperature, self.units.temperature)
weather_data['current_conditions']['pressure'] = None
weather_data['current_conditions']['humidity'] = '%s %%' % (humidity)
weather_data['current_conditions']['dew_point'] = weatherservice.get_dew_point(humidity, temperature, self.units.temperature)
wind = get_data(root[0], 'wind_condition')
wind_direction = wind.split(' ')[1]
wind_direction = wind_direction.lower()
wind_velocity = wind.split(' ')
weather_data['current_conditions']['wind_condition'] = weatherservice.get_wind_condition(wind_velocity, wind_direction, self.units.wind)
#
weather_data['current_conditions']['heat_index'] = weatherservice.get_heat_index(temperature, humidity)
weather_data['current_conditions']['windchill'] = weatherservice.get_wind_chill(temperature, wind_velocity)
#
weather_data['current_conditions']['feels_like'] = weatherservice.get_feels_like(temperature, humidity, velocity, self.units.temperature)
#
weather_data['current_conditions']['visibility'] = None
weather_data['current_conditions']['solarradiation'] = None
weather_data['current_conditions']['UV'] = None
weather_data['current_conditions']['precip_1hr'] = None
weather_data['current_conditions']['precip_today'] = None
#
root = etree.fromstring(xml_response).xpath('/xml_api_reply/weather/forecast_conditions')
for i, el in enumerate(root):
weather_data['forecasts'][i]['low'] = cf.change_temperature(get_data(el, 'low'), self.units.temperature)
weather_data['forecasts'][i]['high'] = cf.change_temperature(get_data(el, 'high'), self.units.temperature)
#
weather_data['forecasts'][i]['qpf_allday'] = None
weather_data['forecasts'][i]['qpf_day'] = None
weather_data['forecasts'][i]['qpf_night'] = None
weather_data['forecasts'][i]['snow_allday'] = None
weather_data['forecasts'][i]['snow_day'] = None
weather_data['forecasts'][i]['snow_night'] = None
weather_data['forecasts'][i]['maxwind'] = None
weather_data['forecasts'][i]['avewind'] = None
weather_data['forecasts'][i]['avehumidity'] = None
weather_data['forecasts'][i]['maxhumidity'] = None
weather_data['forecasts'][i]['minhumidity'] = None
#
condition = get_data(el, 'condition').lower()
weather_data['forecasts'][i]['condition'] = condition
weather_data['forecasts'][i]['condition_text'] = weatherservice.get_condition(condition, 'text')
weather_data['forecasts'][i]['condition_image'] = weatherservice.get_condition(condition, 'image')
weather_data['forecasts'][i]['condition_icon'] = weatherservice.get_condition(condition, 'icon-light')
#
root = etree.fromstring(xml_response).xpath('/xml_api_reply/weather/forecast_information')
weather_data['forecast_information']['city'] = get_data(root[0], 'city')
weather_data['forecast_information']['postal_code'] = get_data(root[0], 'postal_code')
weather_data['forecast_information']['latitude_e6'] = get_data(root[0], 'latitude_e6')
weather_data['forecast_information']['longitude_e6'] = get_data(root[0], 'longitude_e6')
weather_data['forecast_information']['forecast_date'] = get_data(root[0], 'forecast_date')
weather_data['forecast_information']['current_date_time'] = get_data(root[0], 'current_date_time')
weather_data['forecast_information']['unit_system'] = get_data(root[0], 'unit_system')
return weather_data
except Exception as e:
time.sleep(1)
if i > 3:
print(e)
return weather_data
def get_weather(self, tries=3):
weather_data = self.get_default_values()
if self.woeid is None:
self.woeid = geocodeapi.get_woeid(self.latitude, self.longitude)
if self.woeid is None:
print('Yahoo Weather Service, not found woeid')
return weather_data
try:
ans = self.run_query()
if ans is None or\
'query' not in ans.keys() or\
'results' not in ans['query'].keys() or\
'channel' not in ans['query']['results'].keys():
if tries > 0:
tries = tries - 1
print('************ === ************')
print('Try: %s' % (tries))
print('************ === ************')
weather_data = self.get_weather(tries)
return weather_data
data = ans['query']['results']['channel']
temperature = s2f(data['item']['condition']['temp'])
velocity = s2f(data['wind']['speed'])
direction = s2f(data['wind']['direction'])
pressure = s2f(data['atmosphere']['pressure'])
visibility = s2f(data['atmosphere']['visibility'])
humidity = s2f(data['atmosphere']['humidity'])
condition = CODE[int(data['item']['condition']['code'])]
weather_data['current_conditions']['condition'] = condition
weather_data['current_conditions']['condition_text'] =\
weatherservice.get_condition(condition, 'text')
if weather_data['current_conditions']['isday']:
weather_data['current_conditions']['condition_image'] =\
weatherservice.get_condition(condition, 'image')
weather_data['current_conditions']['condition_icon_dark'] =\
weatherservice.get_condition(condition, 'icon-dark')
weather_data['current_conditions']['condition_icon_light'] =\
weatherservice.get_condition(condition, 'icon-light')
else:
weather_data['current_conditions']['condition_image'] =\
weatherservice.get_condition(condition, 'image-night')
weather_data['current_conditions']['condition_icon_dark'] =\
weatherservice.get_condition(condition, 'icon-night-dark')
weather_data['current_conditions']['condition_icon_light'] =\
weatherservice.get_condition(condition, 'icon-night-light')
weather_data['current_conditions']['temperature'] =\
weatherservice.change_temperature(temperature,
self.units.temperature)
weather_data['current_conditions']['pressure'] =\
weatherservice.change_pressure(pressure, self.units.pressure)
weather_data['current_conditions']['humidity'] = '%s %%' %\
(humidity)
weather_data['current_conditions']['dew_point'] =\
weatherservice.get_dew_point(humidity,
temperature,
self.units.temperature)
wind_direction = weatherservice.degToCompass2(direction)
weather_data['current_conditions']['wind_condition'] =\
weatherservice.get_wind_condition2(velocity,
wind_direction[0],
self.units.wind)
weather_data['current_conditions']['wind_icon'] = wind_direction[2]
#
weather_data['current_conditions']['heat_index'] =\
weatherservice.get_heat_index(temperature, humidity)
weather_data['current_conditions']['windchill'] =\
weatherservice.get_wind_chill(temperature, velocity)
#
weather_data['current_conditions']['feels_like'] =\
weatherservice.get_feels_like(temperature,
humidity,
velocity,
self.units.temperature)
#
weather_data['current_conditions']['visibility'] =\
weatherservice.change_distance(visibility,
self.units.visibility)
weather_data['current_conditions']['solarradiation'] = None
weather_data['current_conditions']['UV'] = None
weather_data['current_conditions']['precip_1hr'] = None
weather_data['current_conditions']['precip_today'] = None
for i, forecast_condition in enumerate(data['item']['forecast']):
if i < 7:
tlow = s2f(forecast_condition['low'])
thight = s2f(forecast_condition['high'])
weather_data['forecasts'][i]['low'] =\
change_temperature(tlow,
self.units.temperature)
weather_data['forecasts'][i]['high'] =\
change_temperature(thight,
self.units.temperature)
#
weather_data['forecasts'][i]['qpf_allday'] = None
weather_data['forecasts'][i]['qpf_day'] = None
weather_data['forecasts'][i]['qpf_night'] = None
weather_data['forecasts'][i]['snow_allday'] = None
weather_data['forecasts'][i]['snow_day'] = None
weather_data['forecasts'][i]['snow_night'] = None
weather_data['forecasts'][i]['maxwind'] = None
weather_data['forecasts'][i]['avewind'] = None
weather_data['forecasts'][i]['avehumidity'] = None
weather_data['forecasts'][i]['maxhumidity'] = None
weather_data['forecasts'][i]['minhumidity'] = None
#
condition = CODE[int(forecast_condition['code'])]
weather_data['forecasts'][i]['condition'] = condition
weather_data['forecasts'][i]['condition_text'] =\
weatherservice.get_condition(condition, 'text')
weather_data['forecasts'][i]['condition_image'] =\
weatherservice.get_condition(condition, 'image')
weather_data['forecasts'][i]['condition_icon'] =\
weatherservice.get_condition(condition, 'icon-light')
except Exception as e:
print('************ === ************')
print('Try: %s' % (tries))
print(e)
print('************ === ************')
if tries > 0:
tries = tries - 1
weather_data = self.get_weather(tries)
print(e)
return weather_data
def get_weather(self):
weather_data = self.get_default_values()
xml_response = download_xml(self.url)
root = etree.fromstring(xml_response).xpath('/data/parameters/temperature')
try:
#
xml_response = download_xml(self.url)
root = etree.fromstring(xml_response).xpath('/data/parameters/temperature')
if len(root) == 0:
raise urllib2.URLError('Root 0')
temperature = get_data(root[0],'temp_f')
velocity = get_data(root[0],'wind_condition')
velocity = weatherservice.s2f(velocity.split(' ')[3])
humidity = weatherservice.get_humidity(get_data(root[0],'humidity'))
condition = get_data(root[0],'condition').lower()
weather_data['current_conditions']['condition'] = condition
weather_data['current_conditions']['condition_text'] = weatherservice.get_condition(condition,'text')
if weatherservice.is_day_now(weather_data['current_conditions']['sunrise_time'],weather_data['current_conditions']['sunset_time']):
weather_data['current_conditions']['condition_image'] = weatherservice.get_condition(condition,'image')
weather_data['current_conditions']['condition_icon_dark'] = weatherservice.get_condition(condition,'icon-dark')
weather_data['current_conditions']['condition_icon_light'] = weatherservice.get_condition(condition,'icon-light')
else:
weather_data['current_conditions']['condition_image'] = weatherservice.get_condition(condition,'image-night')
weather_data['current_conditions']['condition_icon_dark'] = weatherservice.get_condition(condition,'icon-night-dark')
weather_data['current_conditions']['condition_icon_light'] = weatherservice.get_condition(condition,'icon-night-light')
weather_data['current_conditions']['temperature'] = weatherservice.change_temperature(temperature,self.units.temperature)
weather_data['current_conditions']['pressure'] = None
weather_data['current_conditions']['humidity'] = '%s %%'%(humidity)
weather_data['current_conditions']['dew_point'] = weatherservice.get_dew_point(humidity,temperature,self.units.temperature)
wind =get_data(root[0],'wind_condition')
wind_direction = wind.split(' ')[1]
wind_direction = wind_direction.lower()
wind_velocity = wind.split(' ')
weather_data['current_conditions']['wind_condition'] = weatherservice.get_wind_condition(wind_velocity,wind_direction,self.units.wind)
#
weather_data['current_conditions']['heat_index'] = weatherservice.get_heat_index(temperature,humidity)
weather_data['current_conditions']['windchill'] = weatherservice.get_wind_chill(temperature,wind_velocity)
#
weather_data['current_conditions']['feels_like'] = weatherservice.get_feels_like(temperature,humidity,velocity,self.units.temperature)
#
weather_data['current_conditions']['visibility'] = None
weather_data['current_conditions']['solarradiation'] = None
weather_data['current_conditions']['UV'] = None
weather_data['current_conditions']['precip_1hr'] = None
weather_data['current_conditions']['precip_today'] = None
#
root = etree.fromstring(xml_response).xpath('/xml_api_reply/weather/forecast_conditions')
for i,el in enumerate(root):
weather_data['forecasts'][i]['low'] = weatherservice.change_temperature(get_data(el,'low'),self.units.temperature)
weather_data['forecasts'][i]['high'] = weatherservice.change_temperature(get_data(el,'high'),self.units.temperature)
#
weather_data['forecasts'][i]['qpf_allday'] = None
weather_data['forecasts'][i]['qpf_day'] = None
weather_data['forecasts'][i]['qpf_night'] = None
weather_data['forecasts'][i]['snow_allday'] = None
weather_data['forecasts'][i]['snow_day'] = None
weather_data['forecasts'][i]['snow_night'] = None
weather_data['forecasts'][i]['maxwind'] = None
weather_data['forecasts'][i]['avewind'] = None
weather_data['forecasts'][i]['avehumidity'] = None
weather_data['forecasts'][i]['maxhumidity'] = None
weather_data['forecasts'][i]['minhumidity'] = None
#
condition = get_data(el,'condition').lower()
weather_data['forecasts'][i]['condition'] = condition
weather_data['forecasts'][i]['condition_text'] = weatherservice.get_condition(condition,'text')
weather_data['forecasts'][i]['condition_image'] = weatherservice.get_condition(condition,'image')
weather_data['forecasts'][i]['condition_icon'] = weatherservice.get_condition(condition,'icon-light')
#
root = etree.fromstring(xml_response).xpath('/xml_api_reply/weather/forecast_information')
forecast_information = {}
weather_data['forecast_information']['city'] = get_data(root[0],'city')
weather_data['forecast_information']['postal_code'] = get_data(root[0],'postal_code')
weather_data['forecast_information']['latitude_e6'] = get_data(root[0],'latitude_e6')
weather_data['forecast_information']['longitude_e6'] = get_data(root[0],'longitude_e6')
weather_data['forecast_information']['forecast_date'] = get_data(root[0],'forecast_date')
weather_data['forecast_information']['current_date_time'] = get_data(root[0],'current_date_time')
weather_data['forecast_information']['unit_system'] = get_data(root[0],'unit_system')
return weather_data
except Exception as e:
print(e)
return weather_data
def get_weather(self):
weather_data = self.get_default_values()
if self.latlontrouble:
temp = self.url2
self.url2 = self.url1
self.url1 = temp
self.latlontrouble = False
for i in range(0, 6):
if i < 3:
URL = self.url1
self.latlontrouble = False
else:
URL = self.url2
self.latlontrouble = True
try:
#
xml_response = download_xml(URL)
root = etree.fromstring(xml_response).xpath("/xml_api_reply/weather/current_conditions")
if len(root) == 0:
raise Exception("Root 0")
temperature = get_data(root[0], "temp_f")
velocity = get_data(root[0], "wind_condition")
velocity = weatherservice.s2f(velocity.split(" ")[3])
humidity = weatherservice.get_humidity(get_data(root[0], "humidity"))
condition = get_data(root[0], "condition").lower()
weather_data["current_conditions"]["condition"] = condition
weather_data["current_conditions"]["condition_text"] = weatherservice.get_condition(condition, "text")
if weatherservice.is_day_now(
weather_data["current_conditions"]["sunrise_time"],
weather_data["current_conditions"]["sunset_time"],
):
weather_data["current_conditions"]["condition_image"] = weatherservice.get_condition(
condition, "image"
)
weather_data["current_conditions"]["condition_icon_dark"] = weatherservice.get_condition(
condition, "icon-dark"
)
weather_data["current_conditions"]["condition_icon_light"] = weatherservice.get_condition(
condition, "icon-light"
)
else:
weather_data["current_conditions"]["condition_image"] = weatherservice.get_condition(
condition, "image-night"
)
weather_data["current_conditions"]["condition_icon_dark"] = weatherservice.get_condition(
condition, "icon-night-dark"
)
weather_data["current_conditions"]["condition_icon_light"] = weatherservice.get_condition(
condition, "icon-night-light"
)
weather_data["current_conditions"]["temperature"] = weatherservice.change_temperature(
temperature, self.units.temperature
)
weather_data["current_conditions"]["pressure"] = None
weather_data["current_conditions"]["humidity"] = "%s %%" % (humidity)
weather_data["current_conditions"]["dew_point"] = weatherservice.get_dew_point(
humidity, temperature, self.units.temperature
)
wind = get_data(root[0], "wind_condition")
wind_direction = wind.split(" ")[1]
wind_direction = wind_direction.lower()
wind_velocity = wind.split(" ")
weather_data["current_conditions"]["wind_condition"] = weatherservice.get_wind_condition(
wind_velocity, wind_direction, self.units.wind
)
#
weather_data["current_conditions"]["heat_index"] = weatherservice.get_heat_index(temperature, humidity)
weather_data["current_conditions"]["windchill"] = weatherservice.get_wind_chill(
temperature, wind_velocity
)
#
weather_data["current_conditions"]["feels_like"] = weatherservice.get_feels_like(
temperature, humidity, velocity, self.units.temperature
)
#
weather_data["current_conditions"]["visibility"] = None
weather_data["current_conditions"]["solarradiation"] = None
weather_data["current_conditions"]["UV"] = None
weather_data["current_conditions"]["precip_1hr"] = None
weather_data["current_conditions"]["precip_today"] = None
#
root = etree.fromstring(xml_response).xpath("/xml_api_reply/weather/forecast_conditions")
for i, el in enumerate(root):
weather_data["forecasts"][i]["low"] = weatherservice.change_temperature(
get_data(el, "low"), self.units.temperature
)
weather_data["forecasts"][i]["high"] = weatherservice.change_temperature(
get_data(el, "high"), self.units.temperature
)
#
weather_data["forecasts"][i]["qpf_allday"] = None
weather_data["forecasts"][i]["qpf_day"] = None
weather_data["forecasts"][i]["qpf_night"] = None
weather_data["forecasts"][i]["snow_allday"] = None
weather_data["forecasts"][i]["snow_day"] = None
weather_data["forecasts"][i]["snow_night"] = None
weather_data["forecasts"][i]["maxwind"] = None
weather_data["forecasts"][i]["avewind"] = None
weather_data["forecasts"][i]["avehumidity"] = None
weather_data["forecasts"][i]["maxhumidity"] = None
weather_data["forecasts"][i]["minhumidity"] = None
#
condition = get_data(el, "condition").lower()
weather_data["forecasts"][i]["condition"] = condition
weather_data["forecasts"][i]["condition_text"] = weatherservice.get_condition(condition, "text")
weather_data["forecasts"][i]["condition_image"] = weatherservice.get_condition(condition, "image")
weather_data["forecasts"][i]["condition_icon"] = weatherservice.get_condition(
condition, "icon-light"
)
#
root = etree.fromstring(xml_response).xpath("/xml_api_reply/weather/forecast_information")
forecast_information = {}
weather_data["forecast_information"]["city"] = get_data(root[0], "city")
weather_data["forecast_information"]["postal_code"] = get_data(root[0], "postal_code")
weather_data["forecast_information"]["latitude_e6"] = get_data(root[0], "latitude_e6")
weather_data["forecast_information"]["longitude_e6"] = get_data(root[0], "longitude_e6")
weather_data["forecast_information"]["forecast_date"] = get_data(root[0], "forecast_date")
weather_data["forecast_information"]["current_date_time"] = get_data(root[0], "current_date_time")
weather_data["forecast_information"]["unit_system"] = get_data(root[0], "unit_system")
return weather_data
except Exception as e:
time.sleep(1)
if i > 3:
print(e)
return weather_data
def get_weather(self):
weather_data = self.get_default_values()
if self.woeid is None:
self.woeid = geocodeapi.get_woeid(self.latitude, self.longitude)
if self.woeid is None:
print('wyahooapi.py: Yahoo Weather Service, not found woeid')
return weather_data
try:
ans = self.run_query()
if ans is None:
print('wyahooapi.py: Yahoo Weather Service, query answer is None')
return weather_data
if 'query' not in list(ans.keys()):
print('wyahooapi.py: Yahoo Weather Service, query answer has no element query')
return weather_data
if 'results' not in list(ans['query'].keys()):
print('wyahooapi.py: Yahoo Weather Service, query answer has no element query.results')
return weather_data
if ans['query']['results'] is None:
print('wyahooapi.py: Yahoo Weather Service, query answer query.results is None')
return weather_data
if 'channel' not in list(ans['query']['results'].keys()):
print('wyahooapi.py: Yahoo Weather Service, query answer has no element query.results.channel')
return weather_data
weather_data['update_time'] = time.time()
weather_data['ok'] = True
data = ans['query']['results']['channel']
temperature = cf.f2c_print(data['item']['condition']['temp'])
velocity = cf.f2c_print(data['wind']['speed'])
direction = cf.f2c_print(data['wind']['direction'])
pressure = cf.f2c_print(data['atmosphere']['pressure'])
visibility = cf.f2c_print(data['atmosphere']['visibility'])
humidity = cf.f2c_print(data['atmosphere']['humidity'])
condition = CODE[int(data['item']['condition']['code'])]
weather_data['current_conditions']['condition'] = condition
weather_data['current_conditions']['condition_text'] =\
weatherservice.get_condition(condition, 'text')
if weather_data['current_conditions']['isday']:
weather_data['current_conditions']['condition_image'] =\
weatherservice.get_condition(condition, 'image')
weather_data['current_conditions']['condition_icon_dark'] =\
weatherservice.get_condition(condition, 'icon-dark')
weather_data['current_conditions']['condition_icon_light'] =\
weatherservice.get_condition(condition, 'icon-light')
else:
weather_data['current_conditions']['condition_image'] =\
weatherservice.get_condition(condition, 'image-night')
weather_data['current_conditions']['condition_icon_dark'] =\
weatherservice.get_condition(condition, 'icon-night-dark')
weather_data['current_conditions']['condition_icon_light'] =\
weatherservice.get_condition(condition, 'icon-night-light')
weather_data['current_conditions']['temperature'] =\
cf.change_temperature(temperature, self.units.temperature)
weather_data['current_conditions']['pressure'] =\
weatherservice.change_pressure(pressure, self.units.pressure)
weather_data['current_conditions']['humidity'] = '%s %%' %\
(humidity)
weather_data['current_conditions']['dew_point'] =\
weatherservice.get_dew_point(humidity,
temperature,
self.units.temperature)
wind_direction = weatherservice.degToCompass2(direction)
weather_data['current_conditions']['wind_condition'] =\
weatherservice.get_wind_condition2(velocity,
wind_direction[0],
self.units.wind)
weather_data['current_conditions']['wind_icon'] = wind_direction[2]
#
weather_data['current_conditions']['heat_index'] =\
weatherservice.get_heat_index(temperature, humidity)
weather_data['current_conditions']['windchill'] =\
weatherservice.get_wind_chill(temperature, velocity)
#
weather_data['current_conditions']['feels_like'] =\
weatherservice.get_feels_like(temperature,
humidity,
velocity,
self.units.temperature)
#
weather_data['current_conditions']['visibility'] =\
weatherservice.change_distance(visibility,
self.units.visibility)
weather_data['current_conditions']['solarradiation'] = None
weather_data['current_conditions']['UV'] = None
weather_data['current_conditions']['precip_1hr'] = None
weather_data['current_conditions']['precip_today'] = None
for i, forecast_condition in enumerate(data['item']['forecast']):
if i < 7:
tlow = cf.f2c_print(forecast_condition['low'])
thight = cf.f2c_print(forecast_condition['high'])
weather_data['forecasts'][i]['low'] =\
cf.change_temperature(tlow, self.units.temperature)
weather_data['forecasts'][i]['high'] =\
cf.change_temperature(thight, self.units.temperature)
#
weather_data['forecasts'][i]['qpf_allday'] = None
weather_data['forecasts'][i]['qpf_day'] = None
weather_data['forecasts'][i]['qpf_night'] = None
weather_data['forecasts'][i]['snow_allday'] = None
weather_data['forecasts'][i]['snow_day'] = None
weather_data['forecasts'][i]['snow_night'] = None
weather_data['forecasts'][i]['maxwind'] = None
weather_data['forecasts'][i]['avewind'] = None
weather_data['forecasts'][i]['avehumidity'] = None
weather_data['forecasts'][i]['maxhumidity'] = None
weather_data['forecasts'][i]['minhumidity'] = None
#
condition = CODE[int(forecast_condition['code'])]
weather_data['forecasts'][i]['condition'] = condition
weather_data['forecasts'][i]['condition_text'] =\
weatherservice.get_condition(condition, 'text')
weather_data['forecasts'][i]['condition_image'] =\
weatherservice.get_condition(condition, 'image')
weather_data['forecasts'][i]['condition_icon'] =\
weatherservice.get_condition(condition, 'icon-light')
except Exception as e:
print('wyahooapi.py: error:', str(e))
return weather_data
def get_weather(self, tries=3):
weather_data = self.get_default_values()
if self.woeid is None:
self.woeid = geocodeapi.get_woeid(self.latitude, self.longitude)
if self.woeid is None:
print('Yahoo Weather Service, not found woeid')
return weather_data
try:
ans = self.run_query()
if ans is None or\
'query' not in ans.keys() or\
'results' not in ans['query'].keys() or\
'channel' not in ans['query']['results'].keys():
if tries > 0:
tries = tries - 1
print('************ === ************')
print('Try: %s' % (tries))
print('************ === ************')
weather_data = self.get_weather(tries)
return weather_data
data = ans['query']['results']['channel']
temperature = s2f(data['item']['condition']['temp'])
velocity = s2f(data['wind']['speed'])
direction = s2f(data['wind']['direction'])
pressure = s2f(data['atmosphere']['pressure'])
visibility = s2f(data['atmosphere']['visibility'])
humidity = s2f(data['atmosphere']['humidity'])
condition = CODE[int(data['item']['condition']['code'])]
weather_data['current_conditions']['condition'] = condition
weather_data['current_conditions']['condition_text'] =\
weatherservice.get_condition(condition, 'text')
if weather_data['current_conditions']['isday']:
weather_data['current_conditions']['condition_image'] =\
weatherservice.get_condition(condition, 'image')
weather_data['current_conditions']['condition_icon_dark'] =\
weatherservice.get_condition(condition, 'icon-dark')
weather_data['current_conditions']['condition_icon_light'] =\
weatherservice.get_condition(condition, 'icon-light')
else:
weather_data['current_conditions']['condition_image'] =\
weatherservice.get_condition(condition, 'image-night')
weather_data['current_conditions']['condition_icon_dark'] =\
weatherservice.get_condition(condition, 'icon-night-dark')
weather_data['current_conditions']['condition_icon_light'] =\
weatherservice.get_condition(condition, 'icon-night-light')
weather_data['current_conditions']['temperature'] =\
weatherservice.change_temperature(temperature,
self.units.temperature)
weather_data['current_conditions']['pressure'] =\
weatherservice.change_pressure(pressure, self.units.pressure)
weather_data['current_conditions']['humidity'] = '%s %%' %\
(humidity)
weather_data['current_conditions']['dew_point'] =\
weatherservice.get_dew_point(humidity,
temperature,
self.units.temperature)
wind_direction = weatherservice.degToCompass2(direction)
weather_data['current_conditions']['wind_condition'] =\
weatherservice.get_wind_condition2(velocity,
wind_direction[0],
self.units.wind)
weather_data['current_conditions']['wind_icon'] = wind_direction[2]
#
weather_data['current_conditions']['heat_index'] =\
weatherservice.get_heat_index(temperature, humidity)
weather_data['current_conditions']['windchill'] =\
weatherservice.get_wind_chill(temperature, velocity)
#
weather_data['current_conditions']['feels_like'] =\
weatherservice.get_feels_like(temperature,
humidity,
velocity,
self.units.temperature)
#
weather_data['current_conditions']['visibility'] =\
weatherservice.change_distance(visibility,
self.units.visibility)
weather_data['current_conditions']['solarradiation'] = None
weather_data['current_conditions']['UV'] = None
weather_data['current_conditions']['precip_1hr'] = None
weather_data['current_conditions']['precip_today'] = None
for i, forecast_condition in enumerate(data['item']['forecast']):
if i < 7:
tlow = s2f(forecast_condition['low'])
thight = s2f(forecast_condition['high'])
weather_data['forecasts'][i]['low'] =\
change_temperature(tlow,
self.units.temperature)
weather_data['forecasts'][i]['high'] =\
change_temperature(thight,
self.units.temperature)
#
weather_data['forecasts'][i]['qpf_allday'] = None
weather_data['forecasts'][i]['qpf_day'] = None
weather_data['forecasts'][i]['qpf_night'] = None
weather_data['forecasts'][i]['snow_allday'] = None
weather_data['forecasts'][i]['snow_day'] = None
weather_data['forecasts'][i]['snow_night'] = None
weather_data['forecasts'][i]['maxwind'] = None
weather_data['forecasts'][i]['avewind'] = None
weather_data['forecasts'][i]['avehumidity'] = None
weather_data['forecasts'][i]['maxhumidity'] = None
weather_data['forecasts'][i]['minhumidity'] = None
#
condition = CODE[int(forecast_condition['code'])]
weather_data['forecasts'][i]['condition'] = condition
weather_data['forecasts'][i]['condition_text'] =\
weatherservice.get_condition(condition, 'text')
weather_data['forecasts'][i]['condition_image'] =\
weatherservice.get_condition(condition, 'image')
weather_data['forecasts'][i]['condition_icon'] =\
weatherservice.get_condition(condition, 'icon-light')
except Exception as e:
print('************ === ************')
print('Try: %s' % (tries))
print(e)
print('************ === ************')
if tries > 0:
tries = tries - 1
weather_data = self.get_weather(tries)
print(e)
return weather_data
