# -*- python -*- ''' xpybar – xmobar replacement written in python Copyright © 2014, 2015, 2016 Mattias Andrée (maandree@member.fsf.org) This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . ''' from util import * class Weather: ''' Weather monitor @variable icao:str The station's International Civil Aviation Organization airport code @variable station:str The station as a human readable, not necessarily only the airport name @variable location:str Human readable location, country or state (abbreviated) and country. @variable latitude:float The latitude position of the station, in degrees to north with two decimals @variable longitude:float The longitude position of the station, in degrees to east with two decimals @variable headers:list Headers in the decoded metar data @variable fields:dict Fields in the decoded metar data @variable time:(int, int, int) The time observation was made: day of month, hour and minute, in UTC The following will be `None` if not found in the data, but it is probably found if it should not be `None`. They can be floating point, but are most often integers. @variable wind_dir:float? The wind direction, `None` if variable @variable wind_speed:float The wind speed in knots @variable wind_gusts:float? The wind gusts (variability of the wind speed) in knots @variable wind_var:(float, float)? The wind direction range, `None` if less than 60° variation @variable temp:float The temperature in °C @variable dew:float The dew point in °C @variable pressure:flaot The pressure in hPa @variable visibility:float The visibility in statute miles ''' def __init__(self, station): ''' Constructor @param station:str The station's ICAO code (International Civil Aviation Organization airport code) ''' self.icao = station url = 'http://weather.noaa.gov/pub/data/observations/metar/decoded/%s.TXT' % station decoded = spawn_read('curl', url).split('\n') # How to parse: http://www.wunderground.com/metarFAQ.asp station_header, self.headers, decoded = decoded[0].split(', '), decoded[:2], decoded[2:] self.station, station_header = station_header[0], ', '.join(station_header[1:]) self.location = station_header.split(' (')[0] self.latitude, self.longitude = station_header.split(') ')[1].split(' ')[:2] self.latitude, ysign = self.latitude[:-1], self.latitude[-1] == 'S' self.longitude, xsign = self.longitude[:-1], self.longitude[-1] == 'W' self.latitude = [float(x) for x in self.latitude.split('-')] self.longitude = [float(x) for x in self.longitude.split('-')] self.latitude = self.latitude[0] + self.latitude[1] / 100 self.longitude = self.longitude[0] + self.longitude[1] / 100 self.latitude = -(self.latitude) if ysign else self.latitude self.longitude = -(self.longitude) if xsign else self.longitude self.fields = {} for line in decoded: line = line.split(': ') self.fields[line[0]] = ': '.join(line[1:]) self.wind_dir, self.wind_speed, self.wind_gusts, self.wind_var = None, None, None, None self.temp, self.dew, self.pressure, self.visibility = None, None, None, None for ob in self.fields['ob'].split(' ')[1:]: self.__time(ob) self.__wind(ob) self.__wind_var(ob) self.__temp(ob) self.__pressure(ob) self.__visibility(ob) # (-SHRA)-Present Weather and Obscurations from http://www.wunderground.com/metarFAQ.asp (p44) # BKN070-Sky Condition from http://www.wunderground.com/metarFAQ.asp # (p46, p49, p59(7,8,9). p61-65, p67-77, p91+96) #Wind: from the N (010 degrees) at 18 MPH (16 KT):0 #Visibility: 3 mile(s):0 #Sky conditions: overcast #Weather: precipitation #Precipitation last hour: A trace -- sometimes #Temperature: 10.0 F (-12.2 C) #Windchill: -7 F (-22 C):2 -- sometimes #Dew Point: 3.9 F (-15.6 C) #Relative Humidity: 75% #Pressure (altimeter): 30.19 in. Hg (1022 hPa) def __time(self, ob): ob_ = list(filter(lambda c : not ('0' <= c <= '9'), ob)) if (len(ob_) == 1) and ob.endswith('Z'): self.time = (ob[0 : 2], ob[2 : 4], ob[4 : 6]) def __wind(self, ob): if ob.endswith('KT'): self.wind_dir = None if ob.startswith('VRB') else float(ob[:3]) ob = ob[3:] i = ob.find('G') if 'G' in ob else ob.find('K') self.wind_speed, ob = float(ob[:i]), ob[i:] self.wind_gusts = float(ob[1 : -2]) if ob[0] == 'G' else None def __wind_var(self, ob): if (len(ob) == 7) and (ob[3] == 'V'): if len(list(filter(lambda c : not ('0' <= c <= '9'), ob))) == 1: self.wind_dir = (float(ob[:3]), float(ob[-3:])) def __temp(self, ob): if '/' in ob: ob = ob.replace('M', '-') if len(list(filter(lambda c : not ('0' <= c <= '9'), ob.replace('-', '0')))) == 1: (self.temp, self.dew) = [float(x) for x in ob.split('/')] def __pressure(self, ob): if (len(ob) == 5) and (ob[0] in ['Q', 'A']): if len(list(filter(lambda c : not ('0' <= c <= '9'), ob))) == 1: if ob[0] == 'Q': self.pressure = float(ob[1:]) else: self.pressure = 33.86 * float(ob[1:]) / 100 def __visibility(self, ob): # TODO p61 if ob.endswith('SM') and (len(ob) > 0): if len(list(filter(lambda c : not ('0' <= c <= '9'), ob))) == 2: self.visibility = float(ob[:-2])