Conky, Mi configuración

Fecfactor me pedía ayer que publicara la configuración de el conky que muestro en la captura a continuación

Como pueden ver se trata de 3 conkys, que son ejecutados mediante un script, la configuración del mismo esta basada en este post que publicó el usuario Bruce M. en los foros de Ubuntu-Ar con algunas modificaciones en el conky de el correo, que en mi caso es para Gmail.

En el post de referencia está muy bien explicado por Bruce, pero también como ayuda memoria para mí, voy a copiar los pasos a seguir y el codigo de mis conkys para quien quiera lo tenga.

Bien, necesitamos por supuesto tener instalado conky, curl y python asi que tipeamos en una consola:

sudo apt-get install conky curl python

La fuente de weather.ttf y de arrows.ttf está aquí. La fuente de moon.ttf está aquí una vez bajadas hay que copiarlas a /usr/share/fonts

Vamos a crear ahora nuestro script llamado ~./startconky

gksudo gedit ~/.startconky

dentro del archivo vacio pegamos lo siguiente

#!/bin/bash
sleep 0 & # 0 good for Xfce – use 20 to 30 for Gnome
conky -c ~/Conky/conkymain &
#sleep 0 & # 0 good for Xfce – use 1 for Gnome
conky -c ~/Conky/conkyforecast &
#sleep 0 & # 0 good for Xfce – use 1 for Gnome
conky -c ~/Conky/conkymail &

Ahora creamos el archivo conkymain en la carpeta ~/Conky sino tenemos la carpeta Conky habrá que crearla.

gedit ~/Conky/conkymain

yo uso la fuente Calibri, si no la tenés reemplazala por la que quieras.

Pegamos dentro lo que sigue

background no
own_window yes
own_window_transparent yes
own_window_hints undecorated,below,sticky,skip_taskbar,skip_pager
own_window_colour black
double_buffer yes
use_spacer left
use_xft yes
font calibri:size=9
xftfont calibri:size=9
xftalpha 0.5
update_interval 5.0
uppercase no # set to yes if you want all text to be in uppercase
stippled_borders 3
border_margin 9
border_width 10
default_color white
default_outline_color black
default_shade_color black
color0 cyan
color1 lightblue
color2 orange
color3 yellow
color4 wheat
color5 white
color6 white
color7 white
color8 white
color9 white
alignment top_right # or top_left, bottom_left, bottom_right
gap_x 10
gap_y 35
text_buffer_size 128 # use 1024 for the forecast
no_buffers yes # Subtract file system buffers from used memory?
draw_borders no
draw_outline yes # amplifies text if yes
draw_shades yes # shadecolor black

TEXT
${font calibri:size=12}${alignc}${color1}$sysname $kernel on $machine}$color$font
${font calibri:size=12}${alignc}${color2}${exec whoami} @ $nodename$color$font
${color0}${hr 1}$color
${font calibri:size=20}${alignc}${time %H:%M}$font
${font calibri:size=12}${color1}${alignc}${time %A, %d %b. %Y}$color$font
${color3}UpTime:${alignr 2}$uptime$color
${color0}${hr 1}$color
${voffset 5}${color2}CPU:${alignc}$color$running_processes ${color1} /$color $processes${alignr 2}${color2}${cpubar cpu0 14,80}$color
${color1}${voffset -16}${alignr 5}$cpu%$color
${voffset 2}${color1}Load Avg (${color3}Min${color1}):${alignr 2}${color3}1: $color${loadavg 1} ${color3}5: $color${loadavg 2} ${color3}15: $color${loadavg 3}
${voffset 5}${color2}RAM:$color $mem ${color2} /$color$memmax${alignr 2}${color2}${membar 14,80}$color
${color1}${voffset -16}${alignr 5}$memperc%$color
${voffset 2}${color1}Buffered: $color${buffers}${alignr 2}${color1}Cached:$color ${cached}
${voffset 5}${color2}SWAP: $color$swap ${color2}/ $color${swapmax}${alignr 2}${color2}${swapbar 14,80}$color
${color1}${voffset -16}${alignr 5}$swapperc%
${color0}${hr 1}$color
${voffset 5}${color2}HD Info${color1} -$color Free${color1} – Used – ${color2} Total
${voffset 5}${color1}Root: $color${fs_free_perc /}%${alignr 2}${fs_free /}${color2}/${color1}${fs_used /}$color/${color2}${fs_size /}$color
${color1}Home: $color${fs_free_perc /home/usuario}%${alignr 2}${fs_free /home/usuario}${color2}/${color1}${fs_used /home/usuario}$color/${color2}${fs_size /home/usuario}$color
${color0}${hr 1}$color
${color1}Desde:$color Buenos Aires, Argentina
${color1}Lat: ${color2}34°35’S ${color1}Long: ${color2}58°21’W ${color1}Alt: ${color2}25 m$color
${voffset 5}${color2}${font calibri:size=12}hoy:$font ${color3}${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –datatype=CC}$color${alignr 2}${color1}ST: ${color2}${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –datatype=LT}
${color3}${font Weather:size=50}${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –datatype=WF}$font$color
${alignr 50}${voffset -55}${font calibri:size=25}${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –datatype=HT}$font
${alignc 20}${voffset -30}${font Arrows:size=20}${color4}${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –datatype=BF}$color$font
${alignc 10}${voffset 5}${color4}Viento: ${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –datatype=WS}$color
${color1}Humedad: ${color3}${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –datatype=HM}${alignr 2}${color1}Precipitación: ${color3}${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –datatype=PC}$color
${alignc}${color1}Presión: ${color3}${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –datatype=BR} – ${color3}${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –datatype=BD}$color
${color4}${hr}$color
${color1}Salida del Sol: ${color3}${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –datatype=SR}${alignr 2}${color1}Ocaso: ${color3}${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –datatype=SS}$color
${voffset 15}${color1}Luna:${color4}${alignr 2}${color3}${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –datatype=MP}$color
${voffset -20}${offset 80}${color4}${font moon phases:size=20}${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –datatype=MF}$font$color
${color0}${hr}$color
${voffset 5}${color2}IP:${alignc}$color${addr eth0}
${color1}Down: $color${downspeed eth0}k/s ${alignr 2}${color1}Up: $color${upspeed eth0}k/s
${color1}Total: $color${totaldown eth0} ${alignr 2}${color1}Total: $color${totalup eth0}
${color1}Inbound: $color${tcp_portmon 1 32767 count} ${color1}Outbound: $color${tcp_portmon 32768 61000 count}${alignr 2}${color1}Total: $color${tcp_portmon 1 65535 count}
${voffset 5}${color2}Connections: $color${tcp_portmon 32768 61000 count} ${alignr 2} ${color2}Service/Port $color
${voffset 5}${tcp_portmon 32768 61000 rhost 0} ${alignr 2} ${tcp_portmon 32768 61000 rservice 0}
${tcp_portmon 32768 61000 rhost 1} ${alignr 2} ${tcp_portmon 32768 61000 rservice 1}
${tcp_portmon 32768 61000 rhost 2} ${alignr 2} ${tcp_portmon 32768 61000 rservice 2}
${tcp_portmon 32768 61000 rhost 3} ${alignr 2} ${tcp_portmon 32768 61000 rservice 3}
${tcp_portmon 32768 61000 rhost 4} ${alignr 2} ${tcp_portmon 32768 61000 rservice 4}
${tcp_portmon 32768 61000 rhost 5} ${alignr 2} ${tcp_portmon 32768 61000 rservice 5}$color

creamos el archivo ~/Conky/conkyforecast

gedit ~/Conky/conkyforecast

y pegamos dentro lo siguiente

background no
own_window yes
own_window_transparent yes
own_window_hints undecorated,below,sticky,skip_taskbar,skip_pager
own_window_colour black
double_buffer yes
use_spacer left
use_xft yes
font calibri:size=8
xftfont calibri:size=8
xftalpha 0.5
update_interval 5.0
uppercase no # set to yes if you want all text to be in uppercase
stippled_borders 3
border_margin 9
border_width 10
default_color white
default_outline_color black
default_shade_color black
color0 cyan
color1 lightblue
color2 orange
color3 yellow
color4 wheat
color5 white
color6 white
color7 white
color8 white
color9 white
alignment bottom_left # or top_left, bottom_left, bottom_right
gap_x 10
gap_y 35
text_buffer_size 1024 # use 1024 for the forecast
no_buffers yes # Subtract file system buffers from used memory?
draw_borders no
draw_outline yes # amplifies text if yes
draw_shades yes # shadecolor black

TEXT
${color4}${font calibri:size=11}Pronostico Extendido$font$color
${color0}${hr}$color
${color4}${font calibri:size=9}${execi 3600 python ~/Conky/scripts/conkyForecast.py –location=ARBA0009 –template=/home/usuario/Conky/scripts/myweather.template}$font$color

creamos el archivo ~/Conky/conkymail

gedit ~/Conky/conkymail

pegamos dentro del archivo lo siguiente

background no
own_window yes
own_window_transparent yes
own_window_hints undecorated,below,sticky,skip_taskbar,skip_pager
own_window_colour black
double_buffer yes
use_spacer left
use_xft yes
font calibri:size=8
xftfont calibri:size=8
xftalpha 0.5
update_interval 5.0
uppercase no # set to yes if you want all text to be in uppercase
stippled_borders 3
border_margin 9
border_width 10
default_color white
default_outline_color black
default_shade_color black
color0 cyan
color1 lightblue
color2 orange
color3 yellow
color4 wheat
color5 white
color6 white
color7 white
color8 white
color9 white
alignment bottom_left # or top_left, bottom_left, bottom_right
gap_x 565
gap_y 35
text_buffer_size 128 # use 1024 for the forecast
no_buffers yes # Subtract file system buffers from used memory?
draw_borders no
draw_outline yes # amplifies text if yes
draw_shades yes # shadecolor black

TEXT
${font calibri:size=11}${alignc}${color4}Gmail
${color0}${hr}$color
${font calibri:size=11}${color4}Tenemos ${color3}${execi 300 python ~/Conky/scripts/mail/conkyEmail.py}${color4} email(s)$font

Creamos un archivo en ~/Conky/scripts/conkyForecast.py (hay que crear la carpeta scripts)

gedit ~/Conky/scripts/conkyForecast.py

#!/usr/bin/python
# -*- coding: utf-8 -*-
###############################################################################
# conkyForecast.py is a (not so) simple (anymore) python script to gather
# details of the current weather for use in conky.
#
# Author: Kaivalagi
# Created: 13/04/2008
# Modifications:
# 14/04/2008 Allow day ranges for forecast data
# 14/04/2008 Check for connectivity to xoap service
# 18/04/2008 Allow the setting of spaces for ranged output
# 18/04/2008 Allow Night and Day forecast output
# 18/04/2008 Support locale for condition code text “CC” option, awaiting spanish language translation
# 18/04/2008 Use pickling for class data rather than opening xml, this bypasses the need to interrogate cached data
# 19/04/2008 Added spanish condition text – Thanks Bruce M
# 19/04/2008 Added isnumeric check on all numeric output with units suffix
# 19/04/2008 Altered pickle file naming to include location code
# 19/04/2008 Added spanish week days conversion via locale
# 20/04/2008 Added decent command argument parser
# 20/04/2008 Added –shortweekday option, if given the day of week data type is shortened to 3 characters
# 21/04/2008 Fixed locale options for forecast output
# 21/04/2008 Added –template option to allow custom output using a single exec call 🙂
# 21/04/2008 Added –hideunits option to remove, for example, mph and C from output
# 23/04/2008 Removed –imperial option from template, this MUST be set as a standard option on the script call and not used in the template file.
# 23/04/2008 Readded –imperial option to template, enabling metric or imperial values per datatype. Note when using templates command line option will not work.
# 23/04/2008 Added output notifying user if the location given is bad
# 24/04/2008 Added handling for no connectivity, will revert to cached data now (erroring if no cache exists). Tests by trying to open xoap.weather.com
# 24/04/2008 Fixed Celsius to fahrenheit conversion
# 06/05/2008 Updated url used after webservice was updated
# 09/05/2008 Consolidated current condition and forecast data fetch into one call
# 09/05/2008 Added Sunrise and sunset to datatypes, these are specific to both current conditions and forecast data
# 09/05/2008 Added moon phase, barometer reading and barometer description to datatypes, these are only specific to current conditions and so are N/A in forecasted output
# 09/05/2008 Added unit conversions for barometer from mb to inches (imperial)
# 09/05/2008 Updated spanish condition text – Thanks Bruce M
# 10/05/2008 Added french locale data – Thanks benpaka
# 12/05/2008 Added new BF (bearing font) datatype to provide an arrow character (use with Arrow.ttf font) instead of NSEW output from WD (wind direction)
# 12/05/2008 Updated WD output to be locale specific, currently supports default english and spanish – Thanks Bruce M
# 18/05/2008 Added new MF (moon font) datatype to provide a moon font character (characters incorrect and no dedicated font yet).
# 21/05/2008 For current conditions the –datatype=LT option now displays “feels like” temperature rather than the current temperature
#
# TODO:
# Consolidate pkl files into one file/class
# Add a weather font based moon phase output based on moon icon data
# ??? Any more requirements out there?

import sys, os, socket, urllib2, datetime, time
from xml.dom import minidom
from stat import *
from optparse import OptionParser
import locale
import gettext
import pickle
from math import *

APP=”conkyForecast.py”
DIR=os.path.dirname (__file__) + ‘/locale’
gettext.bindtextdomain(APP, DIR)
gettext.textdomain(APP)
_ = gettext.gettext

class CommandLineParser:

parser = None

def __init__(self):

self.parser = OptionParser()
self.parser.add_option(“-l”,”–location”, dest=”location”, default=”UKXX0103″, type=”string”, metavar=”CODE”, help=u”location code for weather data [default: %default],Use the following url to determine your location code by city name: http://xoap.weather.com/search/search?where=Norwich”)
self.parser.add_option(“-d”,”–datatype”,dest=”datatype”, default=”HT”, type=”string”, metavar=”DATATYPE”, help=u”[default: %default] The data type options are: DW (Day Of Week), WF (Weather Font Output), LT (Forecast:Low Temp,Current:Feels Like Temp), HT (Forecast:High Temp,Current:Current Temp), CC (Current Conditions), CT (Conditions Text), PC (Precipitation Chance), HM (Humidity), WD (Wind Direction), WS (Wind Speed), WG (Wind Gusts), CN (City Name), SR (sunrise), SS (sunset), MP (moon phase), MF (moon font), BR (barometer reading), BD (barometer description). Not applicable at command line when using templates.”)
self.parser.add_option(“-s”,”–startday”,dest=”startday”, type=”int”, metavar=”NUMBER”, help=u”define the starting day number, if omitted current conditions are output. Not applicable at command line when using templates.”)
self.parser.add_option(“-e”,”–endday”,dest=”endday”, type=”int”, metavar=”NUMBER”, help=u”define the ending day number, if omitted only starting day data is output. Not applicable at command line when using templates.”)
self.parser.add_option(“-S”,”–spaces”,dest=”spaces”, type=”int”, default=1, metavar=”NUMBER”, help=u”[default: %default] Define the number of spaces between ranged output. Not applicable at command line when using templates.”)
self.parser.add_option(“-t”,”–template”,dest=”template”, type=”string”, metavar=”FILE”, help=u”define a template file to generate output in one call. A displayable item in the file is in the form {–datatype=HT –startday=1}. The following are possible options within each item: –datatype,–startday,–endday,–night,–shortweekday,–imperial,–hideunits,–spaces . Note that the short forms of the options are not currently supported! None of these options are applicable at command line when using templates.”)
self.parser.add_option(“-L”,”–locale”,dest=”locale”, type=”string”, help=u”override the system locale for language output (en=english, es=spanish, fr=french, more to come)”)
self.parser.add_option(“-i”,”–imperial”,dest=”imperial”, default=False, action=”store_true”, help=u”request imperial units, if omitted output is in metric. Not applicable at command line when using templates.”)
self.parser.add_option(“-n”,”–night”,dest=”night”, default=False, action=”store_true”, help=u”switch output to night data, if omitted day output will be output. Not applicable at command line when using templates.”)
self.parser.add_option(“-w”,”–shortweekday”,dest=”shortweekday”, default=False, action=”store_true”, help=u”Shorten the day of week data type to 3 characters. Not applicable at command line when using templates.”)
self.parser.add_option(“-u”,”–hideunits”,dest=”hideunits”, default=False, action=”store_true”, help=u”Hide units such as mph or C, degree symbols (°) are still shown. Not applicable at command line when using templates.”)
self.parser.add_option(“-v”,”–verbose”,dest=”verbose”, default=False, action=”store_true”, help=u”request verbose output, no a good idea when running through conky!”)
self.parser.add_option(“-r”,”–refetch”,dest=”refetch”, default=False, action=”store_true”, help=u”fetch data regardless of data expiry”)

def parse_args(self):
(options, args) = self.parser.parse_args()
return (options, args)

def print_help(self):
return self.parser.print_help()

class WeatherData:
def __init__(self, day_of_week, low, high, condition_code, condition_text, precip, humidity, wind_dir, wind_speed, wind_gusts, city, sunrise, sunset, moon_phase, moon_icon, bar_read, bar_desc):
self.day_of_week = u””+day_of_week
self.low = u””+low
self.high = u””+high
self.condition_code = u””+condition_code
self.condition_text = u””+condition_text
self.precip = u””+precip
self.humidity = u””+humidity
self.wind_dir = u””+wind_dir
self.wind_speed = u””+wind_speed
self.wind_gusts = u””+wind_gusts
self.city = u””+city
self.sunrise = u””+sunrise
self.sunset = u””+sunset
self.moon_phase = u””+moon_phase
self.moon_icon = u””+moon_icon
self.bar_read = u””+bar_read
self.bar_desc = u””+bar_desc

class WeatherText:

conditions_text = {
“0”: _(u”Tornado”),
“1”: _(u”Tropical Storm”),
“2”: _(u”Hurricane”),
“3”: _(u”Severe Thunderstorms”),
“4”: _(u”Thunderstorms”),
“5”: _(u”Mixed Rain and Snow”),
“6”: _(u”Mixed Rain and Sleet”),
“7”: _(u”Mixed Precipitation”),
“8”: _(u”Freezing Drizzle”),
“9”: _(u”Drizzle”),
“10”: _(u”Freezing Rain”),
“11”: _(u”Showers”),
“12”: _(u”Showers”),
“13”: _(u”Snow Flurries”),
“14”: _(u”Light Snow Showers”),
“15”: _(u”Blowing Snow”),
“16”: _(u”Snow”),
“17”: _(u”Hail”),
“18”: _(u”Sleet”),
“19”: _(u”Dust”),
“20”: _(u”Fog”),
“21”: _(u”Haze”),
“22”: _(u”Smoke”),
“23”: _(u”Blustery”),
“24”: _(u”Windy”),
“25”: _(u”Cold”),
“26”: _(u”Cloudy”),
“27”: _(u”Mostly Cloudy”),
“28”: _(u”Mostly Cloudy”),
“29”: _(u”Partly Cloudy”),
“30”: _(u”Partly Cloudy”),
“31”: _(u”Clear”),
“32”: _(u”Clear”),
“33”: _(u”Fair”),
“34”: _(u”Fair”),
“35”: _(u”Mixed Rain and Hail”),
“36”: _(u”Hot”),
“37”: _(u”Isolated Thunderstorms”),
“38”: _(u”Scattered Thunderstorms”),
“39”: _(u”Scattered Thunderstorms”),
“40”: _(u”Scattered Showers”),
“41”: _(u”Heavy Snow”),
“42”: _(u”Scattered Snow Showers”),
“43”: _(u”Heavy Snow”),
“44”: _(u”Partly Cloudy”),
“45”: _(u”Thunder Showers”),
“46”: _(u”Snow Showers”),
“47”: _(u”Isolated Thunderstorms”),
“na”: _(u”N/A”),
“-“: _(u”N/A”)
}

conditions_text_es = {
“0”: _(u”Tornado”),
“1”: _(u”Tormenta Tropical”),
“2”: _(u”Huracá¡n”),
“3”: _(u”Tormentas Fuertes”),
“4”: _(u”Tormentas”),
“5”: _(u”Lluvia y Nieve Mezclada”),
“6”: _(u”Lluvia y Aguanieve Mezclada”),
“7”: _(u”Aguanieve”),
“8”: _(u”Llovizna Helada”),
“9”: _(u”Llovizna”),
“10”: _(u”Lluvia Engelante”), # o lluvia helada
“11”: _(u”Chaparrones”),
“12”: _(u”Chaparrones”),
“13”: _(u”Nieve Ligera”),
“14”: _(u”Nieve Ligera”),
“15”: _(u”Ventisca de Nieve”),
“16”: _(u”Nieve”),
“17”: _(u”Granizo”),
“18”: _(u”Aguanieve”),
“19”: _(u”Polvo”),
“20”: _(u”Niebla”),
“21”: _(u”Bruma”),
“22”: _(u”Humo”),
“23”: _(u”Tempestad”),
“24”: _(u”Ventoso”),
“25”: _(u”Fráo”),
“26”: _(u”Muy Nublado”),
“27”: _(u”Principalmente Nublado”),
“28”: _(u”Principalmente Nublado”),
“29”: _(u”Parcialmente Nublado”),
“30”: _(u”Parcialmente Nublado”),
“31”: _(u”Despejado”),
“32”: _(u”Despejado”),
“33”: _(u”Algo Nublado”),
“34”: _(u”Algo Nublado”),
“35”: _(u”Lluvia con Granizo”),
“36”: _(u”Calor”),
“37”: _(u”Tormentas Aisladas”),
“38”: _(u”Tormentas Dispersas”),
“39”: _(u”Tormentas Dispersas”),
“40”: _(u”Chubascos Dispersos”),
“41”: _(u”Nieve Pesada”),
“42”: _(u”Nevadas Débiles y Dispersas”),
“43”: _(u”Nevada Intensa”),
“44”: _(u”Nubes Dispersas”),
“45”: _(u”Tormentas”),
“46”: _(u”Nevadas Dispersas”),
“47”: _(u”Tormentas Aisladas”),
“na”: _(u”N/A”),
“-“: _(u”N/A”)
}

conditions_text_fr = {
“0”: _(u”Tornade”),
“1”: _(u”Tempête Tropicale”),
“2”: _(u”Ouragan”),
“3”: _(u”Orages Violents”),
“4”: _(u”Orageux”),
“5”: _(u”Pluie et Neige”),
“6”: _(u”Pluie et Neige Mouillée”),
“7”: _(u”Variable avec averses”),
“8”: _(u”Bruine Givrante”),
“9”: _(u”Bruine”),
“10”: _(u”Pluie Glacante”),
“11”: _(u”Averses”),
“12”: _(u”Averses”),
“13”: _(u”Légère Neige”),
“14”: _(u”Forte Neige”),
“15”: _(u”Tempête de Neige”),
“16”: _(u”Neige”),
“17”: _(u”Grêle”),
“18”: _(u”Pluie/Neige”),
“19”: _(u”Nuage de poussière”),
“20”: _(u”Brouillard”),
“21”: _(u”Brume”),
“22”: _(u”Fumée”),
“23”: _(u”Tres Venteux”),
“24”: _(u”Venteux”),
“25”: _(u”Froid”),
“26”: _(u”Nuageux”),
“27”: _(u”Tres Nuageux”),
“28”: _(u”Tres Nuageux”),
“29”: _(u”Nuages Disséminés”),
“30”: _(u”Nuages Disséminés”),
“31”: _(u”Beau”),
“32”: _(u”Beau”),
“33”: _(u”Belles Éclaircies”),
“34”: _(u”Belles Éclaircies”),
“35”: _(u”Pluie avec Grêle”),
“36”: _(u”Chaleur”),
“37”: _(u”Orages Isolés”),
“38”: _(u”Orages Localisés”),
“39”: _(u”Orages Localisés”),
“40”: _(u”Averses Localisées”),
“41”: _(u”Neige Lourde”),
“42”: _(u”Tempête de Neige Localisées”),
“43”: _(u”Neige Lourde”),
“44”: _(u”Nuages Disséminés”),
“45”: _(u”Orages”),
“46”: _(u”Tempête de Neige”),
“47”: _(u”Orages Isolés”),
“na”: _(u”N/A”),
“-“: _(u”N/A”)
}

conditions_weather_font = {
“0”: _(u”W”),
“1”: _(u”V”),
“2”: _(u”W”),
“3”: _(u”s”),
“4”: _(u”p”),
“5”: _(u”k”),
“6”: _(u”k”),
“7”: _(u”g”),
“8”: _(u”g”),
“9”: _(u”g”),
“10”: _(u”h”),
“11”: _(u”g”),
“12”: _(u”g”),
“13”: _(u”k”),
“14”: _(u”k”),
“15”: _(u”k”),
“16”: _(u”k”),
“17”: _(u”k”),
“18”: _(u”k”),
“19”: _(u”e”),
“20”: _(u”e”),
“21”: _(u”a”),
“22”: _(u”d”),
“23”: _(u”d”),
“24”: _(u”d”),
“25”: _(u”d”),
“26”: _(u”e”),
“27”: _(u”e”),
“28”: _(u”e”),
“29”: _(u”c”),
“30”: _(u”c”),
“31”: _(u”a”),
“32”: _(u”a”),
“33”: _(u”b”),
“34”: _(u”b”),
“35”: _(u”k”),
“36”: _(u”a”),
“37”: _(u”f”),
“38”: _(u”f”),
“39”: _(u”f”),
“40”: _(u”g”),
“41”: _(u”k”),
“42”: _(u”k”),
“43”: _(u”k”),
“44”: _(u”b”),
“45”: _(u”g”),
“46”: _(u”k”),
“47”: _(u”f”),
“na”: _(u””),
“-“: _(u””)
}

conditions_moon_font = {
“0”: _(u”1″),
“1”: _(u”N”),
“2”: _(u”O”),
“3”: _(u”P”),
“4”: _(u”Q”),
“5”: _(u”R”),
“6”: _(u”S”),
“7”: _(u”T”),
“8”: _(u”U”),
“9”: _(u”V”),
“10”: _(u”W”),
“11”: _(u”X”),
“12”: _(u”Y”),
“13”: _(u”Z”),
“14”: _(u”0″),
“15”: _(u”0″),
“16”: _(u”A”),
“17”: _(u”B”),
“18”: _(u”C”),
“19”: _(u”D”),
“20”: _(u”E”),
“21”: _(u”F”),
“22”: _(u”G”),
“23”: _(u”H”),
“24”: _(u”I”),
“25”: _(u”J”),
“26”: _(u”K”),
“27”: _(u”L”),
“28”: _(u”M”),
“29”: _(u”1″),
“na”: _(u””),
“-“: _(u””)
}

day_of_week = {
“Today”: _(u”Today”),
“Monday”: _(u”Monday”),
“Tuesday”: _(u”Tuesday”),
“Wednesday”: _(u”Wednesday”),
“Thursday”: _(u”Thursday”),
“Friday”: _(u”Friday”),
“Saturday”: _(u”Saturday”),
“Sunday”: _(u”Sunday”)
}

day_of_week_short = {
“Today”: _(u”Now”),
“Monday”: _(u”Mon”),
“Tuesday”: _(u”Tue”),
“Wednesday”: _(u”Wed”),
“Thursday”: _(u”Thu”),
“Friday”: _(u”Fri”),
“Saturday”: _(u”Sat”),
“Sunday”: _(u”Sun”)
}

day_of_week_es = {
“Today”: _(u”hoy”),
“Monday”: _(u”lunes”),
“Tuesday”: _(u”martes”),
“Wednesday”: _(u”miércoles”),
“Thursday”: _(u”jueves”),
“Friday”: _(u”viernes”),
“Saturday”: _(u”sábado”),
“Sunday”: _(u”domingo”)
}

day_of_week_short_es = {
“Today”: _(u”hoy”),
“Monday”: _(u”lun”),
“Tuesday”: _(u”mar”),
“Wednesday”: _(u”mié”),
“Thursday”: _(u”jue”),
“Friday”: _(u”vie”),
“Saturday”: _(u”sáb”),
“Sunday”: _(u”dom”)
}

day_of_week_fr = {
“Today”: _(u”Aujourd’hui”),
“Monday”: _(u”Lundi”),
“Tuesday”: _(u”Mardi”),
“Wednesday”: _(u”Mercredi”),
“Thursday”: _(u”Jeudi”),
“Friday”: _(u”Vendredi”),
“Saturday”: _(u”Samedi”),
“Sunday”: _(u”Dimanche”)
}

day_of_week_short_fr = {
“Today”: _(u”Auj”),
“Monday”: _(u”Lun”),
“Tuesday”: _(u”Mar”),
“Wednesday”: _(u”Mer”),
“Thursday”: _(u”Jeu”),
“Friday”: _(u”Ven”),
“Saturday”: _(u”Sam”),
“Sunday”: _(u”Dim”)
}

bearing_arrow_font = {
“N”: _(u”i”),
“NNE”: _(u”j”),
“NE”: _(u”k”),
“ENE”: _(u”l”),
“E”: _(u”m”),
“ESE”: _(u”n”),
“SE”: _(u”o”),
“SSE”: _(u”p”),
“S”: _(u”a”),
“SSW”: _(u”b”),
“SW”: _(u”c”),
“WSW”: _(u”d”),
“W”: _(u”e”),
“WNW”: _(u”f”),
“NW”: _(u”g”),
“NNW”: _(u”h”),
“N/A”: _(u” “)
}

bearing_text_es = {
“N”: _(u”N”),
“NNE”: _(u”NNE”),
“NE”: _(u”NE”),
“ENE”: _(u”ENE”),
“E”: _(u”E”),
“ESE”: _(u”ESE”),
“SE”: _(u”SE”),
“SSE”: _(u”SSE”),
“S”: _(u”S”),
“SSW”: _(u”SSO”),
“SW”: _(u”SO”),
“WSW”: _(u”WOW”),
“W”: _(u”O”),
“WNW”: _(u”ONO”),
“NW”: _(u”NO”),
“NNW”: _(u”NNO”),
“N/A”: _(u”N\A”)
}

bearing_text_fr = {
“N”: _(u”N”),
“NNE”: _(u”NNE”),
“NE”: _(u”NE”),
“ENE”: _(u”ENE”),
“E”: _(u”E”),
“ESE”: _(u”ESE”),
“SE”: _(u”SE”),
“SSE”: _(u”SSE”),
“S”: _(u”S”),
“SSW”: _(u”SSO”),
“SW”: _(u”SO”),
“WSW”: _(u”WOW”),
“W”: _(u”O”),
“WNW”: _(u”ONO”),
“NW”: _(u”NO”),
“NNW”: _(u”NNO”),
“N/A”: _(u”N\A”)
}

class GlobalWeather:

current_conditions = []
day_forecast = []
night_forecast = []

locale = “en”

options = None
weatherxmldoc = “”

TEMP_FILEPATH_CURRENT = “/tmp/conkyForecast-c-LOCATION.pkl”
TEMP_FILEPATH_DAYFORECAST = “/tmp/conkyForecast-df-LOCATION.pkl”
TEMP_FILEPATH_NIGHTFORECAST = “/tmp/conkyForecast-nf-LOCATION.pkl”
EXPIRY_MINUTES = 30
DEFAULT_SPACING = u” “

def __init__(self,options):

self.options = options

if self.options.locale == None:
try:
#self.locale = locale.getdefaultlocale()[0][0:2]
self.locale = “es” #uncomment this line to force Spanish locale
#self.locale = “fr” #uncomment this line to force French locale
except:
print “locale not set”
else:
#self.locale = self.options.locale
self.locale = “es” #uncomment this line to force Spanish locale
#self.locale = “fr” #uncomment this line to force French locale

if self.options.verbose == True:
print >> sys.stdout, “locale set to “,self.locale

def getText(self,nodelist):
rc = “”
for node in nodelist:
if node.nodeType == node.TEXT_NODE:
rc = rc + node.data
return rc

def getSpaces(self,spaces):
string = u””
if spaces == None:
string = self.DEFAULT_SPACING
else:
for i in range(0, spaces+1):
string = string + u” “
return string

def isNumeric(self,string):
try:
dummy = float(string)
return True
except:
return False

def isConnectionAvailable(self):
# ensure we can access weather.com’s server by opening the url
try:
usock = urllib2.urlopen(‘http://xoap.weather.com’)
usock.close()
return True
except:
return False

def getBearingText(self,bearing):
bearing = float(bearing)
if bearing < 11.25:
return u”N”
elif bearing < 33.75:
return u”NNE”
elif bearing < 56.25:
return u”NE”
elif bearing < 78.75:
return u”ENE”
elif bearing < 101.25:
return u”E”
elif bearing < 123.75:
return u”ESE”
elif bearing < 146.25:
return u”SE”
elif bearing < 168.75:
return u”SSE”
elif bearing < 191.25:
return u”S”
elif bearing < 213.75:
return u”SSW”
elif bearing < 236.25:
return u”SW”
elif bearing < 258.75:
return u”WSW”
elif bearing < 281.25:
return u”W”
elif bearing < 303.75:
return u”WNW”
elif bearing < 326.25:
return u”NW”
elif bearing < 348.75:
return u”NNW”
else:
return “N/A”

def convertCelsiusToFahrenheit(self,temp):
return str(int(floor(((float(temp)*9.0)/5.0)+32)))

def convertKilometresToMiles(self,dist):
return str(int(floor(float(dist)*0.621371192)))

def convertMillibarsToInches(self,mb):
return str(int(floor(float(mb)/33.8582)))

def getTemplateList(self,template):

templatelist = []

for template_part in template.split(“{“):
if template_part != “”:
for template_part in template_part.split(“}”):
if template_part != “”:
templatelist.append(u””+template_part)

return templatelist

def getOutputText(self,datatype,startday,endday,night,shortweekday,imperial,hideunits,spaces):
#try:
output = u””

# define current units for output
if hideunits == False:
if imperial == False:
tempunit = u”°C”
speedunit = u”kph”
pressureunit = u”mb”
else:
tempunit = u”°F”
speedunit = u”mph”
pressureunit = u”in”
else:
tempunit = u”°”
speedunit = u””
pressureunit = u””

if startday == None: # current conditions

if datatype == “DW”:
if self.locale == “es”:
if shortweekday == True:
output = WeatherText.day_of_week_short_es[self.current_conditions[0].day_of_week]
else:
output = WeatherText.day_of_week_es[self.current_conditions[0].day_of_week]
elif self.locale == “fr”:
if shortweekday == True:
output = WeatherText.day_of_week_short_fr[self.current_conditions[0].day_of_week]
else:
output = WeatherText.day_of_week_fr[self.current_conditions[0].day_of_week]
else:
if shortweekday == True:
output = WeatherText.day_of_week_short[self.current_conditions[0].day_of_week]
else:
output = WeatherText.day_of_week[self.current_conditions[0].day_of_week]
elif datatype == “WF”: # weather font
output = WeatherText.conditions_weather_font[self.current_conditions[0].condition_code]
elif datatype == “LT”:
string = self.current_conditions[0].low
if self.isNumeric(string) == True:
if imperial == True:
string = self.convertCelsiusToFahrenheit(string)
string = string + tempunit
output = string
elif datatype == “HT”:
string = self.current_conditions[0].high
if self.isNumeric(string) == True:
if imperial == True:
string = self.convertCelsiusToFahrenheit(string)
string = string + tempunit
output = string
elif datatype == “CC”:
if self.locale == “es”:
output = WeatherText.conditions_text_es[self.current_conditions[0].condition_code]
elif self.locale == “fr”:
output = WeatherText.conditions_text_fr[self.current_conditions[0].condition_code]
else:
output = WeatherText.conditions_text[self.current_conditions[0].condition_code]
elif datatype == “CT”:
output = self.current_conditions[0].condition_text
elif datatype == “PC”:
string = self.current_conditions[0].precip
if self.isNumeric(string) == True:
string = string + u”%”
output = string
elif datatype == “HM”:
string = self.current_conditions[0].humidity
if self.isNumeric(string) == True:
string = string + u”%”
output = string
elif datatype == “WD”:
string = self.current_conditions[0].wind_dir
if self.isNumeric(string) == True:
string = self.getBearingText(string)

if self.locale == “es”:
output = WeatherText.bearing_text_es[string]
elif self.locale == “fr”:
output = WeatherText.bearing_text_fr[string]
else:
output = string

elif datatype == “BF”:
string = self.current_conditions[0].wind_dir
if self.isNumeric(string) == True:
string = WeatherText.bearing_arrow_font[self.getBearingText(string)]
output = string
elif datatype == “WS”:
string = self.current_conditions[0].wind_speed
if self.isNumeric(string) == True:
if imperial == True:
string = self.convertKilometresToMiles(string)
string = string + speedunit
output = string
elif datatype == “WG”:
string = self.current_conditions[0].wind_gusts
if self.isNumeric(string) == True:
if imperial == True:
string = self.convertKilometresToMiles(string)
string = string + speedunit
output = string
elif datatype == “CN”:
output = self.current_conditions[0].city
elif datatype == “SR”:
output = self.current_conditions[0].sunrise
elif datatype == “SS”:
output = self.current_conditions[0].sunset
elif datatype == “MP”:
output = self.current_conditions[0].moon_phase
elif datatype == “MF”:
output = WeatherText.conditions_moon_font[self.current_conditions[0].moon_icon]
elif datatype == “BR”:
string = self.current_conditions[0].bar_read
if self.isNumeric(string) == True:
if imperial == True:
string = self.convertMillibarsToInches(string)
string = string + pressureunit
output = string
elif datatype == “BD”:
output = self.current_conditions[0].bar_desc
else:
output = “\nERROR:Unknown data type requested”

else: # forecast data

if endday == None: # if no endday was set use startday
endday = startday

if night == True: # night forecast required

for day_number in range(startday, endday+1):

if datatype == “DW”:
if self.locale == “es”:
if shortweekday == True:
output = output + self.getSpaces(spaces) + WeatherText.day_of_week_short_es[self.night_forecast[day_number].day_of_week]
else:
output = output + self.getSpaces(spaces) + WeatherText.day_of_week_es[self.night_forecast[day_number].day_of_week]
elif self.locale == “fr”:
if shortweekday == True:
output = output + self.getSpaces(spaces) + WeatherText.day_of_week_short_fr[self.night_forecast[day_number].day_of_week]
else:
output = output + self.getSpaces(spaces) + WeatherText.day_of_week_fr[self.night_forecast[day_number].day_of_week]
else:
if shortweekday == True:
output = output + self.getSpaces(spaces) + WeatherText.day_of_week_short[self.night_forecast[day_number].day_of_week]
else:
output = output + self.getSpaces(spaces) + WeatherText.day_of_week[self.night_forecast[day_number].day_of_week]
elif datatype == “WF”: # weather font
output = output + self.getSpaces(spaces) + WeatherText.conditions_weather_font[self.night_forecast[day_number].condition_code]
elif datatype == “LT”:
string = self.night_forecast[day_number].low
if self.isNumeric(string) == True:
if imperial == True:
string = self.convertCelsiusToFahrenheit(string)
string = string + tempunit
output = output + self.getSpaces(spaces) + string

elif datatype == “HT”:
string = self.night_forecast[day_number].high
if self.isNumeric(string) == True:
if imperial == True:
string = self.convertCelsiusToFahrenheit(string)
string = string + tempunit
output = output + self.getSpaces(spaces) + string
elif datatype == “CC”:
if self.locale == “es”:
output = output + self.getSpaces(spaces) + WeatherText.conditions_text_es[self.night_forecast[day_number].condition_code]
elif self.locale == “fr”:
output = output + self.getSpaces(spaces) + WeatherText.conditions_text_fr[self.night_forecast[day_number].condition_code]
else:
output = output + self.getSpaces(spaces) + WeatherText.conditions_text[self.night_forecast[day_number].condition_code]
elif datatype == “CT”:
output = output + self.getSpaces(spaces) + self.night_forecast[day_number].condition_text
elif datatype == “PC”:
string = self.night_forecast[day_number].precip
if self.isNumeric(string) == True:
string = string + u”%”
output = output + self.getSpaces(spaces) + string
elif datatype == “HM”:
string = self.night_forecast[day_number].humidity
if self.isNumeric(string) == True:
string = string + u”%”
output = output + self.getSpaces(spaces) + string
elif datatype == “WD”:
string = self.night_forecast[day_number].wind_dir
if self.locale == “es”:
output = output + self.getSpaces(spaces) + WeatherText.bearing_text_es[string]
elif self.locale == “fr”:
output = output + self.getSpaces(spaces) + WeatherText.bearing_text_fr[string]
else:
output = output + self.getSpaces(spaces) + string

elif datatype == “BF”:
output = output + self.getSpaces(spaces) + WeatherText.bearing_arrow_font[self.night_forecast[day_number].wind_dir]
elif datatype == “WS”:
string = self.night_forecast[day_number].wind_speed
if self.isNumeric(string) == True:
if imperial == True:
string = self.convertKilometresToMiles(string)
string = string + speedunit
output = output + self.getSpaces(spaces) + string
elif datatype == “WG”:
string = self.night_forecast[day_number].wind_gusts
if self.isNumeric(string) == True:
if imperial == True:
string = self.convertKilometresToMiles(string)
string = string + speedunit
output = output + self.getSpaces(spaces) + string
elif datatype == “CN”:
output = output + self.getSpaces(spaces) + self.night_forecast[day_number].city
elif datatype == “SR”:
output = output + self.getSpaces(spaces) + self.night_forecast[day_number].sunrise
elif datatype == “SS”:
output = output + self.getSpaces(spaces) + self.night_forecast[day_number].sunset
elif datatype == “MP”:
output = output + self.getSpaces(spaces) + self.night_forecast[day_number].moon_phase
elif datatype == “MF”:
output = output + self.getSpaces(spaces) + WeatherText.conditions_moon_font[self.night_forecast[day_number].moon_icon]
elif datatype == “BR”:
output = output + self.getSpaces(spaces) + self.night_forecast[day_number].bar_read
elif datatype == “BD”:
output = output + self.getSpaces(spaces) + self.night_forecast[day_number].bar_desc
else:
output = “\nERROR:Unknown data type requested”
break

else: # day forecast wanted

for day_number in range(startday, endday+1):

if datatype == “DW”:
if self.locale == “es”:
if shortweekday == True:
output = output + self.getSpaces(spaces) + WeatherText.day_of_week_short_es[self.day_forecast[day_number].day_of_week]
else:
output = output + self.getSpaces(spaces) + WeatherText.day_of_week_es[self.day_forecast[day_number].day_of_week]
elif self.locale == “fr”:
if shortweekday == True:
output = output + self.getSpaces(spaces) + WeatherText.day_of_week_short_fr[self.day_forecast[day_number].day_of_week]
else:
output = output + self.getSpaces(spaces) + WeatherText.day_of_week_fr[self.day_forecast[day_number].day_of_week]
else:
if shortweekday == True:
output = output + self.getSpaces(spaces) + WeatherText.day_of_week_short[self.day_forecast[day_number].day_of_week]
else:
output = output + self.getSpaces(spaces) + WeatherText.day_of_week[self.day_forecast[day_number].day_of_week]
elif datatype == “WF”: # weather font
output = output + self.getSpaces(spaces) + WeatherText.conditions_weather_font[self.day_forecast[day_number].condition_code]
elif datatype == “LT”:
string = self.day_forecast[day_number].low
if self.isNumeric(string) == True:
if imperial == True:
string = self.convertCelsiusToFahrenheit(string)
string = string + tempunit
output = output + self.getSpaces(spaces) + string
elif datatype == “HT”:
string = self.day_forecast[day_number].high
if self.isNumeric(string) == True:
if imperial == True:
string = self.convertCelsiusToFahrenheit(string)
string = string + tempunit
output = output + self.getSpaces(spaces) + string
elif datatype == “CC”:
if self.locale == “es”:
output = output + self.getSpaces(spaces) + WeatherText.conditions_text_es[self.day_forecast[day_number].condition_code]
elif self.locale == “fr”:
output = output + self.getSpaces(spaces) + WeatherText.conditions_text_fr[self.day_forecast[day_number].condition_code]
else:
output = output + self.getSpaces(spaces) + WeatherText.conditions_text[self.day_forecast[day_number].condition_code]
elif datatype == “CT”:
output = output + self.getSpaces(spaces) + self.day_forecast[day_number].condition_text
elif datatype == “PC”:
string = self.day_forecast[day_number].precip
if self.isNumeric(string) == True:
string = string + u”%”
output = output + self.getSpaces(spaces) + string
elif datatype == “HM”:
string = self.day_forecast[day_number].humidity
if self.isNumeric(string) == True:
string = string + u”%”
output = output + self.getSpaces(spaces) + string
elif datatype == “WD”:
string = self.day_forecast[day_number].wind_dir

if self.locale == “es”:
output = output + self.getSpaces(spaces) + WeatherText.bearing_text_es[string]
elif self.locale == “fr”:
output = output + self.getSpaces(spaces) + WeatherText.bearing_text_fr[string]
else:
output = output + self.getSpaces(spaces) + string

elif datatype == “BF”:
output = output + self.getSpaces(spaces) + WeatherText.bearing_arrow_font[self.day_forecast[day_number].wind_dir]
elif datatype == “WS”:
string = self.day_forecast[day_number].wind_speed
if self.isNumeric(string) == True:
if imperial == True:
string = self.convertKilometresToMiles(string)
string = string + speedunit
output = output + self.getSpaces(spaces) + string
elif datatype == “WG”:
string = self.day_forecast[day_number].wind_gusts
if self.isNumeric(string) == True:
if imperial == True:
string = self.convertKilometresToMiles(string)
string = string + speedunit
output = output + self.getSpaces(spaces) + string
elif datatype == “CN”:
output = output + self.getSpaces(spaces) + self.day_forecast[day_number].city
elif datatype == “SR”:
output = output + self.getSpaces(spaces) + self.day_forecast[day_number].sunrise
elif datatype == “SS”:
output = output + self.getSpaces(spaces) + self.day_forecast[day_number].sunset
elif datatype == “MP”:
output = output + self.getSpaces(spaces) + self.day_forecast[day_number].moon_phase
elif datatype == “MF”:
output = output + self.getSpaces(spaces) + WeatherText.conditions_moon_font[self.day_forecast[day_number].moon_icon]
elif datatype == “BR”:
output = output + self.getSpaces(spaces) + self.day_forecast[day_number].bar_read
elif datatype == “BD”:
output = output + self.getSpaces(spaces) + self.day_forecast[day_number].bar_desc
else:
output = u”\nERROR:Unknown data type requested”
break

output = u””+output.strip(u” “) # lose leading/trailing spaces
return output

#except:
#print “getOutputText:Unexpected error: “, sys.exc_info()[0]

def getOutputTextFromTemplate(self,template):
#try:

# keys to template data
DATATYPE_KEY = “–datatype=”
STARTDAY_KEY = “–startday=”
ENDDAY_KEY = “–endday=”
NIGHT_KEY = “–night”
SHORTWEEKDAY_KEY = “–shortweekday”
IMPERIAL_KEY = “–imperial”
HIDEUNITS_KEY = “–hideunits”
SPACES_KEY = “–spaces=”

output = u””

optionfound = False

#load the file
try:
fileinput = open(self.options.template)
template = fileinput.read()
fileinput.close()
except:
output = u”Template file no found!”

templatelist = self.getTemplateList(template)

# lets walk through the template list and determine the output for each item found
for i in range(0,len(templatelist)-1):

pos = templatelist[i].find(DATATYPE_KEY)
if pos != -1:
optionfound = True
pos = pos + len(DATATYPE_KEY)
datatype = templatelist[i][pos:pos+4].strip(“}”).strip(“{“).strip(“-“).strip(” “)
else:
datatype = None

pos = templatelist[i].find(STARTDAY_KEY)
if pos != -1:
optionfound = True
pos = pos + len(STARTDAY_KEY)
startday = int(templatelist[i][pos:pos+4].strip(“}”).strip(“{“).strip(“-“).strip(” “))
else:
startday = None

pos = templatelist[i].find(ENDDAY_KEY)
if pos != -1:
optionfound = True
pos = pos + len(ENDDAY_KEY)
endday = int(templatelist[i][pos:pos+4].strip(“}”).strip(“{“).strip(“-“).strip(” “))
else:
endday = None

pos = templatelist[i].find(NIGHT_KEY)
if pos != -1:
optionfound = True
night = True
else:
night = False

pos = templatelist[i].find(SHORTWEEKDAY_KEY)
if pos != -1:
optionfound = True
shortweekday = True
else:
shortweekday = False

pos = templatelist[i].find(IMPERIAL_KEY)
if pos != -1:
optionfound = True
imperial = True
else:
imperial = False

pos = templatelist[i].find(HIDEUNITS_KEY)
if pos != -1:
optionfound = True
hideunits = True
else:
hideunits = False

pos = templatelist[i].find(SPACES_KEY)
if pos != -1:
optionfound = True
pos = pos + len(SPACES_KEY)
spaces = int(templatelist[i][pos:pos+4].strip(“}”).strip(“{“).strip(“-“).strip(” “))
else:
spaces = 1

if optionfound == True:
templatelist[i] = self.getOutputText(datatype,startday,endday,night,shortweekday,imperial,hideunits,spaces)
optionfound = False

# go through the list concatenating the output now that it’s been populated
for item in templatelist:
output = output + item

return output

#except:
#print “getOutputTextFromTemplate:Unexpected error: “, sys.exc_info()[0]

def fetchData(self):

# always fetch metric data, use conversation functions on this data
file_path_current = self.TEMP_FILEPATH_CURRENT.replace(“LOCATION”,self.options.location)
file_path_dayforecast = self.TEMP_FILEPATH_DAYFORECAST.replace(“LOCATION”,self.options.location)
file_path_nightforecast = self.TEMP_FILEPATH_NIGHTFORECAST.replace(“LOCATION”,self.options.location)

if self.isConnectionAvailable() == False:
if os.path.exists(file_path_current):
RefetchData = False
else: # no connection, no cache, bang!
print “No internet connection is available and no cached weather data exists.”
elif self.options.refetch == True:
RefetchData = True
else:
# does the data need retrieving again?
if os.path.exists(file_path_current):
lastmodDate = time.localtime(os.stat(file_path_current)[ST_MTIME])
expiryDate = (datetime.datetime.today() – datetime.timedelta(minutes=self.EXPIRY_MINUTES)).timetuple()

if expiryDate > lastmodDate:
RefetchData = True
else:
RefetchData = False
else:
RefetchData = True

# fetch the current conditions data, either from the website or by ‘unpickling’
if RefetchData == True:

# obtain current conditions data from xoap service
try:

# http://xoap.weather.com/weather/local/UKXX0103?cc=*&dayf=5&link=xoap∏=xoap&par=1061785028&key=e374effbfd74930b

url = ‘http://xoap.weather.com/weather/local/’ + self.options.location + ‘?cc=*&dayf=8&link=xoap∏=xoap&par=1061785028&key=e374effbfd74930b&unit=m’
if self.options.verbose == True:
print >> sys.stdout, “fetching weather data from “,url

usock = urllib2.urlopen(url)
xml = usock.read()
usock.close()
self.weatherxmldoc = minidom.parseString(xml)
except:
print “fetchData:Unexpected error: “, sys.exc_info()[0]
print “Unable to contact weather source for current conditions”

# tell the user if the location is bad…
found = xml.find(“Invalid location provided”)
if found != -1:
print “Invalid location provided”

# interrogate weather data, load into class structure and pickle it
try:

# prepare weather data lists
self.current_conditions = []
self.day_forecast = []
self.night_forecast = []

# collect general data
weather_n = self.weatherxmldoc.documentElement
location_n = weather_n.getElementsByTagName(‘loc’)[0]
city_n = location_n.getElementsByTagName(‘dnam’)[0]
city = self.getText(city_n.childNodes)

# collect current conditions data
day_of_week = u”Today”
precip = u”N/A”
sunrise_n = location_n.getElementsByTagName(‘sunr’)[0]
sunrise = self.getText(sunrise_n.childNodes)
sunset_n = location_n.getElementsByTagName(‘suns’)[0]
sunset = self.getText(sunset_n.childNodes)
current_condition_n = weather_n.getElementsByTagName(‘cc’)[0]
current_desc_n = current_condition_n.getElementsByTagName(‘t’)[0]
current_desc = self.getText(current_desc_n.childNodes)
current_code_n = current_condition_n.getElementsByTagName(‘icon’)[0]
current_code = self.getText(current_code_n.childNodes)
current_temp_n = current_condition_n.getElementsByTagName(‘tmp’)[0]
current_temp = self.getText(current_temp_n.childNodes)
current_temp_feels_n = current_condition_n.getElementsByTagName(‘flik’)[0]
current_temp_feels = self.getText(current_temp_feels_n.childNodes)
bar_n = current_condition_n.getElementsByTagName(‘bar’)[0]
bar_read_n = bar_n.getElementsByTagName(‘r’)[0]
bar_read = self.getText(bar_read_n.childNodes)
bar_desc_n = bar_n.getElementsByTagName(‘d’)[0]
bar_desc = self.getText(bar_desc_n.childNodes)
wind_n = current_condition_n.getElementsByTagName(‘wind’)[0]
wind_speed_n = wind_n.getElementsByTagName(‘s’)[0]
wind_speed = self.getText(wind_speed_n.childNodes)
wind_gust_n = wind_n.getElementsByTagName(‘gust’)[0]
wind_gusts = self.getText(wind_gust_n.childNodes)
wind_dir_n = wind_n.getElementsByTagName(‘d’)[0]
wind_direction = self.getText(wind_dir_n.childNodes)
humidity_n = current_condition_n.getElementsByTagName(‘hmid’)[0]
humidity = self.getText(humidity_n.childNodes)
moon_n = current_condition_n.getElementsByTagName(‘moon’)[0]
moon_icon_n = moon_n.getElementsByTagName(‘icon’)[0]
moon_icon = self.getText(moon_icon_n.childNodes)
moon_phase_n = moon_n.getElementsByTagName(‘t’)[0]
moon_phase = self.getText(moon_phase_n.childNodes)
current_conditions_data = WeatherData(day_of_week, current_temp_feels, current_temp, current_code, current_desc, precip, humidity, wind_direction, wind_speed, wind_gusts, city, sunrise, sunset, moon_phase, moon_icon, bar_read, bar_desc)
self.current_conditions.append(current_conditions_data)

# collect forecast data
bar_read = u”N/A”
bar_desc = u”N/A”
moon_phase = u”N/A”
moon_icon = u”na”
forecast_n = weather_n.getElementsByTagName(‘dayf’)[0]
day_nodes = forecast_n.getElementsByTagName(‘day’)

for day in day_nodes:
day_of_week = day.getAttribute(‘t’)
day_of_year = day.getAttribute(‘dt’)
high_temp_n = day.getElementsByTagName(‘hi’)[0]
high_temp = self.getText(high_temp_n.childNodes)
low_temp_n = day.getElementsByTagName(‘low’)[0]
low_temp = self.getText(low_temp_n.childNodes)

sunrise_n = day.getElementsByTagName(‘sunr’)[0]
sunrise = self.getText(sunrise_n.childNodes)
sunset_n = day.getElementsByTagName(‘suns’)[0]
sunset = self.getText(sunset_n.childNodes)

# day forecast specific data
daytime_n = day.getElementsByTagName(‘part’)[0] # day
condition_code_n = daytime_n.getElementsByTagName(‘icon’)[0]
condition_code = self.getText(condition_code_n.childNodes)
condition_n = daytime_n.getElementsByTagName(‘t’)[0]
condition = self.getText(condition_n.childNodes)
precip_n = daytime_n.getElementsByTagName(‘ppcp’)[0]
precip = self.getText(precip_n.childNodes)
humidity_n = daytime_n.getElementsByTagName(‘hmid’)[0]
humidity = self.getText(humidity_n.childNodes)
wind_n = daytime_n.getElementsByTagName(‘wind’)[0]
wind_speed_n = wind_n.getElementsByTagName(‘s’)[0]
wind_speed = self.getText(wind_speed_n.childNodes)
wind_direction_n = wind_n.getElementsByTagName(‘t’)[0]
wind_direction = self.getText(wind_direction_n.childNodes)
wind_gusts_n = wind_n.getElementsByTagName(‘gust’)[0]
wind_gusts = self.getText(wind_gusts_n.childNodes)
day_forecast_data = WeatherData(day_of_week, low_temp, high_temp, condition_code, condition, precip, humidity, wind_direction, wind_speed, wind_gusts, city, sunrise, sunset, moon_phase, moon_icon, bar_read, bar_desc)
self.day_forecast.append(day_forecast_data)

# night forecast specific data
daytime_n = day.getElementsByTagName(‘part’)[1] # night
condition_code_n = daytime_n.getElementsByTagName(‘icon’)[0]
condition_code = self.getText(condition_code_n.childNodes)
condition_n = daytime_n.getElementsByTagName(‘t’)[0]
condition = self.getText(condition_n.childNodes)
precip_n = daytime_n.getElementsByTagName(‘ppcp’)[0]
precip = self.getText(precip_n.childNodes)
humidity_n = daytime_n.getElementsByTagName(‘hmid’)[0]
humidity = self.getText(humidity_n.childNodes)
wind_n = daytime_n.getElementsByTagName(‘wind’)[0]
wind_speed_n = wind_n.getElementsByTagName(‘s’)[0]
wind_speed = self.getText(wind_speed_n.childNodes)
wind_direction_n = wind_n.getElementsByTagName(‘t’)[0]
wind_direction = self.getText(wind_direction_n.childNodes)
wind_gusts_n = wind_n.getElementsByTagName(‘gust’)[0]
wind_gusts = self.getText(wind_gusts_n.childNodes)
night_forecast_data = WeatherData(day_of_week, low_temp, high_temp, condition_code, condition, precip, humidity, wind_direction, wind_speed, wind_gusts, city, sunrise, sunset, moon_phase, moon_icon, bar_read, bar_desc)
self.night_forecast.append(night_forecast_data)

# pickle the data for next time!
fileoutput = open(file_path_current, ‘w’)
pickle.dump(self.current_conditions,fileoutput)
fileoutput.close()

fileoutput = open(file_path_dayforecast, ‘w’)
pickle.dump(self.day_forecast,fileoutput)
fileoutput.close()

fileoutput = open(file_path_nightforecast, ‘w’)
pickle.dump(self.night_forecast,fileoutput)
fileoutput.close()

except:
print “fetchData:Unexpected error: “, sys.exc_info()[0]
print “Unable to interrogate the weather data”

else: # fetch weather data from pickled class files
if self.options.verbose == True:
print >> sys.stdout, “fetching weather data from file: “,file_path_current

fileinput = open(file_path_current, ‘r’)
self.current_conditions = pickle.load(fileinput)
fileinput.close()

if self.options.verbose == True:
print >> sys.stdout, “fetching day forecast data from files: “,file_path_dayforecast, file_path_nightforecast

fileinput = open(file_path_dayforecast, ‘r’)
self.day_forecast = pickle.load(fileinput)
fileinput.close()

if self.options.verbose == True:
print >> sys.stdout, “fetching day forecast data from files: “,file_path_nightforecast, file_path_nightforecast

fileinput = open(file_path_nightforecast, ‘r’)
self.night_forecast = pickle.load(fileinput)
fileinput.close()

def outputData(self):
#try:

if self.options.template != None:

output = self.getOutputTextFromTemplate(self.options.template)

else:

output = self.getOutputText(self.options.datatype,self.options.startday,self.options.endday,self.options.night,self.options.shortweekday,self.options.imperial,self.options.hideunits,self.options.spaces)

print output.encode(“utf-8”)

#except:
#print “outputData:Unexpected error: “, sys.exc_info()[0]

if __name__ == “__main__”:

parser = CommandLineParser()
(options, args) = parser.parse_args()

if options.verbose == True:
print >> sys.stdout, “location:”,options.location
print >> sys.stdout, “imperial:”,options.imperial
print >> sys.stdout, “datatype:”,options.datatype
print >> sys.stdout, “night:”,options.night
print >> sys.stdout, “start day:”,options.startday
print >> sys.stdout, “end day:”,options.endday
print >> sys.stdout, “spaces:”,options.spaces
print >> sys.stdout, “verbose:”,options.verbose
print >> sys.stdout, “refetch:”,options.refetch

# create new global weather object
weather = GlobalWeather(options)
weather.fetchData()
weather.outputData()

Creamos el archivo ~/Conky/scripts/myweather.template

gedit ~/Conky/scripts/myweather.template

pegamos dentro lo siguiente:

{–datatype=DW –startday=1}: {–datatype=CC –startday=1}
{–datatype=HT –startday=1} / {–datatype=LT –startday=1} Viento del {–datatype=WD –startday=1} a {–datatype=WS –startday=1}
Humedad: {–datatype=HM –startday=1} Precipitacion: {–datatype=PC –startday=1}
Salida del Sol: {–datatype=SR –startday=1} Ocaso: {–datatype=SS –startday=1}
———————————————–
{–datatype=DW –startday=2}: {–datatype=CC –startday=2}
{–datatype=HT –startday=2} / {–datatype=LT –startday=2} Viento del {–datatype=WD –startday=2} a {–datatype=WS –startday=2}
Humedad: {–datatype=HM –startday=2} Precipitacion: {–datatype=PC –startday=2}
Salida del Sol: {–datatype=SR –startday=2} Ocaso: {–datatype=SS –startday=2}
———————————————–
{–datatype=DW –startday=3}: {–datatype=CC –startday=3}
{–datatype=HT –startday=3} / {–datatype=LT –startday=3} Viento del {–datatype=WD –startday=3} a {–datatype=WS –startday=3}
Humedad: {–datatype=HM –startday=3} Precipitacion: {–datatype=PC –startday=3}
Salida del Sol: {–datatype=SR –startday=3} Ocaso: {–datatype=SS –startday=3}
———————————————–
{–datatype=DW –startday=4}: {–datatype=CC –startday=4}
{–datatype=HT –startday=4} / {–datatype=LT –startday=4} Viento del {–datatype=WD –startday=4} a {–datatype=WS –startday=4}
Humedad: {–datatype=HM –startday=4} Precipitacion: {–datatype=PC –startday=4}
Salida del Sol: {–datatype=SR –startday=4} Ocaso: {–datatype=SS –startday=4}

Creamos el archivo ~/Conky/scripts/mail/conkyEmail.py ( hay que crear la carpeta mail)

gedit ~/Conky/scripts/mail/conkyEmail.py

y pegamos dentro lo siguiente:

import os
import string

#Enter your username and password below within double quotes
# eg. username=”username” and password=”password”
username=”TU_USUARIO_SINARROBA
password=”TU_CLAVE

com=”wget -O – https://”+username+”:”+password+”@mail.google.com/mail/feed/atom –no-check-certificate”

temp=os.popen(com)
msg=temp.read()
index=string.find(msg,”<fullcount>”)
index2=string.find(msg,”</fullcount>”)
fc=int(msg[index+11:index2])

if fc==0:
print “0 new”
else:
print str(fc)+” new”

Asique ahora tenes 7 archivos:

En la carpeta: ~
–> .startconky <<– hacer ejecutable

En la carpeta: ~/Conky
–> conkymain
–> conkyforecast
–> conkymail

y en la carpeta: ~/Conky/scripts
–> conkyForecast.py <<– hacer ejecutable
–> myweather.template

y en la carpeta: ~/Conky/scripts/mail
conkyEmail.py <<– hacer ejecutable

y eso es todo, aclaraciones, donde dice /home/usuario/…va tu nombre de usuario y en la parte donde van los datos de Gmail, resalté en colores sonde hay que poner tus datos.

para matar el proceso de conky escribe en una consola

killall conky

para ejecutar conky escribe en una consola

./.startconky

una vez que tengas todo ajustado, si querés que conky inicie en cada sesión

Sistema—>Preferencias—>Sesiones y en programas de inicio lo añadimos

en Nombre podemos escribir Conky, en Orden ./.startconky con eso se iniciará cada vez que enciendas la pc.

Eso es todo, espero que les sirva.


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