wttr.in the right way to check the weather!
wttr.in is a console-oriented weather forecast service that supports various information
representation methods like terminal-oriented ANSI-sequences for console HTTP clients
(curl, httpie, or wget), HTML for web browsers, or PNG for graphical viewers.
wttr.in uses wego for visualization
and various data sources for weather forecast information.
You can see it running here: wttr.in.
You can access the service from a shell or from a Web browser like this:
$ curl wttr.in
Weather for City: Paris, France
\ / Clear
.-. 10 11 °C
( ) 11 km/h
`- 10 km
/ \ 0.0 mm
Here is an actual weather report for your location (it’s live!):
(It’s not your actual location – GitHub’s CDN hides your real IP address with its own IP address,
but it’s still a live weather report in your language.)
Or in PowerShell:
(Invoke-WebRequest http://wttr.in).Content
Want to get the weather information for a specific location? You can add the desired location to the URL in your
request like this:
$ curl wttr.in/London
$ curl wttr.in/Moscow
$ curl wttr.in/Salt+Lake+City
If you omit the location name, you will get the report for your current location based on your IP address.
Use 3-letter airport codes in order to get the weather information at a certain airport:
$ curl wttr.in/muc # Weather for IATA: muc, Munich International Airport, Germany
$ curl wttr.in/ham # Weather for IATA: ham, Hamburg Airport, Germany
Let’s say you’d like to get the weather for a geographical location other than a town or city – maybe an attraction
in a city, a mountain name, or some special location. Add the character ~ before the name to look up that special
location name before the weather is then retrieved:
$ curl wttr.in/~Vostok+Station
$ curl wttr.in/~Eiffel+Tower
$ curl wttr.in/~Kilimanjaro
For these examples, you’ll see a line below the weather forecast output that shows the geolocation
results of looking up the location:
Location: Vostok Station, , AAT, Antarctica [-78.4642714,106.8364678]
Location: Tour Eiffel, 5, Avenue Anatole France, Gros-Caillou, 7e, Paris, Île-de-France, 75007, France [48.8582602,2.29449905432]
Location: Kilimanjaro, Northern, Tanzania [-3.4762789,37.3872648]
You can also use IP-addresses (direct) or domain names (prefixed with @) to specify a location:
$ curl wttr.in/@github.com
$ curl wttr.in/@msu.ru
To get detailed information online, you can access the /:help page:
$ curl wttr.in/:help
Weather Units
By default the USCS units are used for the queries from the USA and the metric system for the rest of the world.
You can override this behavior by adding ?u or ?m to a URL like this:
$ curl wttr.in/Amsterdam?u
$ curl wttr.in/Amsterdam?m
Supported output formats and views
wttr.in currently supports five output formats:

  • ANSI for the terminal;
  • Plain-text for the terminal and scripts;
  • HTML for the browser;
  • PNG for the graphical viewers;
  • JSON for scripts and APIs;
  • Prometheus metrics for scripts and APIs.

The ANSI and HTML formats are selected basing on the User-Agent string.
The PNG format can be forced by adding .png to the end of the query:
$ wget wttr.in/Paris.png
You can use all of the options with the PNG-format like in an URL, but you have
to separate them with _ instead of ? and &:
$ wget wttr.in/Paris_0tqp_lang=fr.png
Useful options for the PNG format:

  • t for transparency (transparency=150);
  • transparency=0..255 for a custom transparency level.

Transparency is a useful feature when weather PNGs are used to add weather data to pictures:
$ convert source.jpg <( curl wttr.in/Oymyakon_tqp0.png ) -geometry +50+50 -composite target.jpg
In this example:

  • source.jpg – source file;
  • target.jpg – target file;
  • Oymyakon – name of the location;
  • tqp0 – options (recommended).

You can embed a special wttr.in widget, that displays the weather condition for the current or a selected location, into a HTML page using the wttr-switcher. That is how it looks like: wttr-switcher-example or on a real world web site: https://feuerwehr-eisolzried.de/.
One-line output
For one-line output format, specify additional URL parameter format:
$ curl wttr.in/Nuremberg?format=3
Nuremberg: +11C
Available preconfigured formats: 1, 2, 3, 4 and the custom format using the percent notation (see below).
You can specify multiple locations separated with : (for repeating queries):
$ curl wttr.in/Nuremberg:Hamburg:Berlin?format=3
Nuremberg: +11C
Or to process all this queries at once:
$ curl -s ‘wttr.in/{Nuremberg,Hamburg,Berlin}?format=3′
Nuremberg: +11C
Hamburg: +8C
Berlin: +8C
To specify your own custom output format, use the special %-notation:
c Weather condition,
C Weather condition textual name,
h Humidity,
t Temperature (Actual),
f Temperature (Feels Like),
w Wind,
l Location,
m Moonphase ,
M Moonday,
p precipitation (mm),
o Probability of Precipitation,
P pressure (hPa),
D Dawn*,
S Sunrise*,
z Zenith*,
s Sunset*,
d Dusk*.
(times are shown in the local timezone)
So, these two calls are the same:
$ curl wttr.in/London?format=3
London: +7C
$ curl wttr.in/London?format=”%l:+%c+%t”
London: +7C
Keep in mind, that when using in tmux.conf, you have to escape % with %, i.e. write there %% instead of %.
In programs, that are querying the service automatically (such as tmux), it is better to use some reasonable update interval. In tmux, you can configure it with status-interval.
If several, : separated locations, are specified in the query, specify update period
as an additional query parameter period=:
set -g status-interval 60
WEATHER=’#(curl -s wttr.in/London:Stockholm:Moscow\?format\=”%%l:+%%c%%20%%t%%60%%w&period=60″)’
set -g status-right “$WEATHER …”
To see emojis in terminal, you need:

  1. Terminal support for emojis (was added to Cairo 1.15.8);
  2. Font with emojis support.

For the Emoji font, we recommend Noto Color Emoji, and a good alternative option would be the Emoji One font;
both of them support all necessary emoji glyphs.
Font configuration:
$ cat ~/.config/fontconfig/fonts.conf
<?xml version=”1.0″ encoding=”UTF-8″?>
<!DOCTYPE fontconfig SYSTEM “fonts.dtd”>
<family>Noto Color Emoji</family>
<family>Noto Color Emoji</family>
<family>Noto Color Emoji</family>
(to apply the configuration, run fc-cache -f -v)
Data-rich output format
In the experimental data-rich output format, that is available under the view code v2,
a lot of additional weather and astronomical information is available:

  • Temperature, and precepetation changes forecast throughout the days;
  • Moonphase for today and the next three days;
  • The current weather condition, temperature, humidity, windspeed and direction, pressure;
  • Timezone;
  • Dawn, sunrise, noon, sunset, dusk time for he selected location;
  • Precise geographical coordinates for the selected location.

$ curl v2.wttr.in/München
$ curl wttr.in/München?format=v2
or, if you prefer Nerd Fonts instead of Emoji, v2d (day) or v2n (night):
$ curl v2d.wttr.in/München
(The mode is experimental, and it has several limitations currently:

  • It works only in terminal;
  • Only English is supported).

Currently, you need some tweaks for some terminals, to get the best possible visualization.
Depending on your configuration you might be taking all steps, or only a few. URXVT currenly doesn’t support emoji related fonts, but we can get almost the same effect using Font-Symbola. So add to your .Xresources file the following line:
You can add it after your preferred font and it will only show up when required.
Then, if you see or feel like you’re having spacing issues, add this: URxvt.letterSpace: 0
For some reason URXVT sometimes stops deciding right the word spacing and we need to force it this way.
The result, should look like:
Different output formats
JSON output
The JSON format is a feature providing access to wttr.in data through an easy-to-parse format, without requiring the user to create a complex script to reinterpret wttr.in’s graphical output.
To fetch information in JSON format, use the following syntax:
$ curl wttr.in/Detroit?format=j1
This will fetch information on the Detroit region in JSON format. The j1 format code is used to allow for the use of other layouts for the JSON output.
The result will look something like the following:
“current_condition”: [
“FeelsLikeC”: “25”,
“FeelsLikeF”: “76”,
“cloudcover”: “100”,
“humidity”: “76”,
“observation_time”: “04:08 PM”,
“precipMM”: “0.2”,
“pressure”: “1019”,
“temp_C”: “22”,
“temp_F”: “72”,
“uvIndex”: 5,
“visibility”: “16”,
“weatherCode”: “122”,
“weatherDesc”: [
“value”: “Overcast”
“weatherIconUrl”: [
“value”: “”
“winddir16Point”: “NNE”,
“winddirDegree”: “20”,
“windspeedKmph”: “7”,
“windspeedMiles”: “4”

Most of these values are self-explanatory, aside from weatherCode. The weatherCode is an enumeration which you can find at either the WorldWeatherOnline website or in the wttr.in source code.
Prometheus Metrics Output
The Prometheus Metrics format is a feature providing access to wttr.in data through an easy-to-parse format for monitoring systems, without requiring the user to create a complex script to reinterpret wttr.in’s graphical output.
To fetch information in Prometheus format, use the following syntax:
$ curl wttr.in/Detroit?format=p1
This will fetch information on the Detroit region in Prometheus Metrics format. The p1 format code is used to allow for the use of other layouts for the Prometheus Metrics output.
A possible configuration for Prometheus could look like this:
– job_name: ‘wttr_in_detroit’
– targets: [‘wttr.in’]
metrics_path: ‘/Detroit’
format: [‘p1’]
The result will look something like the following:
# HELP temperature_feels_like_celsius Feels Like Temperature in Celsius
temperature_feels_like_celsius{forecast=”current”} 7
# HELP temperature_feels_like_fahrenheit Feels Like Temperature in Fahrenheit
temperature_feels_like_fahrenheit{forecast=”current”} 45

Moon phases
wttr.in can also be used to check the phase of the Moon. This example shows how to see the current Moon phase
in the full-output mode:
$ curl wttr.in/Moon
Get the Moon phase for a particular date by adding @YYYY-MM-DD:
$ curl wttr.in/Moon@2016-12-25
The Moon phase information uses pyphoon as its backend.
To get the moon phase information in the online mode, use %m:
$ curl wttr.in/London?format=%m
Keep in mid that the Unicode representation of moonphases suffers 2 caveats:

  • With some fonts, the representation is ambiguous, for it either seem
    almost-shadowed or almost-lit, depedending on whether your terminal is in
    light mode or dark mode. Relying on colored fonts like noto-fonts works
    around this problem.
  • The representation is also ambiguous, for it means “last quarter” in
    northern hemisphere, but “first quarter” in souther hemisphere. It also means
    nothing in tropical zones. This is a limitation that
    Unicode is aware about.
    But it has not been worked around at wttr.in yet.

See #247, #364 for the corresponding tracking issues,
and pyphoon#1 for pyphoon. Any help is welcome.
Internationalization and localization
wttr.in supports multilingual locations names that can be specified in any language in the world
(it may be surprising, but many locations in the world don’t have an English name).
The query string should be specified in Unicode (hex-encoded or not). Spaces in the query string
must be replaced with +:
$ curl wttr.in/+
Weather report:
.–. -65 -47 °C
.-( ). 23 km/h
(___.__)__) 15 km
0.0 mm
The language used for the output (except the location name) does not depend on the input language
and it is either English (by default) or the preferred language of the browser (if the query
was issued from a browser) that is specified in the query headers (Accept-Language).
The language can be set explicitly when using console clients by using command-line options like this:
curl -H “Accept-Language: fr” wttr.in
http GET wttr.in Accept-Language:ru
The preferred language can be forced using the lang option:
$ curl wttr.in/Berlin?lang=de
The third option is to choose the language using the DNS name used in the query:
$ curl de.wttr.in/Berlin
wttr.in is currently translated into 54 languages, and the number of supported languages is constantly growing.
See /:translation to learn more about the translation process,
to see the list of supported languages and contributors, or to know how you can help to translate wttr.in
in your language.
Windows Users
There are currently two Windows related issues that prevent the examples found on this page from working exactly as expected out of the box. Until Microsoft fixes the issues, there are a few workarounds. To circumvent both issues you may use a shell such as bash on the Windows Subsystem for Linux (WSL) or read on for alternative solutions.
Garbage characters in the output
There is a limitation of the current Win32 version of curl. Until the Win32 curl issue is resolved and rolled out in a future Windows release, it is recommended that you use Powershells Invoke-Web-Request command instead:

  • (Invoke-WebRequest http://wttr.in).Content

Missing or double wide diagonal wind direction characters
The second issue is regarding the width of the diagonal arrow glyphs that some Windows Terminal Applications such as the default conhost.exe use. At the time of writing this, ConEmu.exe, ConEmu64.exe and Terminal Applications built on top of ConEmu such as Cmder (cmder.exe) use these double-wide glyphs by default. The result is the same with all of these programs, either a missing character for certain wind directions or a broken table in the output or both. Some third-party Terminal Applications have addressed the wind direction glyph issue but that fix depends on the font and the Terminal Application you are using.
One way to display the diagonal wind direction glyphs in your Terminal Application is to use Windows Terminal which is currently available in the Microsoft Store. Windows Terminal is currently a preview release and will be rolled out as the default Terminal Application in an upcoming release. If your output is still skewed after using Windows Terminal then try maximizing the terminal window.
Another way you can display the diagonal wind direction is to swap out the problematic characters with forward and backward slashes as shown here.
To install the application:

  1. Install external dependencies
  2. Install Python dependencies used by the service
  3. Configure IP2Location (optional)
  4. Get a WorldWeatherOnline API and configure wego
  5. Configure wttr.in
  6. Configure the HTTP-frontend service

Install external dependencies
wttr.in has the following external dependencies:

  • golang, wego dependency
  • wego, weather client for terminal

After you install golang, install wego:
$ go get -u github.com/schachmat/wego
$ go install github.com/schachmat/wego
Install Python dependencies
Python requirements:

  • Flask
  • geoip2
  • geopy
  • requests
  • gevent

If you want to get weather reports as PNG files, you’ll also need to install:

  • PIL
  • pyte (>=0.6)
  • necessary fonts

You can install most of them using pip.
Some python package use LLVM, so install it first:
$ apt-get install llvm-7 llvm-7-dev
If virtualenv is used:
$ virtualenv -p python3 ve
$ ve/bin/pip3 install -r requirements.txt
$ ve/bin/python3 bin/srv.py
Also, you need to install the geoip2 database.
You can use a free database GeoLite2 that can be downloaded from (http://dev.maxmind.com/geoip/geoip2/geolite2/).
Configure IP2Location (optional)
If you want to use the IP2location service for IP-addresses that are not covered by GeoLite2,
you have to obtain a API key of that service, and after that save into the ~/.ip2location.key file:
$ echo ‘YOUR_IP2LOCATION_KEY’ > ~/.ip2location.key
If you don’t have this file, the service will be silently skipped (it is not a big problem,
because the MaxMind database is pretty good).
Get a WorldWeatherOnline key and configure wego
To get a WorldWeatherOnline API key, you must register here:
After you have a WorldWeatherOnline key, you can save it into the
WWO key file: ~/.wwo.key
Also, you have to specify the key in the wego configuration:
$ cat ~/.wegorc
“City”: “London”,
“Numdays”: 3,
“Imperial”: false,
“Lang”: “en”
The City parameter in ~/.wegorc is ignored.
Configure wttr.in
Configure the following environment variables that define the path to the local wttr.in
installation, to the GeoLite database, and to the wego installation. For example:
export WTTR_MYDIR=”/home/igor/wttr.in”
export WTTR_GEOLITE=”/home/igor/wttr.in/GeoLite2-City.mmdb”
export WTTR_WEGO=”/home/igor/go/bin/wego”
export WTTR_LISTEN_PORT=”8002″
Configure the HTTP-frontend service
It’s recommended that you also configure the web server that will be used to access the service:
server {
listen [::]:80;
server_name wttr.in *.wttr.in;
access_log /var/log/nginx/wttr.in-access.log main;
error_log /var/log/nginx/wttr.in-error.log;
location / {
proxy_set_header Host $host;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Forwarded-For $remote_addr;
client_max_body_size 10m;
client_body_buffer_size 128k;
proxy_connect_timeout 90;
proxy_send_timeout 90;
proxy_read_timeout 90;
proxy_buffer_size 4k;
proxy_buffers 4 32k;
proxy_busy_buffers_size 64k;
proxy_temp_file_write_size 64k;
expires off;