🌌 astroterm

astroterm is a terminal-based star map written in C. It displays the real-time positions of stars, planets, constellations, and more, all within your terminal—no telescope required! Configure sky views by date, time, and location with precise ASCII-rendered visuals. See usage for all supported options!

astroterm is constantly improving, and we'd love to hear your ideas! If you have a suggestion or find a bug, please open an issue and share your feedback. See CONTRIBUTING.md for guidelines on building, testing, and contributing to astroterm.

The night sky above Singapore on January 2, 2025

The night sky above Singapore on January 2, 2025
See usage on how to obtain this view

🌌 astroterm

Features

🔭 Highly Customizable: Choose any date, time, and location to explore past, present, or future celestial events
📐 Accurate Rendering: View the moon, stars, and planets with as much precision as terminal graphics allow
🌘 Moon Phases: Precise lunar phases in real-time
🌌 Constellation Figures: Detailed constellation shapes
⚡ Performance Optimized: Lightweight and fast ASCII rendering

Stars above Syndey, AU on January 6, 2025

Stars over Sydney, Australia on January 6, 2025

Installation

Several installation methods are provided based on your platform. If none of these fit your needs, you can always build from source. Refer to troubleshooting for help resolving any issues.

Arch Linux

You can install astroterm from the extra repository using pacman:

pacman -S astroterm

Fedora

You can install astroterm directly from the Fedora package repository on Fedora 40+.

sudo dnf install astroterm

Homebrew

You can install astroterm from Homebrew via:

brew install astroterm

Nix

You can try the package in a temporary environment with the following command:

nix-shell -I nixpkgs=channel:nixpkgs-unstable -p astroterm --command astroterm

Argument flags are added by wrapping the command in quotes. For example:

nix-shell -I nixpkgs=channel:nixpkgs-unstable -p astroterm --command "astroterm -u -c"

To make astroterm available from your $PATH, install it with:

nix-env -f channel:nixpkgs-unstable -iA astroterm

Guix

You can install astroterm directly from the Guix main channel starting from this commit.

guix time-machine --commit=4b5f0408e66392ab745dc0f7830732217d88f17d -- shell astroterm

Or after guix pull:

guix shell astroterm -- astroterm --help  # to try
guix package --install astroterm          # add to current profile

Prebuilt Executable

Unix

Download the latest executable using wget
```
wget -O astroterm "https://github.com/da-luce/astroterm/releases/latest/download/astroterm-<os>-<arch>"
```
- Replace <os> with the appropriate platform:
  - Linux: linux
  - macOS: darwin
- Replace <arch> with the appropriate architecture:
  - Linux: x86_64 (arm64 support to come after Ubuntu arm64 runners are available)
  - Apple Silicon (M-series): aarch64
  - Intel-based Macs: x86_64
- To view all supported combinations, see the Releases page.
Run the executable
```
chmod +x ./astroterm
./astroterm
```

Windows

Download the latest .exe file using PowerShell's Invoke-WebRequest:

Invoke-WebRequest -Uri "https://github.com/da-luce/astroterm/releases/latest/download/astroterm-win-x86_64.exe" -OutFile "astroterm.exe"

Run the .exe
```
.\astroterm.exe
```

Building From Source

Usage

Options

The --help flag displays all supported options:

Usage: astroterm [OPTION]...
-a, --latitude=<degrees>  Observer latitude [-90°, 90°] (default: 0.0)
-o, --longitude=<degrees> Observer longitude [-180°, 180°] (default: 0.0)
-d, --datetime=<yyyy-mm-ddThh:mm:ss>
Observation datetime in UTC
-t, --threshold=<float>   Only render stars brighter than this magnitude
(default: 5.0)
-l, --label-thresh=<float>
Label stars brighter than this magnitude (default:
0.25)
-f, --fps=<int>           Frames per second (default: 24)
-s, --speed=<float>       Animation speed multiplier (default: 1.0)
-c, --color               Enable terminal colors
-C, --constellations      Draw constellation stick figures. Note: a
constellation is only drawn if all stars in the
figure are over the threshold
-g, --grid                Draw an azimuthal grid
-u, --unicode             Use unicode characters
-q, --quit-on-any         Quit on any keypress (default is to quit on 'q' or
'ESC' only)
-m, --metadata            Display metadata
-r, --aspect-ratio=<float>
Override the calculated terminal cell aspect ratio.
Use this if your projection is not 'square.' A value
around 2.0 works well for most cases
-h, --help                Print this help message
-i, --city=<city_name>    Use the latitude and longitude of the provided city.
If the name contains multiple words, enclose the
name in single or double quotes. For a list of
available cities, see:
https://github.com/da-luce/astroterm/blob/main/data/
cities.csv
-v, --version             Display version info and exit

Example 1

To achieve the "spinning globe" effect as shown in the README GIF, use the following flags:

astroterm --color --constellations --speed 10000 --fps 64 --city Singapore

astroterm -cC -s 10000 -f 64 -i Singapore

for short. In fact, any city around the equator will work. Locations closer to the poles will look different because the apparent motion of the stars is more circular around the celestial pole rather than sweeping across the sky.

Example 2

Say we wanted to view the sky at 5:00 AM (Eastern) on July 16, 1969—the morning of the Apollo 11 launch at the Kennedy Space Center in Florida. We would run:

astroterm --latitude 28.573469 --longitude -80.651070 --datetime 1969-7-16T8:00:00

Finding the precise coordinates can be cumbersome, so we could also use the nearest major city to achieve a similar result:

astroterm --city Orlando --datetime 1969-7-16T8:00:00 -m

While we're still waiting for someone to invent time travel, we can cheat a little by using Stellarium to confirm that this aligns with reality.

If we then wanted to display constellations and add color, we would add --constellations --color as options.

If you simply want the current time, don't specify the --datetime option and astroterm will use the system time. For your current location, you will still have to specify the --lat and --long options, or provide the nearest city with the --city option.

For more options and help, run astroterm -h or astroterm --help.

[!TIP] Use a tool like LatLong to get your latitude and longitude.

[!TIP] Star magnitudes decrease as apparent brightness increases, i.e., to show more stars, increase the threshold.

Troubleshooting

Release Won't Download via Curl

For some reason, curl does not follow the latest release redirect. Use wget to download the latest release or hardcode the tag in the link using curl. Or, just download via the releases page.

Broken Unicode on Linux

If Unicode characters do not display correctly in the terminal, you may need to configure your system's locale to support Unicode.

Temporarily set the locale (add this to .bashrc or equivalent to permanently enforce)

export LC_ALL="en_US.UTF-8"
export LC_CTYPE="en_US.UTF-8"

Install and configure locales (example for Ubuntu/Debian)

sudo apt update
sudo apt install -y locales
sudo dpkg-reconfigure locales

During configuration, select en_US.UTF-8 as the default locale.

Citations

Many thanks to the following resources, which were invaluable to the development of this project.

Data Sources

Stars: Yale Bright Star Catalog
Star names: IAU Star Names
Constellation figures: Stellarium (Converted from Hipparchus to BSC5 indices using the HYG Database—see convert_constellations.py)
Cities: GeoNames (Filtered and condensed using filter_cities.py)
Planet orbital elements: NASA Jet Propulsion Laboratory
Planet magnitudes: Computing Apparent Planetary Magnitudes for The Astronomical Almanac

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SYNOPSIS

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DESCRIPTION

README