A simple command-line application to calculate topocentric solar coordinates and sunrise/sunset times, based on solarpositioning, a library of high-quality solar positioning algorithms. Supports time series and output formats like JSON and CSV for easy scripting and processing by other tools.
Status: beta. Current functionality works, but needs more user testing and polish.
Solarpos is a Java application, requiring a Java 21 or newer runtime. See the latest release or build from source using mvn package.
The application artifact is a single JAR file that requires no "installation". The release archive bundles this with shell scripts for simple usage, though.
If you're unsure how to get a Java runtime for your system, Adoptium is recommended.
Native builds are available for some common platforms. These do not require a Java runtime and consist of a single, stand-alone executable that can be used as is.
A Homebrew formula for solarpos is available in a separate tap. This simplifies installation to one command:
brew install klausbrunner/tap/solarpos-nativeUse klausbrunner/tap/solarpos if there's no native build for your hardware architecture. This will install the Java version of solarpos, automatically downloading a Java runtime if needed.
For detailed usage, see built-in help.
Usage: solarpos [-hV] [--headers] [--show-inputs] [--deltat[=<deltaT>]]
[--format=<format>] [--timezone=<timezone>] [@<filename>...]
<latitude> <longitude> <dateTime> [COMMAND]
Calculates topocentric solar coordinates or sunrise/sunset times.
[@<filename>...] One or more argument files containing options.
<latitude> Latitude in decimal degrees (positive North of
equator).
<longitude> Longitude in decimal degrees (positive East of
Greenwich).
<dateTime> Date/time in ISO format yyyy[-MM[-dd[['T'][ ]HH:mm[:
ss[.SSS]][XXX['['VV']']]]]]. Use 'now' for
current time and date.
--deltat[=<deltaT>] Delta T in seconds; an estimate is used if this
option is given without a value.
--format=<format> Output format, one of HUMAN, CSV, JSON.
-h, --help Show this help message and exit.
--headers Show headers in output (currently applies only to
CSV).
--show-inputs Show all inputs in output.
--timezone=<timezone> Timezone as offset (e.g. +01:00) and/or zone id (e.
g. America/Los_Angeles). Overrides any timezone
info found in dateTime.
-V, --version Print version information and exit.
Commands:
help Display help information about the specified command.
position Calculates topocentric solar coordinates.
sunrise Calculates sunrise, transit, sunset and (optionally) twilight times.
There is built-in support for calculating time series.
- If you pass only a year (e.g. 2023) or a year-month (e.g. 2023-01) to the sunrise command, you will get results for each day of that year or month.
- Similarly, the position command will calculate a time series of sun positions for the given day, month or even year.
The interval is determined by the
--stepoption (default: 1 hour).
Dates and times should be given in ISO 8601 format like "2011-12-03T10:15:30+01:00" or an unambiguous subset, such as:
- "2025-12-03" for a local date (timezone is taken from the timezone parameter if available, else the system default is used)
- "11:00" for a local time (today's date is assumed, timezone is determined as above)
- "14:00:13.312Z" for a UTC time (today's date is assumed, timezone is UTC unless overridden by the timezone parameter)
Timezones may be specified as part of the time specification or with the separate --timezone parameter. The format variants are:
- A fixed offset specified in hours and minutes, e.g. "-03:00".
- The "Z" shorthand for UTC (fixed zero offset).
- A TZ database name, such as "Asia/Singapore" (see the Wikipedia article for a full list). If one of these is used, daylight savings time (if any) will be applied automatically according to the location's rules.
The difference between universal and terrestrial time affects all solar position calculations. This is an observed value that cannot be reliably predicted into the (far) future, but past values are known at least for the last few centuries and decent estimates can be given for the next few years. Use the --deltat option without a value to request such an estimate. See the documentation of solarpositioning for more detail.
The tool supports three output formats selectable with the --format parameter:
human: Default. Simple text output for, well, humans. Most useful for single values.csv: The popular comma-separated values format, most useful for time series output and processing in various tools. Use the--headersparameter to add a header row.json: JSON, or more precisely JSON Lines (one object on each line, without an enclosing array).
Get today's sunrise and sunset for Madrid, Spain, in UTC:
solarpos 40.417 -3.704 now --timezone UTC sunriseGet the sun's position in Stockholm, Sweden, on 15 January 2023 at 12:30 Central European Time:
solarpos 59.334 18.063 2023-01-15T12:30:00+01:00 position Get a time series of sun positions for Berlin, Germany, on 26 March 2023, one position every 10 minutes, with CSV output, in local timezone and using a delta T estimate. As the transition to DST happens on this day, you'll see the changed offset in the data.
solarpos 52.522 13.413 2023-03-26 --timezone Europe/Berlin --deltat --format=csv position --step=600Get a full calendar of sunrise/sunset and twilight times for Mumbai, India for the year 2025 assuming a delta T of 69 seconds, in JSON lines format. Use the local timezone, which is Asia/Kolkata as per the tz database.
solarpos 18.97 72.83 2025 --timezone Asia/Kolkata --deltat=69 --format=json sunrise --twilightSample R notebooks demonstrating how to use timeseries output to create diagrams can be found at klausbrunner/sunpath-r.