A GLib style wrapper library around the Swiss Ephemeris library, created by Astrodienst.
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SWE-GLib

Build Status codecov.io

SWE-GLib is a GLib style wrapper library around Astrodienst's Swiss Ephemeris library.

The source tree contains Astrodienst's ephemeride files, as requested by Alois Treindl of Astrodienst in a mail written to me on 24 July, 2013.

GTK-Doc

The project utilizes GTK-Doc, requiring version 1.19 or later. Although the generated documentation is a bit messy (not everything is documented, and there are some unresolved variables, like [SERVER] on the generated index page.

Still, the documentation generates well, and at least gives a clue about object usage.

Bindings

SWE-GLib utilizes GObject Introspection, which means it is available for many languages. Check out the examples directory for some sample code!

Usage

Many functions return non-opaque C structs; their documentation can be found inline, and in the generated GTK-Doc. Unless otherwise stated, the returned values should never be freed.

Creating the required objects

Then you need to create a GsweTimestamp object:

GsweTimestamp *timestamp = gswe_timestamp_new_from_gregorian_full(1983, 3, 7, 11, 54, 45, 0, 1.0);

The GsweTimetamp object is used to convert dates between the Gregorian calendar dates and Julian Day values (not to be confused with Julian calendar dates).

Next, you have to create a GsweMoment object:

GsweMoment *moment = gswe_moment_new_full(timestamp, 19.081599, 47.462485, 300.0, GSWE_HOUSE_PLACIDUS);

The GsweMoment object holds information of a given moment at a given place on earth. gswe_moment_new_full() requires a GsweTimestamp object, some geographical coordinates (in degrees) together with altitude above sea level (in meters), and a house system to use.

Adding planets

After that you have to add some planets you want to do calculations on.

gswe_moment_add_planet(moment, GSWE_PLANET_SUN);

Alternatively, you can add every planets known by SWE-GLib with

gswe_moment_add_all_planets(moment);

Getting planet positions and such

Then, you can get the planet data with

GswePlanetData *sun_data = gswe_moment_get_planet(moment, GSWE_PLANET_SUN);

Getting aspects and antiscia

SWE-GLib is also able to calculate aspects and antiscia. This functionality does not exist in the Swiss Ephemeris library, though. For this, of course, you have to add multiple planets (at least two) to your GsweMoment. After that, you can call gswe_moment_get_planet_aspects() and gswe_moment_get_planet_antiscia().

GList *sun_aspects = gswe_moment_get_planet_aspects(moment, GSWE_PLANET_SUN);
GList *sun_antiscia = gswe_moment_get_planet_antiscia(moment, GSWE_PLANET_SUN);

The returned GList objects hold zero or more GsweAspectData or GsweAntiscionData objects, respectively.

Getting the Moon phase

Last, but not least, SWE-GLib can calculate Moon's phase at the given moment. For that, you have to call gswe_moment_get_moon_phase():

GsweMoonPhaseData *moon_phase = gswe_moment_get_moon_phase(moment);

About altitude

The Swiss Ephemeris library requires the altitude value to be specified for several calculations. It also notifies how important it is:

the altitude above sea must be in meters. Neglecting the altitude can result in an error of about 2 arc seconds with the moon and at an altitude 3000m.

2 arc seconds is about 0.000555 degrees of error, which is, well, kind of small. Of course, if you need very precise horoscopes or need planetary positions for a totally different thing, you should really provide a (close to) exact value; otherwise, it is safe to pass any value (well, which seems logical: the average level of all dry lands is about 840 meters; the average level of the whole planet Earth (including oceans and seas) is around 280 meters. Providing a value of ~400 should be OK most of the time).

API stability

The project is currently transitioning to 2.0. master is a bit fragile at the moment, 1.x versions are considered to be stable (although see commit 8f52aba about a huge typo-bug).

Limitations

Topocentric calculations only

Although the original Swiss Ephemeris library supports it, SWE-GLib can't do Heliocentric, nor Geocentric (as seen from the center of Earth) calculations, only Topocentric (as seen from a given point on Earths surface) calculations yet.

Database size

The size of all data files provided by Astrodienst is around 40MB. Although it should not be a problem with today's home hardware, it can be a hard requirement on embedded systems. For basic calculations, keeping the following files under $(datadir)/swe-glib is usually enough:

  • seas_18.se1
  • semo_18.se1
  • sepl_18.se1

Fixed stars are not known yet

Although Swiss Ephemeris has the functionality to calculate the position of fixed stars, SWE-GLib doesn't provide such functionality. This, however, is a planned feature for the close future.

Licencing

As the underlying Swiss Ephemeris is published under GPL (or a commercial license I can not afford), SWE-GLib is also uses that. This means that you can currently use SWE-GLib in software published under the GNU GPL v3 (or, at your option, any later version).