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geodesic(3)                                                        geodesic(3)




NAME

       geod_init - initialize an ellipsoid
       geod_direct geod_gendirect - the direct geodesic problem
       geod_inverse geod_geninverse - the inverse geodesic problem
       geod_lineinit  geod_directline  geod_gendirectline  geod_inverseline  -
       initialize a geodesic line
       geod_setdistance geod_gensetdistance - set distance to reference point
       geod_position geod_genposition - a position on a geodesic line
       geod_polygon_init - initialize a polygon
       geod_addpoint geod_addedge - add to a polygon
       geod_polygon_compute  geod_polygon_testpoint  geod_polygon_testedge   -
       compute properties of polygon
       geod_polygon_clear - clear polygon
       geod_polygonarea - the area of a polygon


SYNOPSIS

       #include <geodesic.h>
       and link against the proj library.


DESCRIPTION

       This library is a port of the geodesic routines in the C++ library, Ge-
       ographicLib, to C.  It solves the direct and inverse geodesic  problems
       on  an  ellipsoid  of revolution.  In addition, the reduced length of a
       geodesic and the area between a geodesic and the equator can be comput-
       ed.   The  results are accurate to round off for |f| < 1/50, where f is
       the flattening.  Note that the geodesic routines measure angles  (lati-
       tudes,  longitudes,  and  azimuths)  in degrees, unlike the rest of the
       proj library, which uses radians.  The documentation for  this  library
       is included in geodesic.h.  A formatted version of the documentation is
       available  at  https://geographiclib.sourceforge.io/1.50/C.    Detailed
       documentation   of   the   interface  is  given  at  https://geographi-
       clib.sourceforge.io/1.50/C/geodesic_8h.html.


EXAMPLE

       The following program reads in  lines  with  the  coordinates  for  two
       points in decimal degrees (lat1, lon1, lat2, lon2) and prints out azi1,
       azi2, s12 for the geodesic line between each  pair  of  points  on  the
       WGS84 ellipsoid.  (N.B. azi2 is the forward azimuth at point 2.)

       #include <stdio.h>
       #include <geodesic.h>

       int main() {
         double a = 6378137, f = 1/298.257223563; /* WGS84 */
         double lat1, lon1, azi1, lat2, lon2, azi2, s12;
         struct geod_geodesic g;

         geod_init(&g, a, f);
         while (scanf("%lf %lf %lf %lf",
                      &lat1, &lon1, &lat2, &lon2) == 4) {
           geod_inverse(&g, lat1, lon1, lat2, lon2,
                        &s12, &azi1, &azi2);
           printf("%.8f %.8f %.3f\n", azi1, azi2, s12);
         }
         return 0;
       }


LIBRARY

       libproj.a - library of projections and support procedures


SEE ALSO

       Full online documentation for geodesic(3),
       https://geographiclib.sourceforge.io/1.50/C
       https://geographiclib.sourceforge.io/1.50/C/geodesic_8h.html

       geod(1)

       GeographicLib, https://geographiclib.sourceforge.io

       The  GeodesicExact  class in GeographicLib solves the geodesic problems
       in terms of elliptic integrals; the results are accurate for  arbitrary
       f.

       C. F. F. Karney, Algorithms for Geodesics,
       J. Geodesy 87, 43-55 (2013);
       DOI: https://doi.org/10.1007/s00190-012-0578-z
       https://geographiclib.sourceforge.io/geod-addenda.html

       A geodesic bibliography,
       https://geographiclib.sourceforge.io/geodesic-papers/biblio.html

       The Wikipedia page, Geodesics on an ellipsoid,
       https://en.wikipedia.org/wiki/Geodesics_on_an_ellipsoid


BUGS

       A  list of known bugs can found at https://github.com/OSGeo/PROJ/issues
       where new bug reports can be submitted too.


HOME PAGE

       https://proj.org/



                             2020/01/01 Rel. 6.3.0                 geodesic(3)

proj 6.3.0 - Generated Fri Jan 17 15:58:39 CST 2020
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