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GEODESIC(3)						   GEODESIC(3)

NAME
       geod_init - initialize an ellipsoid
       geod_lineinit - initialize a geodesic line
       geod_position - a position on a geodesic line
       geod_direct - the direct geodesic problem
       geod_inverse - the inverse geodesic problem
       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++ li‐
       brary, GeographicLib, 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 geodes‐
       ic  and	the equator can be computed.  The results are accurate
       to round off for |f| < 1/50, where f is the  flattening.	  Note
       that  the  geodesic  routines measure angles (latitudes, longi‐
       tudes, and azimuths) in degrees, unlike the rest	 of  the  proj
       library,	 which	uses  radians.	The documentation for this li‐
       brary is included in geodesic.h.	 A formatted  version  of  the
       documentation	 is	available     at     http://geographi‐
       clib.sf.net/1.40/C

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 for‐
       ward 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\n",
		      &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),
       http://geographiclib.sf.net/1.40/C

       geod(1)

       GeographicLib, http://geographiclib.sf.net

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

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

       The online geodesic bibliography,
       http://geographiclib.sf.net/geodesic-papers/biblio.html

HOME PAGE
       http://proj.osgeo.org

			 2014/12/17 Rel. 4.9.0		   GEODESIC(3)

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