Loading...
index
GeographicLib::SphericalEngine::coeff
invers
invers().*!*!The ellipsoid is specified by its equatorial radius\e a(typically *!in meters) and flattening\e f.The routines are accurate to round *!off with double precision arithmetic provided that|< i >f</i >|<: geodesic.for
invers()* > A simple program to solve the inverse geodesic problem.*!*!This program reads in lines with lat1: geodinverse.for
invers(a, f, lat1, lon1, lat2, lon2,+s12, azi1, azi2, omask, dummy, dummy, dummy, dummy, dummy) print 20: geodinverse.for
Inverse
GeographicLib::Geodesic::Inverse(real lat1, real lon1, real lat2, real lon2, real &s12, real &azi1, real &azi2, real &m12, real &M12, real &M21, real &S12) const
GeographicLib::Geodesic::Inverse(real lat1, real lon1, real lat2, real lon2, real &s12) const
GeographicLib::Geodesic::Inverse(real lat1, real lon1, real lat2, real lon2, real &azi1, real &azi2) const
GeographicLib::Geodesic::Inverse(real lat1, real lon1, real lat2, real lon2, real &s12, real &azi1, real &azi2) const
GeographicLib::Geodesic::Inverse(real lat1, real lon1, real lat2, real lon2, real &s12, real &azi1, real &azi2, real &m12) const
GeographicLib::Geodesic::Inverse(real lat1, real lon1, real lat2, real lon2, real &s12, real &azi1, real &azi2, real &M12, real &M21) const
GeographicLib::Geodesic::Inverse(real lat1, real lon1, real lat2, real lon2, real &s12, real &azi1, real &azi2, real &m12, real &M12, real &M21) const
GeographicLib::GeodesicExact::Inverse(real lat1, real lon1, real lat2, real lon2, real &s12, real &azi1, real &azi2, real &m12, real &M12, real &M21, real &S12) const
GeographicLib::GeodesicExact::Inverse(real lat1, real lon1, real lat2, real lon2, real &s12) const
GeographicLib::GeodesicExact::Inverse(real lat1, real lon1, real lat2, real lon2, real &azi1, real &azi2) const
GeographicLib::GeodesicExact::Inverse(real lat1, real lon1, real lat2, real lon2, real &s12, real &azi1, real &azi2) const
GeographicLib::GeodesicExact::Inverse(real lat1, real lon1, real lat2, real lon2, real &s12, real &azi1, real &azi2, real &m12) const
GeographicLib::GeodesicExact::Inverse(real lat1, real lon1, real lat2, real lon2, real &s12, real &azi1, real &azi2, real &M12, real &M21) const
GeographicLib::GeodesicExact::Inverse(real lat1, real lon1, real lat2, real lon2, real &s12, real &azi1, real &azi2, real &m12, real &M12, real &M21) const
GeographicLib::Rhumb::Inverse()
isnan
GeographicLib::Math
Searching...
No Matches