// Constructor
SGWayPoint::SGWayPoint( const double lon, const double lat, const double alt,
- const modetype m, const string s ) {
+ const modetype m, const string s, const string n ) {
target_lon = lon;
target_lat = lat;
target_alt = alt;
mode = m;
id = s;
+ name = n;
}
void SGWayPoint::CourseAndDistance( const double cur_lon,
const double cur_lat,
const double cur_alt,
- double *course, double *distance ) const {
+ double *course, double *dist ) const {
if ( mode == WGS84 ) {
double reverse;
geo_inverse_wgs_84( cur_alt, cur_lat, cur_lon, target_lat, target_lon,
- course, &reverse, distance );
+ course, &reverse, dist );
} else if ( mode == SPHERICAL ) {
Point3D current( cur_lon * SGD_DEGREES_TO_RADIANS, cur_lat * SGD_DEGREES_TO_RADIANS, 0.0 );
Point3D target( target_lon * SGD_DEGREES_TO_RADIANS, target_lat * SGD_DEGREES_TO_RADIANS, 0.0 );
- calc_gc_course_dist( current, target, course, distance );
+ calc_gc_course_dist( current, target, course, dist );
*course = 360.0 - *course * SGD_RADIANS_TO_DEGREES;
} else if ( mode == CARTESIAN ) {
double dx = target_lon - cur_lon;
while ( *course > 360.0 ) {
*course -= 360.0;
}
- *distance = sqrt( dx * dx + dy * dy );
+ *dist = sqrt( dx * dx + dy * dy );
}
}
// Calculate course and distances between two waypoints
void SGWayPoint::CourseAndDistance( const SGWayPoint &wp,
- double *course, double *distance ) const {
+ double *course, double *dist ) const {
CourseAndDistance( wp.get_target_lon(),
wp.get_target_lat(),
wp.get_target_alt(),
- course, distance );
+ course, dist );
}