X-Git-Url: https://git.mxchange.org/?a=blobdiff_plain;f=simgear%2Fmath%2FSGGeodesy.cxx;h=d86cf0e30e303b9f83b026aa0cfd7ecfe3cc711d;hb=7bdb530440d1dadc991f305edb1b70ec85f27451;hp=b9974f14c66601be2063896c99d59fc8bfa5adc3;hpb=b38783e4cb309307124627f9a46530a8181b41be;p=simgear.git diff --git a/simgear/math/SGGeodesy.cxx b/simgear/math/SGGeodesy.cxx index b9974f14..d86cf0e3 100644 --- a/simgear/math/SGGeodesy.cxx +++ b/simgear/math/SGGeodesy.cxx @@ -22,6 +22,8 @@ #include #include +#include + #include "SGMath.hxx" // These are hard numbers from the WGS84 standard. DON'T MODIFY @@ -509,15 +511,16 @@ SGGeodesy::advanceRadM(const SGGeoc& geoc, double course, double distance, result.setLongitudeRad(geoc.getLongitudeRad()); } else { double tmp = SGMiscd::clip(sin(course) * sinDistance / cosLat, -1, 1); - double lon = SGMiscd::normalizeAngle(geoc.getLongitudeRad() - asin( tmp )); - result.setLongitudeRad(lon); + double lon = SGMiscd::normalizeAngle(-geoc.getLongitudeRad() - asin( tmp )); + result.setLongitudeRad(-lon); } } double SGGeodesy::courseRad(const SGGeoc& from, const SGGeoc& to) { - double diffLon = to.getLongitudeRad() - from.getLongitudeRad(); + //double diffLon = to.getLongitudeRad() - from.getLongitudeRad(); + double diffLon = from.getLongitudeRad() - to.getLongitudeRad(); double sinLatFrom = sin(from.getLatitudeRad()); double cosLatFrom = cos(from.getLatitudeRad()); @@ -559,3 +562,76 @@ SGGeodesy::distanceM(const SGGeoc& from, const SGGeoc& to) { return distanceRad(from, to) * SG_RAD_TO_NM * SG_NM_TO_METER; } + +bool +SGGeodesy::radialIntersection(const SGGeoc& a, double r1, + const SGGeoc& b, double r2, SGGeoc& result) +{ + // implementation of + // http://williams.best.vwh.net/avform.htm#Intersection + + double crs13 = r1 * SG_DEGREES_TO_RADIANS; + double crs23 = r2 * SG_DEGREES_TO_RADIANS; + double dst12 = SGGeodesy::distanceRad(a, b); + + //IF sin(lon2-lon1)<0 + // crs12=acos((sin(lat2)-sin(lat1)*cos(dst12))/(sin(dst12)*cos(lat1))) + // crs21=2.*pi-acos((sin(lat1)-sin(lat2)*cos(dst12))/(sin(dst12)*cos(lat2))) + // ELSE + // crs12=2.*pi-acos((sin(lat2)-sin(lat1)*cos(dst12))/(sin(dst12)*cos(lat1))) + // crs21=acos((sin(lat1)-sin(lat2)*cos(dst12))/(sin(dst12)*cos(lat2))) + // ENDIF + double crs12 = SGGeodesy::courseRad(a, b), + crs21 = SGGeodesy::courseRad(b, a); + + double sinLat1 = sin(a.getLatitudeRad()); + double cosLat1 = cos(a.getLatitudeRad()); + double sinDst12 = sin(dst12); + double cosDst12 = cos(dst12); + + double ang1 = SGMiscd::normalizeAngle2(crs13-crs12); + double ang2 = SGMiscd::normalizeAngle2(crs21-crs23); + + if ((sin(ang1) == 0.0) && (sin(ang2) == 0.0)) { + SG_LOG(SG_GENERAL, SG_WARN, "SGGeodesy::radialIntersection: infinity of intersections"); + return false; + } + + if ((sin(ang1)*sin(ang2))<0.0) { + SG_LOG(SG_GENERAL, SG_WARN, "SGGeodesy::radialIntersection: intersection ambiguous"); + return false; + } + + ang1 = fabs(ang1); + ang2 = fabs(ang2); + + //ang3=acos(-cos(ang1)*cos(ang2)+sin(ang1)*sin(ang2)*cos(dst12)) + //dst13=atan2(sin(dst12)*sin(ang1)*sin(ang2),cos(ang2)+cos(ang1)*cos(ang3)) + //lat3=asin(sin(lat1)*cos(dst13)+cos(lat1)*sin(dst13)*cos(crs13)) + //lon3=mod(lon1-dlon+pi,2*pi)-pi + + double ang3 = acos(-cos(ang1) * cos(ang2) + sin(ang1) * sin(ang2) * cosDst12); + double dst13 = atan2(sinDst12 * sin(ang1) * sin(ang2), cos(ang2) + cos(ang1)*cos(ang3)); + double lat3 = asin(sinLat1 * cos(dst13) + cosLat1 * sin(dst13) * cos(crs13)); + //dlon=atan2(sin(crs13)*sin(dst13)*cos(lat1),cos(dst13)-sin(lat1)*sin(lat3)) + double dlon = atan2(sin(crs13)*sin(dst13)*cosLat1, cos(dst13)- (sinLat1 * sin(lat3))); + double lon3 = SGMiscd::normalizeAngle(-a.getLongitudeRad()-dlon); + + result = SGGeoc::fromRadM(-lon3, lat3, a.getRadiusM()); + return true; +} + +bool +SGGeodesy::radialIntersection(const SGGeod& a, double aRadial, + const SGGeod& b, double bRadial, SGGeod& result) +{ + SGGeoc r; + bool ok = radialIntersection(SGGeoc::fromGeod(a), aRadial, + SGGeoc::fromGeod(b), bRadial, r); + if (!ok) { + return false; + } + + result = SGGeod::fromGeoc(r); + return true; +}