//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
-// Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
+// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
//
// $Id$
+#ifdef HAVE_CONFIG_H
+# include "config.h"
+#endif
#include <float.h>
{
// FIXME: Do more ...
// Idea: have a get_globals() function which knows about that stuff.
- // Or most propably read that from a configuration file,
+ // Or most probably read that from a configuration file,
// from property tree or whatever ...
// Get ground dependent data.
sgdVec3 isectpoint;
if ( sgdIsectInfLinePlane( isectpoint, tmp, down, t.plane ) &&
fgdPointInTriangle( isectpoint, t.vertices ) ) {
- found_ground = true;
- sgdAddVec3(isectpoint, cache_center);
- double this_radius = sgdLengthVec3(isectpoint);
- if (ground_radius < this_radius)
- ground_radius = this_radius;
+ // Compute the offset to the ground cache midpoint
+ sgdVec3 off;
+ sgdSubVec3(off, isectpoint, tmp);
+ // Only accept the altitude if the intersection point is below the
+ // ground cache midpoint
+ if (0 < sgdScalarProductVec3( off, down )) {
+ found_ground = true;
+ sgdAddVec3(isectpoint, cache_center);
+ double this_radius = sgdLengthVec3(isectpoint);
+ if (ground_radius < this_radius)
+ ground_radius = this_radius;
+ }
}
}
}
if ( e->isAKindOf( ssgTypeBranch() ) ) {
ssgBranch *b = (ssgBranch *)e;
if ( b->isAKindOf( ssgTypeTransform() ) ) {
- // Collect up the transfors required to reach that part of
+ // Collect up the transforms required to reach that part of
// the branch.
sgMat4 xform2;
sgMakeIdentMat4( xform2 );
// This will minimize the number of vertices/triangles in the cache.
else if (e->isAKindOf(ssgTypeLeaf())) {
// Since we reach that leaf if we have an intersection with the
- // most propably bigger wire/catapult cache sphere, we need to check
+ // most probably bigger wire/catapult cache sphere, we need to check
// that here, if the smaller cache for the surface has a chance for hits.
- // Also, if the spheres do not intersect compute a croase agl value
+ // Also, if the spheres do not intersect compute a coarse agl value
// by following the line downwards originating at the aircraft.
bool spIsec = sp->intersects(&esphere);
putSurfaceLeafIntoCache(sp, xform, spIsec, down, (ssgLeaf *)e);
// Decide where we put the scenery center.
Point3D old_cntr = globals->get_scenery()->get_center();
Point3D cntr(pt[0], pt[1], pt[2]);
- // Only move the cache center if it is unaccaptable far away.
+ // Only move the cache center if it is unacceptable far away.
if (40*40 < old_cntr.distance3Dsquared(cntr))
globals->get_scenery()->set_center(cntr);
else
sgdSetVec3(down, -pt[0], -pt[1], -pt[2]);
sgdNormalizeVec3(down);
- // We collaps all transforms we need to reach a particular leaf.
+ // We collapse all transforms we need to reach a particular leaf.
// The leafs itself will be then transformed later.
// So our cache is just flat.
// For leafs which are moving (carriers surface, etc ...)
cache_fill(terrain, xform, &acSphere, down, &wireSphere);
// some stats
- SG_LOG(SG_FLIGHT,SG_INFO, "prepare_ground_cache(): ac radius = " << rad
+ SG_LOG(SG_FLIGHT,SG_DEBUG, "prepare_ground_cache(): ac radius = " << rad
<< ", # triangles = " << triangles.size()
<< ", # wires = " << wires.size()
<< ", # catapults = " << catapults.size()
sgdVec3 isecpoint;
if ( sgdIsectInfLinePlane( isecpoint, pt, dir, triangle.plane ) &&
sgdPointInTriangle( isecpoint, triangle.vertices ) ) {
- // Transform to the wgs system
- sgdAddVec3( isecpoint, cache_center );
- // compute the radius, good enough approximation to take the geocentric radius
- SGDfloat radius = sgdLengthSquaredVec3(isecpoint);
- if (current_radius < radius) {
- // Compute the vector from pt to the intersection point ...
- sgdVec3 off;
- sgdSubVec3(off, pt, isecpoint);
- // ... and check if it is too high or not
- if (-max_altoff < sgdScalarProductVec3( off, dir )) {
+ // Compute the vector from pt to the intersection point ...
+ sgdVec3 off;
+ sgdSubVec3(off, isecpoint, pt);
+ // ... and check if it is too high or not
+ if (-max_altoff < sgdScalarProductVec3( off, dir )) {
+ // Transform to the wgs system
+ sgdAddVec3( isecpoint, cache_center );
+ // compute the radius, good enough approximation to take the geocentric radius
+ SGDfloat radius = sgdLengthSquaredVec3(isecpoint);
+ if (current_radius < radius) {
current_radius = radius;
ret = true;
// Save the new potential intersection point.
sgdCopyVec3( tri[1][2], pt[3] );
// Intersect the wire lines with each of these triangles.
- // You have cautght a wire if they intersect.
+ // You have caught a wire if they intersect.
for (size_t i = 0; i < sz; ++i) {
sgdVec3 le[2];
for (int k = 0; k < 2; ++k) {