self->split->height_func = m->height_func;
self->split->height_data = m->height_data;
roam_point_update_height(self->split);
+ //if ((float)self->split->lat > 44 && (float)self->split->lat < 46)
+ // g_debug("RoamTriangle: new - (l,m,r,split).lats = %7.2f %7.2f %7.2f %7.2f",
+ // l->lat, m->lat, r->lat, self->split->lat);
+ //if ((float)l->lat == (float)r->lat &&
+ // (float)self->split->lat != (float)l->lat)
+ // g_warning("RoamTriangle: new - split.lat=%f != (l=r).lat=%f",
+ // self->split->lat, l->lat);
/* Update normal */
double pa[3];
self->norm[1] /= total;
self->norm[2] /= total;
+ /* Store bounding box, for get_intersect */
+ RoamPoint *m1 = roam_point_new((l->x+m->x)/2, (l->y+m->y)/2, (l->z+m->z)/2);
+ RoamPoint *m2 = roam_point_new((m->x+r->x)/2, (m->y+r->y)/2, (m->z+r->z)/2);
+ RoamPoint *m3 = roam_point_new((r->x+l->x)/2, (r->y+l->y)/2, (r->z+l->z)/2);
+ RoamPoint *p[] = {l,m,r,m1,m2,m3};
+ self->edge.n = -90; self->edge.s = 90;
+ self->edge.e = -180; self->edge.w = 180;
+ gboolean maxed = FALSE;
+ for (int i = 0; i < G_N_ELEMENTS(p); i++) {
+ self->edge.n = MAX(self->edge.n, p[i]->lat);
+ self->edge.s = MIN(self->edge.s, p[i]->lat);
+ if (p[i]->lat == 90 || p[i]->lat == -90)
+ continue;
+ if (p[i]->lon == 180) {
+ maxed = TRUE;
+ continue;
+ }
+ self->edge.e = MAX(self->edge.e, p[i]->lon);
+ self->edge.w = MIN(self->edge.w, p[i]->lon);
+ }
+ if (maxed) {
+ if (self->edge.e < 0)
+ self->edge.w = -180;
+ else
+ self->edge.e = 180;
+ }
+ g_free(m1);
+ g_free(m2);
+ g_free(m3);
+
//g_message("roam_triangle_new: %p", self);
return self;
}
/* Add new triangles */
RoamPoint *mid = self->split;
- RoamTriangle *sl = roam_triangle_new(self->p.m, mid, self->p.l); // Self Left
- RoamTriangle *sr = roam_triangle_new(self->p.r, mid, self->p.m); // Self Right
- RoamTriangle *bl = roam_triangle_new(base->p.m, mid, base->p.l); // Base Left
- RoamTriangle *br = roam_triangle_new(base->p.r, mid, base->p.m); // Base Right
+ RoamTriangle *sl = self->kids[0] = roam_triangle_new(self->p.m, mid, self->p.l); // Self Left
+ RoamTriangle *sr = self->kids[1] = roam_triangle_new(self->p.r, mid, self->p.m); // Self Right
+ RoamTriangle *bl = base->kids[0] = roam_triangle_new(base->p.m, mid, base->p.l); // Base Left
+ RoamTriangle *br = base->kids[1] = roam_triangle_new(base->p.r, mid, base->p.m); // Base Right
/* tri,l, base, r, sphere */
roam_triangle_add(sl, sr, self->t.l, br, sphere);
roam_triangle_remove(kids[2], sphere);
roam_triangle_remove(kids[3], sphere);
+ /* Clear kids */
+ tri->kids[0] = tri->kids[1] = NULL;
+ base->kids[0] = base->kids[1] = NULL;
+
/* Add/Remove triangles */
if (tri->t.l->t.l == tri->t.r->t.r &&
tri->t.l->t.l != tri && tri->parent) {
self->roots[_triangles[i][1][1]],
self->roots[_triangles[i][1][2]],
self);
+ for (int i = 0; i < 8; i++)
+ g_debug("RoamSphere: new - %p edge=%f,%f,%f,%f", self->roots[i],
+ self->roots[i]->edge.n,
+ self->roots[i]->edge.s,
+ self->roots[i]->edge.e,
+ self->roots[i]->edge.w);
return self;
}
g_debug("RoamSphere: draw_normal");
g_pqueue_foreach(self->triangles, (GFunc)roam_triangle_draw_normal, NULL);
}
+GList *_roam_sphere_get_leaves(RoamTriangle *tri, GList *list)
+{
+ if (tri->kids[0] && tri->kids[1]) {
+ list = _roam_sphere_get_leaves(tri->kids[0], list);
+ list = _roam_sphere_get_leaves(tri->kids[1], list);
+ return list;
+ } else {
+ return g_list_append(list, tri);
+ }
+}
+GList *_roam_sphere_get_intersect_rec(RoamTriangle *tri, GList *list,
+ gdouble n, gdouble s, gdouble e, gdouble w)
+{
+ gdouble tn = tri->edge.n;
+ gdouble ts = tri->edge.s;
+ gdouble te = tri->edge.e;
+ gdouble tw = tri->edge.w;
+
+ gboolean debug = FALSE &&
+ n==90 && s==45 && e==-90 && w==-180 &&
+ ts > 44 && ts < 46;
+
+ if (debug)
+ g_message("t=%p: %f < %f || %f > %f || %f < %f || %f > %f",
+ tri, tn, s, ts, n, te, w, tw, e);
+ if (tn < s || ts > n || te < w || tw > e) {
+ /* No intersect */
+ if (debug) g_message("no intersect");
+ return list;
+ } else if (tn < n && ts > s && te < e && tw > w) {
+ /* Triangle is completely contained */
+ if (debug) g_message("contained");
+ return _roam_sphere_get_leaves(tri, list);
+ } else if (tri->kids[0] && tri->kids[1]) {
+ /* Paritial intersect with children */
+ if (debug) g_message("edge w/ child");
+ list = _roam_sphere_get_intersect_rec(tri->kids[0], list, n, s, e, w);
+ list = _roam_sphere_get_intersect_rec(tri->kids[1], list, n, s, e, w);
+ return list;
+ } else {
+ /* This triangle is an edge case */
+ if (debug) g_message("edge");
+ return g_list_append(list, tri);
+ }
+}
+GList *roam_sphere_get_intersect(RoamSphere *self,
+ gdouble n, gdouble s, gdouble e, gdouble w)
+{
+ /* I think this is correct..
+ * i_cost = cost for triangle-rectagnle intersect test
+ * time = n_tiles * 2*tris_per_tile * i_cost
+ * time = 30 * 2*333 * i_cost = 20000 * i_cost */
+ GList *list = NULL;
+ for (int i = 0; i < G_N_ELEMENTS(self->roots); i++)
+ list = _roam_sphere_get_intersect_rec(self->roots[i],
+ list, n, s, e, w);
+ return list;
+}
void roam_sphere_free_tri(RoamTriangle *tri)
{
if (--tri->p.l->tris == 0) g_free(tri->p.l);