static void simp_merge_ways(void)
{
+ GARY_INIT_ALLOC(merge_wrefs, 0, &simp_pool->allocator);
+
HASH_FOR_ALL(simp_hash, s)
{
simp_merge_way(s);
static void simp_split_ways(void)
{
+ GARY_INIT_ALLOC(split_breakpoints, 0, &simp_pool->allocator);
+
HASH_FOR_ALL(simp_hash, s)
{
struct simp_way_ref *wr, *tmp;
msg(L_INFO, "Simplify: Split %u ways to %u segments", num_split_ways, num_split_segments);
}
+/*** Generalization ***/
+
+struct gen_context {
+ struct osm_way *w;
+ struct osm_ref **refs;
+ uint in_nodes;
+ uint out_nodes;
+};
+
+static void generalize_recursively(struct gen_context *gc, int first, int last)
+{
+ if (last - first <= 1)
+ return;
+
+ double max_err = 0;
+ struct osm_node *f = (struct osm_node *) gc->refs[first]->o, *l = (struct osm_node *) gc->refs[last]->o;
+ double fx = f->x;
+ double fy = f->y;
+ double dx = l->x - fx;
+ double dy = l->y - fy;
+ double dd = dx*dx + dy*dy;
+
+ for (int i = first + 1; i < last; i++)
+ {
+ struct osm_node *n = (struct osm_node *) gc->refs[i]->o;
+ double nx = n->x - f->x;
+ double ny = n->y - f->y;
+ double p = dx*nx + dy*ny; // (px,py) = projection of (nx,ny) onto (dx,dy)
+ double px = dx*p / dd;
+ double py = dy*p / dd;
+ double ex = px - nx; // (ex,ey) is the error vector: (nx,ny) minus its projection
+ double ey = py - ny;
+ double e = ex*ex + ey*ey;
+ max_err = MAX(max_err, e);
+ }
+
+ double close = 0.3;
+ if (max_err > close*close)
+ {
+ int mid = (first + last) / 2;
+ ASSERT(first < mid && mid < last);
+ generalize_recursively(gc, first, mid);
+ clist_add_tail(&gc->w->nodes, &gc->refs[mid]->n);
+ generalize_recursively(gc, mid, last);
+ }
+}
+
+static void simp_generalize_way(struct gen_context *gc, struct simp_way_ref *wr)
+{
+ // XXX: This does not connect the way back to the simplification graph,
+ // but it does not hurt since generalization is the last pass.
+
+ struct osm_way *w = wr->way;
+ gc->w = w;
+ GARY_RESIZE(gc->refs, 0);
+
+ CLIST_FOR_EACH(struct osm_ref *, r, w->nodes)
+ *GARY_PUSH(gc->refs) = r;
+
+ int N = GARY_SIZE(gc->refs);
+ if (N <= 2)
+ return;
+
+ gc->in_nodes += N;
+
+#if 0
+ for (int i=0; i<N; i++)
+ {
+ struct osm_node *n = (struct osm_node *) gc->refs[i]->o;
+ msg(L_DEBUG, "Generalize: @%d #%jd [%f,%f]", i, (intmax_t) n->o.id, n->x, n->y);
+ }
+#endif
+
+ clist_init(&w->nodes);
+ clist_add_tail(&w->nodes, &gc->refs[0]->n);
+ generalize_recursively(gc, 0, N-1);
+ clist_add_tail(&w->nodes, &gc->refs[N-1]->n);
+
+ CLIST_FOR_EACH(struct osm_ref *, r, w->nodes)
+ gc->out_nodes++;
+}
+
+static void simp_generalize_ways(void)
+{
+ struct gen_context gc = { };
+ GARY_INIT_ALLOC(gc.refs, 0, &simp_pool->allocator);
+
+ HASH_FOR_ALL(simp_hash, s)
+ {
+ struct simp_way_ref *wr, *tmp;
+ CLIST_WALK_DELSAFE(wr, s->way_refs, tmp)
+ if (!wr->prev_on_way && wr->next_on_way)
+ simp_generalize_way(&gc, wr);
+ }
+ HASH_END_FOR;
+
+ msg(L_INFO, "Generalization: %u nodes in, %u nodes out", gc.in_nodes, gc.out_nodes);
+}
+
+/*** Entry point ***/
+
void simplify(void)
{
msg(L_INFO, "Simplifying symbol topology");
simp_pool = mp_new(65536);
simp_osm = osm_init();
- GARY_INIT_ALLOC(merge_wrefs, 0, &simp_pool->allocator);
- GARY_INIT_ALLOC(split_breakpoints, 0, &simp_pool->allocator);
simp_hash_init();
sym_for_all_planned(simp_register_symbol);
simp_split_ways();
simp_merge_ways();
+ simp_generalize_ways();
mp_delete(simp_pool);
}
projects / leo.git / commitdiff