private List<MapleFoothold> getAllRelevants(final List<MapleFoothold> list) {
list.addAll(footholds);
if (nw != null) {
nw.getAllRelevants(list);
ne.getAllRelevants(list);
sw.getAllRelevants(list);
se.getAllRelevants(list);
}
return list;
}
private List<MapleFoothold> getRelevants(final Point p, final List<MapleFoothold> list) {
list.addAll(footholds);
if (nw != null) {
if (p.x <= center.x && p.y <= center.y) {
nw.getRelevants(p, list);
} else if (p.x > center.x && p.y <= center.y) {
ne.getRelevants(p, list);
} else if (p.x <= center.x && p.y > center.y) {
sw.getRelevants(p, list);
} else {
se.getRelevants(p, list);
}
}
return list;
}
private MapleFoothold findWallR(final Point p1, final Point p2) {
MapleFoothold ret;
for (final MapleFoothold f : footholds) {
// if (f.isWall()) System.out.println(f.getX1() + " " + f.getX2());
if (f.isWall()
&& f.getX1() >= p1.x
&& f.getX1() <= p2.x
&& f.getY1() >= p1.y
&& f.getY2() <= p1.y) {
return f;
}
}
if (nw != null) {
if (p1.x <= center.x && p1.y <= center.y) {
ret = nw.findWallR(p1, p2);
if (ret != null) {
return ret;
}
}
if ((p1.x > center.x || p2.x > center.x) && p1.y <= center.y) {
ret = ne.findWallR(p1, p2);
if (ret != null) {
return ret;
}
}
if (p1.x <= center.x && p1.y > center.y) {
ret = sw.findWallR(p1, p2);
if (ret != null) {
return ret;
}
}
if ((p1.x > center.x || p2.x > center.x) && p1.y > center.y) {
ret = se.findWallR(p1, p2);
if (ret != null) {
return ret;
}
}
}
return null;
}
public final void insert(final MapleFoothold f) {
if (depth == 0) {
if (f.getX1() > maxDropX) {
maxDropX = f.getX1();
}
if (f.getX1() < minDropX) {
minDropX = f.getX1();
}
if (f.getX2() > maxDropX) {
maxDropX = f.getX2();
}
if (f.getX2() < minDropX) {
minDropX = f.getX2();
}
}
if (
/*footholds.size() == 0 || */ depth == maxDepth
|| (f.getX1() >= p1.x && f.getX2() <= p2.x && f.getY1() >= p1.y && f.getY2() <= p2.y)) {
footholds.add(f);
} else {
if (nw == null) {
nw = new MapleFootholdTree(p1, center, depth + 1);
ne = new MapleFootholdTree(new Point(center.x, p1.y), new Point(p2.x, center.y), depth + 1);
sw = new MapleFootholdTree(new Point(p1.x, center.y), new Point(center.x, p2.y), depth + 1);
se = new MapleFootholdTree(center, p2, depth + 1);
}
if (f.getX2() <= center.x && f.getY2() <= center.y) {
nw.insert(f);
} else if (f.getX1() > center.x && f.getY2() <= center.y) {
ne.insert(f);
} else if (f.getX2() <= center.x && f.getY1() > center.y) {
sw.insert(f);
} else {
se.insert(f);
}
}
}
