@Override public final void query(final TreeCallback callback, final AABB aabb) { m_tree.query(callback, aabb); }
m_tree.query(this, fatAABB);
@Override public final void query(final TreeCallback callback, final AABB aabb) { m_tree.query(callback, aabb); }
public void Query() { m_tree.query(this, m_queryAABB); for (int i = 0; i < e_actorCount; ++i) { if (m_actors[i].proxyId == -1) { continue; } boolean overlap = AABB.testOverlap(m_queryAABB, m_actors[i].aabb); assert (overlap == m_actors[i].overlap); } }
m_tree.query(this, fatAABB);
/** * Query an AABB for overlapping proxies. The callback class is called for each proxy that * overlaps the supplied AABB. * * @param callback * @param aabb */ public final void query(final TreeCallback callback, final AABB aabb) { m_tree.query(callback, aabb); }
@Override public final void query(final TreeCallback callback, final AABB aabb) { m_tree.query(callback, aabb); }
@Override public final void query(final TreeCallback callback, final AABB aabb) { m_tree.query(callback, aabb); }
public void Query() { m_tree.query(this, m_queryAABB); for (int i = 0; i < e_actorCount; ++i) { if (m_actors[i].proxyId == -1) { continue; } boolean overlap = AABB.testOverlap(m_queryAABB, m_actors[i].aabb); assert (overlap == m_actors[i].overlap); } }
m_tree.query(this, fatAABB);
m_tree.query(this, fatAABB);
m_tree.query(this, fatAABB);