a241aeb289
Calling set_pairable now will update collisions (rather than waiting for the next item_move). Mask behaviour used for pairing now (hopefully) matches octree.
340 lines
9.1 KiB
C++
340 lines
9.1 KiB
C++
public:
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BVHHandle item_add(T *p_userdata, const AABB &p_aabb, int32_t p_subindex, bool p_pairable, uint32_t p_pairable_type, uint32_t p_pairable_mask, bool p_invisible = false) {
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#ifdef BVH_VERBOSE_TREE
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VERBOSE_PRINT("\nitem_add BEFORE");
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_debug_recursive_print_tree(0);
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VERBOSE_PRINT("\n");
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#endif
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BVH_ABB abb;
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abb.from(p_aabb);
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// handle to be filled with the new item ref
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BVHHandle handle;
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// ref id easier to pass around than handle
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uint32_t ref_id;
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// this should never fail
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ItemRef *ref = _refs.request(ref_id);
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// the extra data should be parallel list to the references
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uint32_t extra_id;
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ItemExtra *extra = _extra.request(extra_id);
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BVH_ASSERT(extra_id == ref_id);
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// pairs info
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if (USE_PAIRS) {
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uint32_t pairs_id;
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ItemPairs *pairs = _pairs.request(pairs_id);
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pairs->clear();
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BVH_ASSERT(pairs_id == ref_id);
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}
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extra->subindex = p_subindex;
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extra->userdata = p_userdata;
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extra->last_updated_tick = 0;
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// add an active reference to the list for slow incremental optimize
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// this list must be kept in sync with the references as they are added or removed.
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extra->active_ref_id = _active_refs.size();
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_active_refs.push_back(ref_id);
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if (USE_PAIRS) {
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extra->pairable_mask = p_pairable_mask;
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extra->pairable_type = p_pairable_type;
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extra->pairable = p_pairable;
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} else {
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// just for safety, in case this gets queried etc
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extra->pairable = 0;
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p_pairable = false;
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}
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// assign to handle to return
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handle.set_id(ref_id);
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_current_tree = 0;
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if (p_pairable)
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_current_tree = 1;
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create_root_node(_current_tree);
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// we must choose where to add to tree
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ref->tnode_id = _logic_choose_item_add_node(_root_node_id[_current_tree], abb);
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bool refit = _node_add_item(ref->tnode_id, ref_id, abb);
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if (refit) {
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// only need to refit from the parent
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const TNode &add_node = _nodes[ref->tnode_id];
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if (add_node.parent_id != BVHCommon::INVALID)
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refit_upward_and_balance(add_node.parent_id);
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}
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#ifdef BVH_VERBOSE
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// memory use
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int mem = _refs.estimate_memory_use();
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mem += _nodes.estimate_memory_use();
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String sz = _debug_aabb_to_string(abb);
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VERBOSE_PRINT("\titem_add [" + itos(ref_id) + "] " + itos(_refs.size()) + " refs,\t" + itos(_nodes.size()) + " nodes " + sz);
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VERBOSE_PRINT("mem use : " + itos(mem) + ", num nodes : " + itos(_nodes.size()));
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#endif
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return handle;
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}
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void _debug_print_refs() {
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#ifdef BVH_VERBOSE_TREE
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print_line("refs.....");
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for (int n = 0; n < _refs.size(); n++) {
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const ItemRef &ref = _refs[n];
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print_line("tnode_id " + itos(ref.tnode_id) + ", item_id " + itos(ref.item_id));
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}
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#endif
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}
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// returns false if noop
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bool item_move(BVHHandle p_handle, const AABB &p_aabb) {
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uint32_t ref_id = p_handle.id();
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BVH_ABB abb;
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abb.from(p_aabb);
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// get the reference
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ItemRef &ref = _refs[ref_id];
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BVH_ASSERT(ref.tnode_id != BVHCommon::INVALID);
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TNode &tnode = _nodes[ref.tnode_id];
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// does it fit within the current aabb?
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if (tnode.aabb.is_other_within(abb)) {
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// do nothing .. fast path .. not moved enough to need refit
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// however we WILL update the exact aabb in the leaf, as this will be needed
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// for accurate collision detection
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TLeaf &leaf = _node_get_leaf(tnode);
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leaf.get_aabb(ref.item_id) = abb;
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_integrity_check_all();
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return true;
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}
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_current_tree = _handle_get_tree_id(p_handle);
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// remove and reinsert
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node_remove_item(ref_id);
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// we must choose where to add to tree
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ref.tnode_id = _logic_choose_item_add_node(_root_node_id[_current_tree], abb);
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// add to the tree
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bool needs_refit = _node_add_item(ref.tnode_id, ref_id, abb);
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// only need to refit from the PARENT
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if (needs_refit) {
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// only need to refit from the parent
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const TNode &add_node = _nodes[ref.tnode_id];
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if (add_node.parent_id != BVHCommon::INVALID)
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// not sure we need to rebalance all the time, this can be done less often
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refit_upward(add_node.parent_id);
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//refit_upward_and_balance(add_node.parent_id);
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}
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return true;
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}
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void item_remove(BVHHandle p_handle) {
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uint32_t ref_id = p_handle.id();
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_current_tree = _handle_get_tree_id(p_handle);
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VERBOSE_PRINT("item_remove [" + itos(ref_id) + "] ");
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////////////////////////////////////////
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// remove the active reference from the list for slow incremental optimize
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// this list must be kept in sync with the references as they are added or removed.
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uint32_t active_ref_id = _extra[ref_id].active_ref_id;
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uint32_t ref_id_moved_back = _active_refs[_active_refs.size() - 1];
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// swap back and decrement for fast unordered remove
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_active_refs[active_ref_id] = ref_id_moved_back;
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_active_refs.resize(_active_refs.size() - 1);
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// keep the moved active reference up to date
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_extra[ref_id_moved_back].active_ref_id = active_ref_id;
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////////////////////////////////////////
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// remove the item from the node
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node_remove_item(ref_id);
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// remove the item reference
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_refs.free(ref_id);
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_extra.free(ref_id);
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if (USE_PAIRS) {
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_pairs.free(ref_id);
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}
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// don't think refit_all is necessary?
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//refit_all(_current_tree);
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#ifdef BVH_VERBOSE_TREE
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_debug_recursive_print_tree(_current_tree);
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#endif
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}
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// during collision testing, we want to set the mask and whether pairable for the item testing from
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void item_fill_cullparams(BVHHandle p_handle, CullParams &r_params) const {
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uint32_t ref_id = p_handle.id();
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const ItemExtra &extra = _extra[ref_id];
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// testing from a non pairable item, we only want to test pairable items
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r_params.test_pairable_only = extra.pairable == 0;
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// we take into account the mask of the item testing from
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r_params.mask = extra.pairable_mask;
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r_params.pairable_type = extra.pairable_type;
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}
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bool item_is_pairable(const BVHHandle &p_handle) {
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uint32_t ref_id = p_handle.id();
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const ItemExtra &extra = _extra[ref_id];
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return extra.pairable != 0;
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}
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void item_get_ABB(const BVHHandle &p_handle, BVH_ABB &r_abb) {
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// change tree?
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uint32_t ref_id = p_handle.id();
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const ItemRef &ref = _refs[ref_id];
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TNode &tnode = _nodes[ref.tnode_id];
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TLeaf &leaf = _node_get_leaf(tnode);
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r_abb = leaf.get_aabb(ref.item_id);
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}
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void item_set_pairable(const BVHHandle &p_handle, bool p_pairable, uint32_t p_pairable_type, uint32_t p_pairable_mask) {
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// change tree?
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uint32_t ref_id = p_handle.id();
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ItemExtra &ex = _extra[ref_id];
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ItemRef &ref = _refs[ref_id];
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ex.pairable_type = p_pairable_type;
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ex.pairable_mask = p_pairable_mask;
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if ((ex.pairable != 0) != p_pairable) {
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// record abb
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TNode &tnode = _nodes[ref.tnode_id];
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TLeaf &leaf = _node_get_leaf(tnode);
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BVH_ABB abb = leaf.get_aabb(ref.item_id);
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// make sure current tree is correct prior to changing
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_current_tree = _handle_get_tree_id(p_handle);
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// remove from old tree
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node_remove_item(ref_id);
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ex.pairable = p_pairable;
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// add to new tree
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_current_tree = _handle_get_tree_id(p_handle);
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create_root_node(_current_tree);
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// we must choose where to add to tree
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ref.tnode_id = _logic_choose_item_add_node(_root_node_id[_current_tree], abb);
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bool needs_refit = _node_add_item(ref.tnode_id, ref_id, abb);
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// only need to refit from the PARENT
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if (needs_refit) {
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// only need to refit from the parent
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const TNode &add_node = _nodes[ref.tnode_id];
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if (add_node.parent_id != BVHCommon::INVALID)
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refit_upward_and_balance(add_node.parent_id);
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}
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}
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}
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void incremental_optimize() {
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// first update all aabbs as one off step..
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// this is cheaper than doing it on each move as each leaf may get touched multiple times
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// in a frame.
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for (int n = 0; n < NUM_TREES; n++) {
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if (_root_node_id[n] != BVHCommon::INVALID)
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refit_branch(_root_node_id[n]);
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}
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// now do small section reinserting to get things moving
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// gradually, and keep items in the right leaf
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if (_current_active_ref >= _active_refs.size()) {
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_current_active_ref = 0;
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}
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// special case
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if (!_active_refs.size())
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return;
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uint32_t ref_id = _active_refs[_current_active_ref++];
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_logic_item_remove_and_reinsert(ref_id);
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#ifdef BVH_VERBOSE
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/*
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// memory use
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int mem_refs = _refs.estimate_memory_use();
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int mem_nodes = _nodes.estimate_memory_use();
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int mem_leaves = _leaves.estimate_memory_use();
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String sz;
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sz += "mem_refs : " + itos(mem_refs) + " ";
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sz += "mem_nodes : " + itos(mem_nodes) + " ";
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sz += "mem_leaves : " + itos(mem_leaves) + " ";
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sz += ", num nodes : " + itos(_nodes.size());
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print_line(sz);
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*/
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#endif
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}
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void update() {
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incremental_optimize();
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// keep the expansion values up to date with the world bound
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//#define BVH_ALLOW_AUTO_EXPANSION
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#ifdef BVH_ALLOW_AUTO_EXPANSION
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if (_auto_node_expansion || _auto_pairing_expansion) {
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BVH_ABB world_bound;
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world_bound.set_to_max_opposite_extents();
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bool bound_valid = false;
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for (int n = 0; n < NUM_TREES; n++) {
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uint32_t node_id = _root_node_id[n];
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if (node_id != BVHCommon::INVALID) {
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world_bound.merge(_nodes[node_id].aabb);
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bound_valid = true;
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}
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}
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// if there are no nodes, do nothing, but if there are...
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if (bound_valid) {
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AABB bb;
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world_bound.to(bb);
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real_t size = bb.get_longest_axis_size();
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// automatic AI decision for best parameters.
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// These can be overridden in project settings.
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// these magic numbers are determined by experiment
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if (_auto_node_expansion) {
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_node_expansion = size * 0.025;
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}
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if (_auto_pairing_expansion) {
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_pairing_expansion = size * 0.009;
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}
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}
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}
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#endif
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}
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