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e705aa4550
Previously, the wrong node id (root node id) was used. Dirty leaf nodes do not actually recalculate aabb. Additionally, when requesting a new leaf, mark `dirty` as `false` in `clear()`. Make sure to only mark the leaf as **dirty** when shrinking the border of the leaf when removing items. In other cases, the leaf node's aabb will get the correct result immediately. 1. When adding an item, the leaf nodes will be calculated immediately. 2. Removing the item within the border of the leaf node has no effect on the original aabb.
142 lines
3.3 KiB
C++
142 lines
3.3 KiB
C++
void _debug_node_verify_bound(uint32_t p_node_id) {
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TNode &node = _nodes[p_node_id];
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BVHABB_CLASS abb_before = node.aabb;
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node_update_aabb(node);
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BVHABB_CLASS abb_after = node.aabb;
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CRASH_COND(abb_before != abb_after);
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}
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void node_update_aabb(TNode &tnode) {
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tnode.aabb.set_to_max_opposite_extents();
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tnode.height = 0;
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if (!tnode.is_leaf()) {
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for (int n = 0; n < tnode.num_children; n++) {
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uint32_t child_node_id = tnode.children[n];
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// merge with child aabb
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const TNode &tchild = _nodes[child_node_id];
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tnode.aabb.merge(tchild.aabb);
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// do heights at the same time
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if (tchild.height > tnode.height) {
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tnode.height = tchild.height;
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}
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}
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// the height of a non leaf is always 1 bigger than the biggest child
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tnode.height++;
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#ifdef BVH_CHECKS
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if (!tnode.num_children) {
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// the 'blank' aabb will screw up parent aabbs
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WARN_PRINT("BVH_Tree::TNode no children, AABB is undefined");
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}
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#endif
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} else {
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// leaf
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const TLeaf &leaf = _node_get_leaf(tnode);
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for (int n = 0; n < leaf.num_items; n++) {
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tnode.aabb.merge(leaf.get_aabb(n));
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}
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// now the leaf items are unexpanded, we expand only in the node AABB
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tnode.aabb.expand(_node_expansion);
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#ifdef BVH_CHECKS
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if (!leaf.num_items) {
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// the 'blank' aabb will screw up parent aabbs
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WARN_PRINT("BVH_Tree::TLeaf no items, AABB is undefined");
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}
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#endif
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}
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}
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void refit_all(int p_tree_id) {
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refit_downward(_root_node_id[p_tree_id]);
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}
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void refit_upward(uint32_t p_node_id) {
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while (p_node_id != BVHCommon::INVALID) {
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TNode &tnode = _nodes[p_node_id];
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node_update_aabb(tnode);
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p_node_id = tnode.parent_id;
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}
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}
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void refit_upward_and_balance(uint32_t p_node_id, uint32_t p_tree_id) {
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while (p_node_id != BVHCommon::INVALID) {
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uint32_t before = p_node_id;
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p_node_id = _logic_balance(p_node_id, p_tree_id);
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if (before != p_node_id) {
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VERBOSE_PRINT("REBALANCED!");
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}
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TNode &tnode = _nodes[p_node_id];
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// update overall aabb from the children
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node_update_aabb(tnode);
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p_node_id = tnode.parent_id;
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}
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}
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void refit_downward(uint32_t p_node_id) {
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TNode &tnode = _nodes[p_node_id];
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// do children first
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if (!tnode.is_leaf()) {
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for (int n = 0; n < tnode.num_children; n++) {
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refit_downward(tnode.children[n]);
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}
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}
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node_update_aabb(tnode);
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}
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// go down to the leaves, then refit upward
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void refit_branch(uint32_t p_node_id) {
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// our function parameters to keep on a stack
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struct RefitParams {
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uint32_t node_id;
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};
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// most of the iterative functionality is contained in this helper class
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BVH_IterativeInfo<RefitParams> ii;
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// alloca must allocate the stack from this function, it cannot be allocated in the
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// helper class
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ii.stack = (RefitParams *)alloca(ii.get_alloca_stacksize());
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// seed the stack
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ii.get_first()->node_id = p_node_id;
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RefitParams rp;
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// while there are still more nodes on the stack
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while (ii.pop(rp)) {
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TNode &tnode = _nodes[rp.node_id];
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// do children first
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if (!tnode.is_leaf()) {
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for (int n = 0; n < tnode.num_children; n++) {
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uint32_t child_id = tnode.children[n];
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// add to the stack
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RefitParams *child = ii.request();
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child->node_id = child_id;
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}
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} else {
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// leaf .. only refit upward if dirty
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TLeaf &leaf = _node_get_leaf(tnode);
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if (leaf.is_dirty()) {
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leaf.set_dirty(false);
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refit_upward(rp.node_id);
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}
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}
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} // while more nodes to pop
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}
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