godot/core/math/dynamic_bvh.cpp
lawnjelly 6d687de9b8 Fix BVH to world_aabb, and call update
The calls to the BVH need to use the world space AABB, rather than local space for it to work. Also, update was not being called which is required to update the AABB as objects move.
2020-12-24 11:19:50 +00:00

431 lines
12 KiB
C++

/*************************************************************************/
/* dynamic_bvh.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/*************************************************************************/
/* Copyright (c) 2007-2020 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2020 Godot Engine contributors (cf. AUTHORS.md). */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
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/* without limitation the rights to use, copy, modify, merge, publish, */
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/* the following conditions: */
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/* The above copyright notice and this permission notice shall be */
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/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/
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/*************************************************************************/
#include "dynamic_bvh.h"
void DynamicBVH::_delete_node(Node *p_node) {
memdelete(p_node);
}
void DynamicBVH::_recurse_delete_node(Node *p_node) {
if (!p_node->is_leaf()) {
_recurse_delete_node(p_node->childs[0]);
_recurse_delete_node(p_node->childs[1]);
}
if (p_node == bvh_root) {
bvh_root = nullptr;
}
_delete_node(p_node);
}
DynamicBVH::Node *DynamicBVH::_create_node(Node *p_parent, void *p_data) {
Node *node = memnew(Node);
node->parent = p_parent;
node->data = p_data;
return (node);
}
DynamicBVH::Node *DynamicBVH::_create_node_with_volume(Node *p_parent, const Volume &p_volume, void *p_data) {
Node *node = _create_node(p_parent, p_data);
node->volume = p_volume;
return node;
}
void DynamicBVH::_insert_leaf(Node *p_root, Node *p_leaf) {
if (!bvh_root) {
bvh_root = p_leaf;
p_leaf->parent = 0;
} else {
if (!p_root->is_leaf()) {
do {
p_root = p_root->childs[p_leaf->volume.select_by_proximity(
p_root->childs[0]->volume,
p_root->childs[1]->volume)];
} while (!p_root->is_leaf());
}
Node *prev = p_root->parent;
Node *node = _create_node_with_volume(prev, p_leaf->volume.merge(p_root->volume), 0);
if (prev) {
prev->childs[p_root->get_index_in_parent()] = node;
node->childs[0] = p_root;
p_root->parent = node;
node->childs[1] = p_leaf;
p_leaf->parent = node;
do {
if (!prev->volume.contains(node->volume)) {
prev->volume = prev->childs[0]->volume.merge(prev->childs[1]->volume);
} else {
break;
}
node = prev;
} while (0 != (prev = node->parent));
} else {
node->childs[0] = p_root;
p_root->parent = node;
node->childs[1] = p_leaf;
p_leaf->parent = node;
bvh_root = node;
}
}
}
DynamicBVH::Node *DynamicBVH::_remove_leaf(Node *leaf) {
if (leaf == bvh_root) {
bvh_root = 0;
return (0);
} else {
Node *parent = leaf->parent;
Node *prev = parent->parent;
Node *sibling = parent->childs[1 - leaf->get_index_in_parent()];
if (prev) {
prev->childs[parent->get_index_in_parent()] = sibling;
sibling->parent = prev;
_delete_node(parent);
while (prev) {
const Volume pb = prev->volume;
prev->volume = prev->childs[0]->volume.merge(prev->childs[1]->volume);
if (pb.is_not_equal_to(prev->volume)) {
prev = prev->parent;
} else
break;
}
return (prev ? prev : bvh_root);
} else {
bvh_root = sibling;
sibling->parent = 0;
_delete_node(parent);
return (bvh_root);
}
}
}
void DynamicBVH::_fetch_leaves(Node *p_root, LocalVector<Node *> &r_leaves, int p_depth) {
if (p_root->is_internal() && p_depth) {
_fetch_leaves(p_root->childs[0], r_leaves, p_depth - 1);
_fetch_leaves(p_root->childs[1], r_leaves, p_depth - 1);
_delete_node(p_root);
} else {
r_leaves.push_back(p_root);
}
}
// Partitions leaves such that leaves[0, n) are on the
// left of axis, and leaves[n, count) are on the right
// of axis. returns N.
int DynamicBVH::_split(Node **leaves, int p_count, const Vector3 &p_org, const Vector3 &p_axis) {
int begin = 0;
int end = p_count;
for (;;) {
while (begin != end && leaves[begin]->is_left_of_axis(p_org, p_axis)) {
++begin;
}
if (begin == end) {
break;
}
while (begin != end && !leaves[end - 1]->is_left_of_axis(p_org, p_axis)) {
--end;
}
if (begin == end) {
break;
}
// swap out of place nodes
--end;
Node *temp = leaves[begin];
leaves[begin] = leaves[end];
leaves[end] = temp;
++begin;
}
return begin;
}
DynamicBVH::Volume DynamicBVH::_bounds(Node **leaves, int p_count) {
Volume volume = leaves[0]->volume;
for (int i = 1, ni = p_count; i < ni; ++i) {
volume = volume.merge(leaves[i]->volume);
}
return (volume);
}
void DynamicBVH::_bottom_up(Node **leaves, int p_count) {
while (p_count > 1) {
real_t minsize = Math_INF;
int minidx[2] = { -1, -1 };
for (int i = 0; i < p_count; ++i) {
for (int j = i + 1; j < p_count; ++j) {
const real_t sz = leaves[i]->volume.merge(leaves[j]->volume).get_size();
if (sz < minsize) {
minsize = sz;
minidx[0] = i;
minidx[1] = j;
}
}
}
Node *n[] = { leaves[minidx[0]], leaves[minidx[1]] };
Node *p = _create_node_with_volume(nullptr, n[0]->volume.merge(n[1]->volume), nullptr);
p->childs[0] = n[0];
p->childs[1] = n[1];
n[0]->parent = p;
n[1]->parent = p;
leaves[minidx[0]] = p;
leaves[minidx[1]] = leaves[p_count - 1];
--p_count;
}
}
DynamicBVH::Node *DynamicBVH::_top_down(Node **leaves, int p_count, int p_bu_threshold) {
static const Vector3 axis[] = { Vector3(1, 0, 0), Vector3(0, 1, 0), Vector3(0, 0, 1) };
ERR_FAIL_COND_V(p_bu_threshold <= 1, nullptr);
if (p_count > 1) {
if (p_count > p_bu_threshold) {
const Volume vol = _bounds(leaves, p_count);
const Vector3 org = vol.get_center();
int partition;
int bestaxis = -1;
int bestmidp = p_count;
int splitcount[3][2] = { { 0, 0 }, { 0, 0 }, { 0, 0 } };
int i;
for (i = 0; i < p_count; ++i) {
const Vector3 x = leaves[i]->volume.get_center() - org;
for (int j = 0; j < 3; ++j) {
++splitcount[j][x.dot(axis[j]) > 0 ? 1 : 0];
}
}
for (i = 0; i < 3; ++i) {
if ((splitcount[i][0] > 0) && (splitcount[i][1] > 0)) {
const int midp = (int)Math::abs(real_t(splitcount[i][0] - splitcount[i][1]));
if (midp < bestmidp) {
bestaxis = i;
bestmidp = midp;
}
}
}
if (bestaxis >= 0) {
partition = _split(leaves, p_count, org, axis[bestaxis]);
ERR_FAIL_COND_V(partition == 0 || partition == p_count, nullptr);
} else {
partition = p_count / 2 + 1;
}
Node *node = _create_node_with_volume(nullptr, vol, nullptr);
node->childs[0] = _top_down(&leaves[0], partition, p_bu_threshold);
node->childs[1] = _top_down(&leaves[partition], p_count - partition, p_bu_threshold);
node->childs[0]->parent = node;
node->childs[1]->parent = node;
return (node);
} else {
_bottom_up(leaves, p_count);
return (leaves[0]);
}
}
return (leaves[0]);
}
DynamicBVH::Node *DynamicBVH::_node_sort(Node *n, Node *&r) {
Node *p = n->parent;
ERR_FAIL_COND_V(!n->is_internal(), nullptr);
if (p > n) {
const int i = n->get_index_in_parent();
const int j = 1 - i;
Node *s = p->childs[j];
Node *q = p->parent;
ERR_FAIL_COND_V(n != p->childs[i], nullptr);
if (q)
q->childs[p->get_index_in_parent()] = n;
else
r = n;
s->parent = n;
p->parent = n;
n->parent = q;
p->childs[0] = n->childs[0];
p->childs[1] = n->childs[1];
n->childs[0]->parent = p;
n->childs[1]->parent = p;
n->childs[i] = p;
n->childs[j] = s;
SWAP(p->volume, n->volume);
return (p);
}
return (n);
}
void DynamicBVH::clear() {
if (bvh_root) {
_recurse_delete_node(bvh_root);
}
lkhd = -1;
opath = 0;
}
void DynamicBVH::optimize_bottom_up() {
if (bvh_root) {
LocalVector<Node *> leaves;
_fetch_leaves(bvh_root, leaves);
_bottom_up(&leaves[0], leaves.size());
bvh_root = leaves[0];
}
}
void DynamicBVH::optimize_top_down(int bu_threshold) {
if (bvh_root) {
LocalVector<Node *> leaves;
_fetch_leaves(bvh_root, leaves);
bvh_root = _top_down(&leaves[0], leaves.size(), bu_threshold);
}
}
void DynamicBVH::optimize_incremental(int passes) {
if (passes < 0)
passes = total_leaves;
if (bvh_root && (passes > 0)) {
do {
Node *node = bvh_root;
unsigned bit = 0;
while (node->is_internal()) {
node = _node_sort(node, bvh_root)->childs[(opath >> bit) & 1];
bit = (bit + 1) & (sizeof(unsigned) * 8 - 1);
}
_update(node);
++opath;
} while (--passes);
}
}
DynamicBVH::ID DynamicBVH::insert(const AABB &p_box, void *p_userdata) {
Volume volume;
volume.min = p_box.position;
volume.max = p_box.position + p_box.size;
Node *leaf = _create_node_with_volume(nullptr, volume, p_userdata);
_insert_leaf(bvh_root, leaf);
++total_leaves;
ID id;
id.node = leaf;
return id;
}
void DynamicBVH::_update(Node *leaf, int lookahead) {
Node *root = _remove_leaf(leaf);
if (root) {
if (lookahead >= 0) {
for (int i = 0; (i < lookahead) && root->parent; ++i) {
root = root->parent;
}
} else
root = bvh_root;
}
_insert_leaf(root, leaf);
}
void DynamicBVH::update(const ID &p_id, const AABB &p_box) {
ERR_FAIL_COND(!p_id.is_valid());
Node *leaf = p_id.node;
Volume volume;
volume.min = p_box.position;
volume.max = p_box.position + p_box.size;
if ((leaf->volume.min == volume.min) && (leaf->volume.max == volume.max)) {
// noop
return;
}
Node *base = _remove_leaf(leaf);
if (base) {
if (lkhd >= 0) {
for (int i = 0; (i < lkhd) && base->parent; ++i) {
base = base->parent;
}
} else
base = bvh_root;
}
leaf->volume = volume;
_insert_leaf(base, leaf);
}
void DynamicBVH::remove(const ID &p_id) {
ERR_FAIL_COND(!p_id.is_valid());
Node *leaf = p_id.node;
_remove_leaf(leaf);
_delete_node(leaf);
--total_leaves;
}
void DynamicBVH::_extract_leaves(Node *p_node, List<ID> *r_elements) {
if (p_node->is_internal()) {
_extract_leaves(p_node->childs[0], r_elements);
_extract_leaves(p_node->childs[1], r_elements);
} else {
ID id;
id.node = p_node;
r_elements->push_back(id);
}
}
void DynamicBVH::set_index(uint32_t p_index) {
ERR_FAIL_COND(bvh_root != nullptr);
index = p_index;
}
uint32_t DynamicBVH::get_index() const {
return index;
}
void DynamicBVH::get_elements(List<ID> *r_elements) {
if (bvh_root) {
_extract_leaves(bvh_root, r_elements);
}
}
int DynamicBVH::get_leaf_count() const {
return total_leaves;
}
int DynamicBVH::get_max_depth() const {
if (bvh_root) {
int depth = 1;
int max_depth = 0;
bvh_root->get_max_depth(depth, max_depth);
return max_depth;
} else {
return 0;
}
}
DynamicBVH::~DynamicBVH() {
clear();
}