godot/core/math/triangle_mesh.cpp

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/**************************************************************************/
/* triangle_mesh.cpp */
/**************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/**************************************************************************/
/* Copyright (c) 2014-present Godot Engine contributors (see AUTHORS.md). */
/* Copyright (c) 2007-2014 Juan Linietsky, Ariel Manzur. */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* 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. */
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/**************************************************************************/
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#include "triangle_mesh.h"
#include "core/templates/sort_array.h"
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int TriangleMesh::_create_bvh(BVH *p_bvh, BVH **p_bb, int p_from, int p_size, int p_depth, int &r_max_depth, int &r_max_alloc) {
if (p_depth > r_max_depth) {
r_max_depth = p_depth;
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}
if (p_size == 1) {
return p_bb[p_from] - p_bvh;
} else if (p_size == 0) {
return -1;
}
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AABB aabb;
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aabb = p_bb[p_from]->aabb;
for (int i = 1; i < p_size; i++) {
aabb.merge_with(p_bb[p_from + i]->aabb);
}
int li = aabb.get_longest_axis_index();
switch (li) {
case Vector3::AXIS_X: {
SortArray<BVH *, BVHCmpX> sort_x;
sort_x.nth_element(0, p_size, p_size / 2, &p_bb[p_from]);
//sort_x.sort(&p_bb[p_from],p_size);
} break;
case Vector3::AXIS_Y: {
SortArray<BVH *, BVHCmpY> sort_y;
sort_y.nth_element(0, p_size, p_size / 2, &p_bb[p_from]);
//sort_y.sort(&p_bb[p_from],p_size);
} break;
case Vector3::AXIS_Z: {
SortArray<BVH *, BVHCmpZ> sort_z;
sort_z.nth_element(0, p_size, p_size / 2, &p_bb[p_from]);
//sort_z.sort(&p_bb[p_from],p_size);
} break;
}
int left = _create_bvh(p_bvh, p_bb, p_from, p_size / 2, p_depth + 1, r_max_depth, r_max_alloc);
int right = _create_bvh(p_bvh, p_bb, p_from + p_size / 2, p_size - p_size / 2, p_depth + 1, r_max_depth, r_max_alloc);
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int index = r_max_alloc++;
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BVH *_new = &p_bvh[index];
_new->aabb = aabb;
_new->center = aabb.get_center();
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_new->face_index = -1;
_new->left = left;
_new->right = right;
return index;
}
void TriangleMesh::get_indices(Vector<int> *r_triangles_indices) const {
if (!valid) {
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return;
}
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const int triangles_num = triangles.size();
// Parse vertices indices
const Triangle *triangles_read = triangles.ptr();
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r_triangles_indices->resize(triangles_num * 3);
int *r_indices_write = r_triangles_indices->ptrw();
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for (int i = 0; i < triangles_num; ++i) {
r_indices_write[3 * i + 0] = triangles_read[i].indices[0];
r_indices_write[3 * i + 1] = triangles_read[i].indices[1];
r_indices_write[3 * i + 2] = triangles_read[i].indices[2];
}
}
void TriangleMesh::create(const Vector<Vector3> &p_faces, const Vector<int32_t> &p_surface_indices) {
valid = false;
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ERR_FAIL_COND(p_surface_indices.size() && p_surface_indices.size() != p_faces.size());
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int fc = p_faces.size();
ERR_FAIL_COND(!fc || ((fc % 3) != 0));
fc /= 3;
triangles.resize(fc);
bvh.resize(fc * 3); //will never be larger than this (todo make better)
BVH *bw = bvh.ptrw();
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{
//create faces and indices and base bvh
//except for the Set for repeated triangles, everything
//goes in-place.
const Vector3 *r = p_faces.ptr();
const int32_t *si = p_surface_indices.ptr();
Triangle *w = triangles.ptrw();
HashMap<Vector3, int> db;
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for (int i = 0; i < fc; i++) {
Triangle &f = w[i];
const Vector3 *v = &r[i * 3];
for (int j = 0; j < 3; j++) {
int vidx = -1;
Vector3 vs = v[j].snapped(Vector3(0.0001, 0.0001, 0.0001));
HashMap<Vector3, int>::Iterator E = db.find(vs);
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if (E) {
vidx = E->value;
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} else {
vidx = db.size();
db[vs] = vidx;
}
f.indices[j] = vidx;
if (j == 0) {
bw[i].aabb.position = vs;
} else {
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bw[i].aabb.expand_to(vs);
}
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}
f.normal = Face3(r[i * 3 + 0], r[i * 3 + 1], r[i * 3 + 2]).get_plane().get_normal();
f.surface_index = si ? si[i] : 0;
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bw[i].left = -1;
bw[i].right = -1;
bw[i].face_index = i;
bw[i].center = bw[i].aabb.get_center();
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}
vertices.resize(db.size());
Vector3 *vw = vertices.ptrw();
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for (const KeyValue<Vector3, int> &E : db) {
vw[E.value] = E.key;
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}
}
Vector<BVH *> bwptrs;
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bwptrs.resize(fc);
BVH **bwp = bwptrs.ptrw();
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for (int i = 0; i < fc; i++) {
bwp[i] = &bw[i];
}
max_depth = 0;
int max_alloc = fc;
_create_bvh(bw, bwp, 0, fc, 1, max_depth, max_alloc);
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bvh.resize(max_alloc); //resize back
valid = true;
}
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Vector3 TriangleMesh::get_area_normal(const AABB &p_aabb) const {
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uint32_t *stack = (uint32_t *)alloca(sizeof(int) * max_depth);
enum {
TEST_AABB_BIT = 0,
VISIT_LEFT_BIT = 1,
VISIT_RIGHT_BIT = 2,
VISIT_DONE_BIT = 3,
VISITED_BIT_SHIFT = 29,
NODE_IDX_MASK = (1 << VISITED_BIT_SHIFT) - 1,
VISITED_BIT_MASK = ~NODE_IDX_MASK,
};
int n_count = 0;
Vector3 n;
int level = 0;
const Triangle *triangleptr = triangles.ptr();
// const Vector3 *verticesr = vertices.ptr();
const BVH *bvhptr = bvh.ptr();
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int pos = bvh.size() - 1;
stack[0] = pos;
while (true) {
uint32_t node = stack[level] & NODE_IDX_MASK;
const BVH &b = bvhptr[node];
bool done = false;
switch (stack[level] >> VISITED_BIT_SHIFT) {
case TEST_AABB_BIT: {
if (!b.aabb.intersects(p_aabb)) {
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stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
} else {
if (b.face_index >= 0) {
const Triangle &s = triangleptr[b.face_index];
n += s.normal;
n_count++;
stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
} else {
stack[level] = (VISIT_LEFT_BIT << VISITED_BIT_SHIFT) | node;
}
}
continue;
}
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case VISIT_LEFT_BIT: {
stack[level] = (VISIT_RIGHT_BIT << VISITED_BIT_SHIFT) | node;
level++;
stack[level] = b.left | TEST_AABB_BIT;
continue;
}
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case VISIT_RIGHT_BIT: {
stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
level++;
stack[level] = b.right | TEST_AABB_BIT;
continue;
}
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case VISIT_DONE_BIT: {
if (level == 0) {
done = true;
break;
} else {
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level--;
}
continue;
}
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}
if (done) {
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break;
}
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}
if (n_count > 0) {
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n /= n_count;
}
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return n;
}
bool TriangleMesh::intersect_segment(const Vector3 &p_begin, const Vector3 &p_end, Vector3 &r_point, Vector3 &r_normal, int32_t *r_surf_index) const {
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uint32_t *stack = (uint32_t *)alloca(sizeof(int) * max_depth);
enum {
TEST_AABB_BIT = 0,
VISIT_LEFT_BIT = 1,
VISIT_RIGHT_BIT = 2,
VISIT_DONE_BIT = 3,
VISITED_BIT_SHIFT = 29,
NODE_IDX_MASK = (1 << VISITED_BIT_SHIFT) - 1,
VISITED_BIT_MASK = ~NODE_IDX_MASK,
};
Vector3 n = (p_end - p_begin).normalized();
real_t d = 1e10;
bool inters = false;
int level = 0;
const Triangle *triangleptr = triangles.ptr();
const Vector3 *vertexptr = vertices.ptr();
const BVH *bvhptr = bvh.ptr();
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int pos = bvh.size() - 1;
stack[0] = pos;
while (true) {
uint32_t node = stack[level] & NODE_IDX_MASK;
const BVH &b = bvhptr[node];
bool done = false;
switch (stack[level] >> VISITED_BIT_SHIFT) {
case TEST_AABB_BIT: {
if (!b.aabb.intersects_segment(p_begin, p_end)) {
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stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
} else {
if (b.face_index >= 0) {
const Triangle &s = triangleptr[b.face_index];
Face3 f3(vertexptr[s.indices[0]], vertexptr[s.indices[1]], vertexptr[s.indices[2]]);
Vector3 res;
if (f3.intersects_segment(p_begin, p_end, &res)) {
real_t nd = n.dot(res);
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if (nd < d) {
d = nd;
r_point = res;
r_normal = f3.get_plane().get_normal();
if (r_surf_index) {
*r_surf_index = s.surface_index;
}
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inters = true;
}
}
stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
} else {
stack[level] = (VISIT_LEFT_BIT << VISITED_BIT_SHIFT) | node;
}
}
continue;
}
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case VISIT_LEFT_BIT: {
stack[level] = (VISIT_RIGHT_BIT << VISITED_BIT_SHIFT) | node;
level++;
stack[level] = b.left | TEST_AABB_BIT;
continue;
}
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case VISIT_RIGHT_BIT: {
stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
level++;
stack[level] = b.right | TEST_AABB_BIT;
continue;
}
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case VISIT_DONE_BIT: {
if (level == 0) {
done = true;
break;
} else {
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level--;
}
continue;
}
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}
if (done) {
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break;
}
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}
if (inters) {
if (n.dot(r_normal) > 0) {
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r_normal = -r_normal;
}
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}
return inters;
}
bool TriangleMesh::intersect_ray(const Vector3 &p_begin, const Vector3 &p_dir, Vector3 &r_point, Vector3 &r_normal, int32_t *r_surf_index) const {
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uint32_t *stack = (uint32_t *)alloca(sizeof(int) * max_depth);
enum {
TEST_AABB_BIT = 0,
VISIT_LEFT_BIT = 1,
VISIT_RIGHT_BIT = 2,
VISIT_DONE_BIT = 3,
VISITED_BIT_SHIFT = 29,
NODE_IDX_MASK = (1 << VISITED_BIT_SHIFT) - 1,
VISITED_BIT_MASK = ~NODE_IDX_MASK,
};
Vector3 n = p_dir;
real_t d = 1e20;
bool inters = false;
int level = 0;
const Triangle *triangleptr = triangles.ptr();
const Vector3 *vertexptr = vertices.ptr();
const BVH *bvhptr = bvh.ptr();
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int pos = bvh.size() - 1;
stack[0] = pos;
while (true) {
uint32_t node = stack[level] & NODE_IDX_MASK;
const BVH &b = bvhptr[node];
bool done = false;
switch (stack[level] >> VISITED_BIT_SHIFT) {
case TEST_AABB_BIT: {
if (!b.aabb.intersects_ray(p_begin, p_dir)) {
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stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
} else {
if (b.face_index >= 0) {
const Triangle &s = triangleptr[b.face_index];
Face3 f3(vertexptr[s.indices[0]], vertexptr[s.indices[1]], vertexptr[s.indices[2]]);
Vector3 res;
if (f3.intersects_ray(p_begin, p_dir, &res)) {
real_t nd = n.dot(res);
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if (nd < d) {
d = nd;
r_point = res;
r_normal = f3.get_plane().get_normal();
if (r_surf_index) {
*r_surf_index = s.surface_index;
}
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inters = true;
}
}
stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
} else {
stack[level] = (VISIT_LEFT_BIT << VISITED_BIT_SHIFT) | node;
}
}
continue;
}
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case VISIT_LEFT_BIT: {
stack[level] = (VISIT_RIGHT_BIT << VISITED_BIT_SHIFT) | node;
level++;
stack[level] = b.left | TEST_AABB_BIT;
continue;
}
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case VISIT_RIGHT_BIT: {
stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
level++;
stack[level] = b.right | TEST_AABB_BIT;
continue;
}
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case VISIT_DONE_BIT: {
if (level == 0) {
done = true;
break;
} else {
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level--;
}
continue;
}
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}
if (done) {
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break;
}
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}
if (inters) {
if (n.dot(r_normal) > 0) {
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r_normal = -r_normal;
}
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}
return inters;
}
bool TriangleMesh::intersect_convex_shape(const Plane *p_planes, int p_plane_count, const Vector3 *p_points, int p_point_count) const {
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uint32_t *stack = (uint32_t *)alloca(sizeof(int) * max_depth);
//p_fully_inside = true;
enum {
TEST_AABB_BIT = 0,
VISIT_LEFT_BIT = 1,
VISIT_RIGHT_BIT = 2,
VISIT_DONE_BIT = 3,
VISITED_BIT_SHIFT = 29,
NODE_IDX_MASK = (1 << VISITED_BIT_SHIFT) - 1,
VISITED_BIT_MASK = ~NODE_IDX_MASK,
};
int level = 0;
const Triangle *triangleptr = triangles.ptr();
const Vector3 *vertexptr = vertices.ptr();
const BVH *bvhptr = bvh.ptr();
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int pos = bvh.size() - 1;
stack[0] = pos;
while (true) {
uint32_t node = stack[level] & NODE_IDX_MASK;
const BVH &b = bvhptr[node];
bool done = false;
switch (stack[level] >> VISITED_BIT_SHIFT) {
case TEST_AABB_BIT: {
if (!b.aabb.intersects_convex_shape(p_planes, p_plane_count, p_points, p_point_count)) {
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stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
} else {
if (b.face_index >= 0) {
const Triangle &s = triangleptr[b.face_index];
for (int j = 0; j < 3; ++j) {
const Vector3 &point = vertexptr[s.indices[j]];
const Vector3 &next_point = vertexptr[s.indices[(j + 1) % 3]];
Vector3 res;
bool over = true;
for (int i = 0; i < p_plane_count; i++) {
const Plane &p = p_planes[i];
if (p.intersects_segment(point, next_point, &res)) {
bool inisde = true;
for (int k = 0; k < p_plane_count; k++) {
if (k == i) {
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continue;
}
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const Plane &pp = p_planes[k];
if (pp.is_point_over(res)) {
inisde = false;
break;
}
}
if (inisde) {
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return true;
}
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}
if (p.is_point_over(point)) {
over = false;
break;
}
}
if (over) {
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return true;
}
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}
stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
} else {
stack[level] = (VISIT_LEFT_BIT << VISITED_BIT_SHIFT) | node;
}
}
continue;
}
case VISIT_LEFT_BIT: {
stack[level] = (VISIT_RIGHT_BIT << VISITED_BIT_SHIFT) | node;
level++;
stack[level] = b.left | TEST_AABB_BIT;
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continue;
}
case VISIT_RIGHT_BIT: {
stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
level++;
stack[level] = b.right | TEST_AABB_BIT;
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continue;
}
case VISIT_DONE_BIT: {
if (level == 0) {
done = true;
break;
} else {
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level--;
}
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continue;
}
}
if (done) {
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break;
}
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}
return false;
}
bool TriangleMesh::inside_convex_shape(const Plane *p_planes, int p_plane_count, const Vector3 *p_points, int p_point_count, Vector3 p_scale) const {
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uint32_t *stack = (uint32_t *)alloca(sizeof(int) * max_depth);
enum {
TEST_AABB_BIT = 0,
VISIT_LEFT_BIT = 1,
VISIT_RIGHT_BIT = 2,
VISIT_DONE_BIT = 3,
VISITED_BIT_SHIFT = 29,
NODE_IDX_MASK = (1 << VISITED_BIT_SHIFT) - 1,
VISITED_BIT_MASK = ~NODE_IDX_MASK,
};
int level = 0;
const Triangle *triangleptr = triangles.ptr();
const Vector3 *vertexptr = vertices.ptr();
const BVH *bvhptr = bvh.ptr();
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Transform3D scale(Basis().scaled(p_scale));
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int pos = bvh.size() - 1;
stack[0] = pos;
while (true) {
uint32_t node = stack[level] & NODE_IDX_MASK;
const BVH &b = bvhptr[node];
bool done = false;
switch (stack[level] >> VISITED_BIT_SHIFT) {
case TEST_AABB_BIT: {
bool intersects = scale.xform(b.aabb).intersects_convex_shape(p_planes, p_plane_count, p_points, p_point_count);
if (!intersects) {
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return false;
}
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bool inside = scale.xform(b.aabb).inside_convex_shape(p_planes, p_plane_count);
if (inside) {
stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
} else {
if (b.face_index >= 0) {
const Triangle &s = triangleptr[b.face_index];
for (int j = 0; j < 3; ++j) {
Vector3 point = scale.xform(vertexptr[s.indices[j]]);
for (int i = 0; i < p_plane_count; i++) {
const Plane &p = p_planes[i];
if (p.is_point_over(point)) {
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return false;
}
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}
}
stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
} else {
stack[level] = (VISIT_LEFT_BIT << VISITED_BIT_SHIFT) | node;
}
}
continue;
}
case VISIT_LEFT_BIT: {
stack[level] = (VISIT_RIGHT_BIT << VISITED_BIT_SHIFT) | node;
level++;
stack[level] = b.left | TEST_AABB_BIT;
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continue;
}
case VISIT_RIGHT_BIT: {
stack[level] = (VISIT_DONE_BIT << VISITED_BIT_SHIFT) | node;
level++;
stack[level] = b.right | TEST_AABB_BIT;
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continue;
}
case VISIT_DONE_BIT: {
if (level == 0) {
done = true;
break;
} else {
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level--;
}
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continue;
}
}
if (done) {
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break;
}
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}
return true;
}
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bool TriangleMesh::is_valid() const {
return valid;
}
Vector<Face3> TriangleMesh::get_faces() const {
if (!valid) {
return Vector<Face3>();
}
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Vector<Face3> faces;
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int ts = triangles.size();
faces.resize(triangles.size());
Face3 *w = faces.ptrw();
const Triangle *r = triangles.ptr();
const Vector3 *rv = vertices.ptr();
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for (int i = 0; i < ts; i++) {
for (int j = 0; j < 3; j++) {
w[i].vertex[j] = rv[r[i].indices[j]];
}
}
return faces;
}
TriangleMesh::TriangleMesh() {
valid = false;
max_depth = 0;
}