mirror of
https://git.code.sf.net/p/quake/quakeforge
synced 2024-12-11 21:31:30 +00:00
dce1a4d292
By replacing it :P (and its friends). This gets the non-sw renderers working with recent scene changes.
457 lines
15 KiB
C
457 lines
15 KiB
C
/*
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hierarchy.c
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General hierarchy handling
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Copyright (C) 2021 Bill Currke
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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See the GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to:
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Free Software Foundation, Inc.
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59 Temple Place - Suite 330
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Boston, MA 02111-1307, USA
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*/
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#ifdef HAVE_CONFIG_H
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# include "config.h"
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#endif
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#ifdef HAVE_STRING_H
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# include <string.h>
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#endif
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#ifdef HAVE_STRINGS_H
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# include <strings.h>
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#endif
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#include "QF/scene/hierarchy.h"
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#include "QF/scene/transform.h"
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#include "scn_internal.h"
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static void
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hierarchy_UpdateTransformIndices (hierarchy_t *hierarchy, uint32_t start,
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int offset)
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{
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for (size_t i = start; i < hierarchy->transform.size; i++) {
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if (hierarchy->transform.a[i]) {
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hierarchy->transform.a[i]->index += offset;
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}
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}
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}
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static void
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hierarchy_UpdateChildIndices (hierarchy_t *hierarchy, uint32_t start,
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int offset)
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{
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for (size_t i = start; i < hierarchy->childIndex.size; i++) {
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hierarchy->childIndex.a[i] += offset;
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}
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}
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static void
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hierarchy_UpdateParentIndices (hierarchy_t *hierarchy, uint32_t start,
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int offset)
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{
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for (size_t i = start; i < hierarchy->parentIndex.size; i++) {
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hierarchy->parentIndex.a[i] += offset;
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}
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}
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static void
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hierarchy_calcLocalInverse (hierarchy_t *h, uint32_t index)
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{
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// This takes advantage of the fact that localMatrix is a simple
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// homogenous scale/rotate/translate matrix with no shear
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vec4f_t x = h->localMatrix.a[index][0];
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vec4f_t y = h->localMatrix.a[index][1];
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vec4f_t z = h->localMatrix.a[index][2];
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vec4f_t t = h->localMatrix.a[index][3];
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// "one" is to ensure both the scalar and translation have 1 in their
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// forth components
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vec4f_t one = { 0, 0, 0, 1 };
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vec4f_t nx = { x[0], y[0], z[0], 0 };
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vec4f_t ny = { x[1], y[1], z[1], 0 };
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vec4f_t nz = { x[2], y[2], z[2], 0 };
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vec4f_t nt = one - t[0] * nx - t[1] * ny - t[2] * nz;
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// vertical dot product!!!
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vec4f_t s = 1 / (nx * nx + ny * ny + nz * nz + one);
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h->localInverse.a[index][0] = nx * s;
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h->localInverse.a[index][1] = ny * s;
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h->localInverse.a[index][2] = nz * s;
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h->localInverse.a[index][3] = nt * s;
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}
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void
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Hierarchy_UpdateMatrices (hierarchy_t *h)
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{
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for (size_t i = 0; i < h->localInverse.size; i++) {
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if (h->modified.a[i]) {
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hierarchy_calcLocalInverse (h, i);
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}
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}
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if (h->modified.a[0]) {
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memcpy (h->worldMatrix.a[0],
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h->localMatrix.a[0], sizeof (mat4_t));
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memcpy (h->worldInverse.a[0],
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h->localInverse.a[0], sizeof (mat4_t));
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h->worldRotation.a[0] = h->localRotation.a[0];
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h->worldScale.a[0] = h->localScale.a[0];
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}
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for (size_t i = 1; i < h->worldMatrix.size; i++) {
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uint32_t parent = h->parentIndex.a[i];
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if (h->modified.a[i] || h->modified.a[parent]) {
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mmulf (h->worldMatrix.a[i],
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h->worldMatrix.a[parent], h->localMatrix.a[i]);
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h->modified.a[i] = 1;
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}
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}
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for (size_t i = 1; i < h->worldInverse.size; i++) {
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uint32_t parent = h->parentIndex.a[i];
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if (h->modified.a[i] || h->modified.a[parent]) {
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mmulf (h->worldInverse.a[i],
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h->localInverse.a[i], h->worldInverse.a[parent]);
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}
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}
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for (size_t i = 1; i < h->worldRotation.size; i++) {
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uint32_t parent = h->parentIndex.a[i];
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if (h->modified.a[i] || h->modified.a[parent]) {
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h->worldRotation.a[i] = qmulf (h->worldRotation.a[parent],
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h->localRotation.a[i]);
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}
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}
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for (size_t i = 1; i < h->worldScale.size; i++) {
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uint32_t parent = h->parentIndex.a[i];
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if (h->modified.a[i] || h->modified.a[parent]) {
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h->worldScale.a[i] = m3vmulf (h->worldMatrix.a[parent],
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h->localScale.a[i]);
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}
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}
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memset (h->modified.a, 0, h->modified.size);
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}
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static void
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hierarchy_open (hierarchy_t *hierarchy, uint32_t index, uint32_t count)
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{
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DARRAY_OPEN_AT (&hierarchy->transform, index, count);
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DARRAY_OPEN_AT (&hierarchy->entity, index, count);
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DARRAY_OPEN_AT (&hierarchy->childCount, index, count);
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DARRAY_OPEN_AT (&hierarchy->childIndex, index, count);
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DARRAY_OPEN_AT (&hierarchy->parentIndex, index, count);
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DARRAY_OPEN_AT (&hierarchy->name, index, count);
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DARRAY_OPEN_AT (&hierarchy->tag, index, count);
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DARRAY_OPEN_AT (&hierarchy->modified, index, count);
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DARRAY_OPEN_AT (&hierarchy->localMatrix, index, count);
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DARRAY_OPEN_AT (&hierarchy->localInverse, index, count);
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DARRAY_OPEN_AT (&hierarchy->worldMatrix, index, count);
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DARRAY_OPEN_AT (&hierarchy->worldInverse, index, count);
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DARRAY_OPEN_AT (&hierarchy->localRotation, index, count);
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DARRAY_OPEN_AT (&hierarchy->localScale, index, count);
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DARRAY_OPEN_AT (&hierarchy->worldRotation, index, count);
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DARRAY_OPEN_AT (&hierarchy->worldScale, index, count);
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}
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static void
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hierarchy_close (hierarchy_t *hierarchy, uint32_t index, uint32_t count)
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{
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if (count) {
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DARRAY_CLOSE_AT (&hierarchy->transform, index, count);
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DARRAY_CLOSE_AT (&hierarchy->entity, index, count);
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DARRAY_CLOSE_AT (&hierarchy->childCount, index, count);
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DARRAY_CLOSE_AT (&hierarchy->childIndex, index, count);
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DARRAY_CLOSE_AT (&hierarchy->parentIndex, index, count);
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DARRAY_CLOSE_AT (&hierarchy->name, index, count);
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DARRAY_CLOSE_AT (&hierarchy->tag, index, count);
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DARRAY_CLOSE_AT (&hierarchy->modified, index, count);
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DARRAY_CLOSE_AT (&hierarchy->localMatrix, index, count);
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DARRAY_CLOSE_AT (&hierarchy->localInverse, index, count);
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DARRAY_CLOSE_AT (&hierarchy->worldMatrix, index, count);
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DARRAY_CLOSE_AT (&hierarchy->worldInverse, index, count);
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DARRAY_CLOSE_AT (&hierarchy->localRotation, index, count);
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DARRAY_CLOSE_AT (&hierarchy->localScale, index, count);
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DARRAY_CLOSE_AT (&hierarchy->worldRotation, index, count);
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DARRAY_CLOSE_AT (&hierarchy->worldScale, index, count);
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}
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}
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static void
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hierarchy_move (hierarchy_t *dst, const hierarchy_t *src,
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uint32_t dstIndex, uint32_t srcIndex, uint32_t count)
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{
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memcpy (&dst->transform.a[dstIndex], &src->transform.a[srcIndex],
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count * sizeof(dst->transform.a[0]));
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memset (&src->transform.a[srcIndex], 0,
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count * sizeof(dst->transform.a[0]));
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memcpy (&dst->entity.a[dstIndex], &src->entity.a[srcIndex],
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count * sizeof(dst->entity.a[0]));
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memcpy (&dst->name.a[dstIndex], &src->name.a[srcIndex],
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count * sizeof(dst->name.a[0]));
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memcpy (&dst->tag.a[dstIndex], &src->tag.a[srcIndex],
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count * sizeof(dst->tag.a[0]));
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memset (&dst->modified.a[dstIndex], 1, count * sizeof(dst->modified.a[0]));
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memcpy (&dst->localMatrix.a[dstIndex], &src->localMatrix.a[srcIndex],
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count * sizeof(dst->localMatrix.a[0]));
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memcpy (&dst->localInverse.a[dstIndex], &src->localInverse.a[srcIndex],
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count * sizeof(dst->localInverse.a[0]));
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memcpy (&dst->localRotation.a[dstIndex], &src->localRotation.a[srcIndex],
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count * sizeof(dst->localRotation.a[0]));
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memcpy (&dst->localScale.a[dstIndex], &src->localScale.a[srcIndex],
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count * sizeof(dst->localScale.a[0]));
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for (uint32_t i = 0; i < count; i++) {
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dst->transform.a[dstIndex + i]->hierarchy = dst;
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dst->transform.a[dstIndex + i]->index = dstIndex + i;
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}
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}
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static void
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hierarchy_init (hierarchy_t *dst, uint32_t index,
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uint32_t parentIndex, uint32_t childIndex, uint32_t count)
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{
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memset (&dst->transform.a[index], 0,
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count * sizeof(dst->transform.a[0]));
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memset (&dst->entity.a[index], 0, count * sizeof(dst->entity.a[0]));
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memset (&dst->name.a[index], 0, count * sizeof(dst->name.a[0]));
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memset (&dst->tag.a[index], 0, count * sizeof(dst->tag.a[0]));
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memset (&dst->modified.a[index], 1, count * sizeof(dst->modified.a[0]));
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for (uint32_t i = 0; i < count; i++) {
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mat4fidentity (dst->localMatrix.a[index]);
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mat4fidentity (dst->localInverse.a[index]);
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dst->localRotation.a[index] = (vec4f_t) { 0, 0, 0, 1 };
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dst->localScale.a[index] = (vec4f_t) { 1, 1, 1, 1 };
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dst->parentIndex.a[index + i] = parentIndex;
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dst->childCount.a[index + i] = 0;
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dst->childIndex.a[index + i] = childIndex;
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}
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}
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static uint32_t
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hierarchy_insert (hierarchy_t *dst, const hierarchy_t *src,
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uint32_t dstParent, uint32_t srcRoot, uint32_t count)
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{
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uint32_t insertIndex; // where the transforms will be inserted
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uint32_t childIndex; // where the transforms' children will inserted
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// The newly added transforms are always last children of the parent
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// transform
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insertIndex = dst->childIndex.a[dstParent] + dst->childCount.a[dstParent];
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// By design, all of a transform's children are in one contiguous block,
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// and the blocks of children for each transform are ordered by their
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// parents. Thus the child index of each transform increases monotonically
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// for each child index in the array, regardless of the level of the owning
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// transform (higher levels always come before lower levels).
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uint32_t neighbor = insertIndex - 1; // insertIndex never zero
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childIndex = dst->childIndex.a[neighbor] + dst->childCount.a[neighbor];
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// Any transforms that come after the inserted transforms need to have
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// thier indices adjusted.
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hierarchy_UpdateTransformIndices (dst, insertIndex, count);
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// The parent transform's child index is not affected, but the child
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// indices of all transforms immediately after the parent transform are.
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hierarchy_UpdateChildIndices (dst, dstParent + 1, count);
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hierarchy_UpdateParentIndices (dst, childIndex, count);
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// The beginning of the block of children for the new transforms was
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// computed from the pre-insert indices of the related transforms, thus
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// the index must be updated by the number of transforms being inserted
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// (it would have been updated thusly if the insert was done before
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// updating the indices of the other transforms).
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childIndex += count;
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hierarchy_open (dst, insertIndex, count);
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if (src) {
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hierarchy_move (dst, src, insertIndex, srcRoot, count);
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} else {
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hierarchy_init (dst, insertIndex, dstParent, childIndex, count);
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}
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for (uint32_t i = 0; i < count; i++) {
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dst->parentIndex.a[insertIndex + i] = dstParent;
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dst->childIndex.a[insertIndex + i] = childIndex;
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dst->childCount.a[insertIndex + i] = 0;
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}
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dst->childCount.a[dstParent] += count;
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return insertIndex;
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}
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static void
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hierarchy_insert_children (hierarchy_t *dst, const hierarchy_t *src,
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uint32_t dstParent, uint32_t srcRoot)
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{
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uint32_t insertIndex;
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uint32_t childIndex = src->childIndex.a[srcRoot];
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uint32_t childCount = src->childCount.a[srcRoot];
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if (childCount) {
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insertIndex = hierarchy_insert (dst, src, dstParent,
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childIndex, childCount);
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for (uint32_t i = 0; i < childCount; i++) {
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hierarchy_insert_children (dst, src, insertIndex + i,
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childIndex + i);
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}
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}
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}
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uint32_t
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Hierarchy_InsertHierarchy (hierarchy_t *dst, const hierarchy_t *src,
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uint32_t dstParent, uint32_t srcRoot)
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{
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uint32_t insertIndex;
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if (dstParent == null_transform) {
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if (dst->transform.size) {
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Sys_Error ("attempt to insert root in non-empty hierarchy");
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}
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hierarchy_open (dst, 0, 1);
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hierarchy_move (dst, src, 0, srcRoot, 1);
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dst->parentIndex.a[0] = null_transform;
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dst->childIndex.a[0] = 1;
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dst->childCount.a[0] = 0;
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insertIndex = 0;
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} else {
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if (!dst->transform.size) {
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Sys_Error ("attempt to insert non-root in empty hierarchy");
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}
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insertIndex = hierarchy_insert (dst, src, dstParent, srcRoot, 1);
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}
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// if src is null, then inserting a new transform which has no children
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if (src) {
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hierarchy_insert_children (dst, src, insertIndex, srcRoot);
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}
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Hierarchy_UpdateMatrices (dst);
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return insertIndex;
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}
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static void
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hierarchy_remove_children (hierarchy_t *hierarchy, uint32_t index)
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{
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uint32_t childIndex = hierarchy->childIndex.a[index];
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uint32_t childCount = hierarchy->childCount.a[index];
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uint32_t parentIndex = hierarchy->parentIndex.a[index];
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uint32_t nieceIndex = null_transform;
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if (parentIndex != null_transform) {
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uint32_t siblingIndex = hierarchy->childIndex.a[parentIndex];
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siblingIndex += hierarchy->childCount.a[parentIndex] - 1;
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nieceIndex = hierarchy->childIndex.a[siblingIndex];
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}
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for (uint32_t i = childCount; i-- > 0; ) {
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hierarchy_remove_children (hierarchy, childIndex + i);
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}
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hierarchy_close (hierarchy, childIndex, childCount);
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hierarchy->childCount.a[index] = 0;
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if (childCount) {
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hierarchy_UpdateTransformIndices (hierarchy, childIndex, -childCount);
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hierarchy_UpdateChildIndices (hierarchy, index, -childCount);
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if (nieceIndex != null_transform) {
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hierarchy_UpdateParentIndices (hierarchy, nieceIndex, -childCount);
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}
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}
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}
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void
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Hierarchy_RemoveHierarchy (hierarchy_t *hierarchy, uint32_t index)
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{
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uint32_t parentIndex = hierarchy->parentIndex.a[index];
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uint32_t childIndex = hierarchy->childIndex.a[index];
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uint32_t siblingIndex = null_transform;
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if (parentIndex != null_transform) {
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siblingIndex = hierarchy->childIndex.a[parentIndex];
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}
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hierarchy_remove_children (hierarchy, index);
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hierarchy_close (hierarchy, index, 1);
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if (siblingIndex != null_transform) {
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hierarchy_UpdateTransformIndices (hierarchy, index, -1);
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hierarchy_UpdateChildIndices (hierarchy, siblingIndex, -1);
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hierarchy_UpdateParentIndices (hierarchy, childIndex - 1, -1);
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}
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}
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hierarchy_t *
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Hierarchy_New (scene_t *scene, int createRoot)
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{
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scene_resources_t *res = scene->resources;
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hierarchy_t *hierarchy = PR_RESNEW_NC (res->hierarchies);
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hierarchy->scene = scene;
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hierarchy->prev = &scene->hierarchies;
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hierarchy->next = scene->hierarchies;
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if (scene->hierarchies) {
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scene->hierarchies->prev = &hierarchy->next;
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}
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scene->hierarchies = hierarchy;
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size_t grow = 16;
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DARRAY_INIT (&hierarchy->transform, grow);
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DARRAY_INIT (&hierarchy->entity, grow);
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DARRAY_INIT (&hierarchy->childCount, grow);
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DARRAY_INIT (&hierarchy->childIndex, grow);
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DARRAY_INIT (&hierarchy->parentIndex, grow);
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DARRAY_INIT (&hierarchy->name, grow);
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DARRAY_INIT (&hierarchy->tag, grow);
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DARRAY_INIT (&hierarchy->modified, grow);
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DARRAY_INIT (&hierarchy->localMatrix, grow);
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DARRAY_INIT (&hierarchy->localInverse, grow);
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DARRAY_INIT (&hierarchy->worldMatrix, grow);
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DARRAY_INIT (&hierarchy->worldInverse, grow);
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DARRAY_INIT (&hierarchy->localRotation, grow);
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DARRAY_INIT (&hierarchy->localScale, grow);
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DARRAY_INIT (&hierarchy->worldRotation, grow);
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DARRAY_INIT (&hierarchy->worldScale, grow);
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if (createRoot) {
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hierarchy_open (hierarchy, 0, 1);
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hierarchy_init (hierarchy, 0, null_transform, 1, 1);
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}
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return hierarchy;
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}
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void
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Hierarchy_Delete (hierarchy_t *hierarchy)
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{
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if (hierarchy->next) {
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hierarchy->next->prev = hierarchy->prev;
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}
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*hierarchy->prev = hierarchy->next;
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scene_resources_t *res = hierarchy->scene->resources;
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for (size_t i = 0; i < hierarchy->transform.size; i++) {
|
|
PR_RESFREE (res->transforms, hierarchy->transform.a[i]);
|
|
}
|
|
DARRAY_CLEAR (&hierarchy->transform);
|
|
DARRAY_CLEAR (&hierarchy->entity);
|
|
DARRAY_CLEAR (&hierarchy->childCount);
|
|
DARRAY_CLEAR (&hierarchy->childIndex);
|
|
DARRAY_CLEAR (&hierarchy->parentIndex);
|
|
DARRAY_CLEAR (&hierarchy->name);
|
|
DARRAY_CLEAR (&hierarchy->tag);
|
|
DARRAY_CLEAR (&hierarchy->modified);
|
|
DARRAY_CLEAR (&hierarchy->localMatrix);
|
|
DARRAY_CLEAR (&hierarchy->localInverse);
|
|
DARRAY_CLEAR (&hierarchy->worldMatrix);
|
|
DARRAY_CLEAR (&hierarchy->worldInverse);
|
|
DARRAY_CLEAR (&hierarchy->localRotation);
|
|
DARRAY_CLEAR (&hierarchy->localScale);
|
|
DARRAY_CLEAR (&hierarchy->worldRotation);
|
|
DARRAY_CLEAR (&hierarchy->worldScale);
|
|
PR_RESFREE (res->hierarchies, hierarchy);
|
|
}
|