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test2/source/blender/bmesh/intern/bmesh_construct.c
Sergey Sharybin c1bc70b711 Cleanup: Add a copyright notice to files and use SPDX format 
A lot of files were missing copyright field in the header and
the Blender Foundation contributed to them in a sense of bug
fixing and general maintenance.

This change makes it explicit that those files are at least
partially copyrighted by the Blender Foundation.

Note that this does not make it so the Blender Foundation is
the only holder of the copyright in those files, and developers
who do not have a signed contract with the foundation still
hold the copyright as well.

Another aspect of this change is using SPDX format for the
header. We already used it for the license specification,
and now we state it for the copyright as well, following the
FAQ:

    https://reuse.software/faq/
2023-05-31 16:19:06 +02:00

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/* SPDX-FileCopyrightText: 2007 Blender Foundation
*
* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup bmesh
*
* BM construction functions.
*/
#include "MEM_guardedalloc.h"
#include "BLI_alloca.h"
#include "BLI_math.h"
#include "BLI_sort_utils.h"
#include "BKE_customdata.h"
#include "DNA_mesh_types.h"
#include "DNA_meshdata_types.h"
#include "bmesh.h"
#include "intern/bmesh_private.h"
bool BM_verts_from_edges(BMVert **vert_arr, BMEdge **edge_arr, const int len)
{
int i, i_prev = len - 1;
for (i = 0; i < len; i++) {
vert_arr[i] = BM_edge_share_vert(edge_arr[i_prev], edge_arr[i]);
if (vert_arr[i] == NULL) {
return false;
}
i_prev = i;
}
return true;
}
bool BM_edges_from_verts(BMEdge **edge_arr, BMVert **vert_arr, const int len)
{
int i, i_prev = len - 1;
for (i = 0; i < len; i++) {
edge_arr[i_prev] = BM_edge_exists(vert_arr[i_prev], vert_arr[i]);
if (edge_arr[i_prev] == NULL) {
return false;
}
i_prev = i;
}
return true;
}
void BM_edges_from_verts_ensure(BMesh *bm, BMEdge **edge_arr, BMVert **vert_arr, const int len)
{
int i, i_prev = len - 1;
for (i = 0; i < len; i++) {
edge_arr[i_prev] = BM_edge_create(
bm, vert_arr[i_prev], vert_arr[i], NULL, BM_CREATE_NO_DOUBLE);
i_prev = i;
}
}
/* prototypes */
static void bm_loop_attrs_copy(BMesh *bm_src,
BMesh *bm_dst,
const BMLoop *l_src,
BMLoop *l_dst,
eCustomDataMask mask_exclude);
BMFace *BM_face_create_quad_tri(BMesh *bm,
BMVert *v1,
BMVert *v2,
BMVert *v3,
BMVert *v4,
const BMFace *f_example,
const eBMCreateFlag create_flag)
{
BMVert *vtar[4] = {v1, v2, v3, v4};
return BM_face_create_verts(bm, vtar, v4 ? 4 : 3, f_example, create_flag, true);
}
void BM_face_copy_shared(BMesh *bm, BMFace *f, BMLoopFilterFunc filter_fn, void *user_data)
{
BMLoop *l_first;
BMLoop *l_iter;
#ifdef DEBUG
l_iter = l_first = BM_FACE_FIRST_LOOP(f);
do {
BLI_assert(BM_ELEM_API_FLAG_TEST(l_iter, _FLAG_OVERLAP) == 0);
} while ((l_iter = l_iter->next) != l_first);
#endif
l_iter = l_first = BM_FACE_FIRST_LOOP(f);
do {
BMLoop *l_other = l_iter->radial_next;
if (l_other && l_other != l_iter) {
BMLoop *l_src[2];
BMLoop *l_dst[2] = {l_iter, l_iter->next};
uint j;
if (l_other->v == l_iter->v) {
l_src[0] = l_other;
l_src[1] = l_other->next;
}
else {
l_src[0] = l_other->next;
l_src[1] = l_other;
}
for (j = 0; j < 2; j++) {
BLI_assert(l_dst[j]->v == l_src[j]->v);
if (BM_ELEM_API_FLAG_TEST(l_dst[j], _FLAG_OVERLAP) == 0) {
if ((filter_fn == NULL) || filter_fn(l_src[j], user_data)) {
bm_loop_attrs_copy(bm, bm, l_src[j], l_dst[j], 0x0);
BM_ELEM_API_FLAG_ENABLE(l_dst[j], _FLAG_OVERLAP);
}
}
}
}
} while ((l_iter = l_iter->next) != l_first);
l_iter = l_first = BM_FACE_FIRST_LOOP(f);
do {
BM_ELEM_API_FLAG_DISABLE(l_iter, _FLAG_OVERLAP);
} while ((l_iter = l_iter->next) != l_first);
}
/**
* Given an array of edges,
* order them using the winding defined by \a v1 & \a v2
* into \a edges_sort & \a verts_sort.
*
* All arrays must be \a len long.
*/
static bool bm_edges_sort_winding(BMVert *v1,
BMVert *v2,
BMEdge **edges,
const int len,
BMEdge **edges_sort,
BMVert **verts_sort)
{
BMEdge *e_iter, *e_first;
BMVert *v_iter;
int i;
/* all flags _must_ be cleared on exit! */
for (i = 0; i < len; i++) {
BM_ELEM_API_FLAG_ENABLE(edges[i], _FLAG_MF);
BM_ELEM_API_FLAG_ENABLE(edges[i]->v1, _FLAG_MV);
BM_ELEM_API_FLAG_ENABLE(edges[i]->v2, _FLAG_MV);
}
/* find first edge */
i = 0;
v_iter = v1;
e_iter = e_first = v1->e;
do {
if (BM_ELEM_API_FLAG_TEST(e_iter, _FLAG_MF) && (BM_edge_other_vert(e_iter, v_iter) == v2)) {
i = 1;
break;
}
} while ((e_iter = bmesh_disk_edge_next(e_iter, v_iter)) != e_first);
if (i == 0) {
goto error;
}
i = 0;
do {
/* entering loop will always succeed */
if (BM_ELEM_API_FLAG_TEST(e_iter, _FLAG_MF)) {
if (UNLIKELY(BM_ELEM_API_FLAG_TEST(v_iter, _FLAG_MV) == false)) {
/* vert is in loop multiple times */
goto error;
}
BM_ELEM_API_FLAG_DISABLE(e_iter, _FLAG_MF);
edges_sort[i] = e_iter;
BM_ELEM_API_FLAG_DISABLE(v_iter, _FLAG_MV);
verts_sort[i] = v_iter;
i += 1;
/* walk onto the next vertex */
v_iter = BM_edge_other_vert(e_iter, v_iter);
if (i == len) {
if (UNLIKELY(v_iter != verts_sort[0])) {
goto error;
}
break;
}
e_first = e_iter;
}
} while ((e_iter = bmesh_disk_edge_next(e_iter, v_iter)) != e_first);
if (i == len) {
return true;
}
error:
for (i = 0; i < len; i++) {
BM_ELEM_API_FLAG_DISABLE(edges[i], _FLAG_MF);
BM_ELEM_API_FLAG_DISABLE(edges[i]->v1, _FLAG_MV);
BM_ELEM_API_FLAG_DISABLE(edges[i]->v2, _FLAG_MV);
}
return false;
}
BMFace *BM_face_create_ngon(BMesh *bm,
BMVert *v1,
BMVert *v2,
BMEdge **edges,
const int len,
const BMFace *f_example,
const eBMCreateFlag create_flag)
{
BMEdge **edges_sort = BLI_array_alloca(edges_sort, len);
BMVert **verts_sort = BLI_array_alloca(verts_sort, len);
BLI_assert(len && v1 && v2 && edges && bm);
if (bm_edges_sort_winding(v1, v2, edges, len, edges_sort, verts_sort)) {
return BM_face_create(bm, verts_sort, edges_sort, len, f_example, create_flag);
}
return NULL;
}
BMFace *BM_face_create_ngon_verts(BMesh *bm,
BMVert **vert_arr,
const int len,
const BMFace *f_example,
const eBMCreateFlag create_flag,
const bool calc_winding,
const bool create_edges)
{
BMEdge **edge_arr = BLI_array_alloca(edge_arr, len);
uint winding[2] = {0, 0};
int i, i_prev = len - 1;
BMVert *v_winding[2] = {vert_arr[i_prev], vert_arr[0]};
BLI_assert(len > 2);
for (i = 0; i < len; i++) {
if (create_edges) {
edge_arr[i] = BM_edge_create(bm, vert_arr[i_prev], vert_arr[i], NULL, BM_CREATE_NO_DOUBLE);
}
else {
edge_arr[i] = BM_edge_exists(vert_arr[i_prev], vert_arr[i]);
if (edge_arr[i] == NULL) {
return NULL;
}
}
if (calc_winding) {
/* the edge may exist already and be attached to a face
* in this case we can find the best winding to use for the new face */
if (edge_arr[i]->l) {
BMVert *test_v1, *test_v2;
/* we want to use the reverse winding to the existing order */
BM_edge_ordered_verts(edge_arr[i], &test_v2, &test_v1);
winding[(vert_arr[i_prev] == test_v2)]++;
BLI_assert(ELEM(vert_arr[i_prev], test_v2, test_v1));
}
}
i_prev = i;
}
/* --- */
if (calc_winding) {
if (winding[0] < winding[1]) {
winding[0] = 1;
winding[1] = 0;
}
else {
winding[0] = 0;
winding[1] = 1;
}
}
else {
winding[0] = 0;
winding[1] = 1;
}
/* --- */
/* create the face */
return BM_face_create_ngon(
bm, v_winding[winding[0]], v_winding[winding[1]], edge_arr, len, f_example, create_flag);
}
void BM_verts_sort_radial_plane(BMVert **vert_arr, int len)
{
struct SortIntByFloat *vang = BLI_array_alloca(vang, len);
BMVert **vert_arr_map = BLI_array_alloca(vert_arr_map, len);
float nor[3], cent[3];
int index_tangent = 0;
BM_verts_calc_normal_from_cloud_ex(vert_arr, len, nor, cent, &index_tangent);
const float *far = vert_arr[index_tangent]->co;
/* Now calculate every points angle around the normal (signed). */
for (int i = 0; i < len; i++) {
vang[i].sort_value = angle_signed_on_axis_v3v3v3_v3(far, cent, vert_arr[i]->co, nor);
vang[i].data = i;
vert_arr_map[i] = vert_arr[i];
}
/* sort by angle and magic! - we have our ngon */
qsort(vang, len, sizeof(*vang), BLI_sortutil_cmp_float);
/* --- */
for (int i = 0; i < len; i++) {
vert_arr[i] = vert_arr_map[vang[i].data];
}
}
/*************************************************************/
static void bm_vert_attrs_copy(
BMesh *bm_src, BMesh *bm_dst, const BMVert *v_src, BMVert *v_dst, eCustomDataMask mask_exclude)
{
if ((bm_src == bm_dst) && (v_src == v_dst)) {
BLI_assert_msg(0, "BMVert: source and target match");
return;
}
if ((mask_exclude & CD_MASK_NORMAL) == 0) {
copy_v3_v3(v_dst->no, v_src->no);
}
CustomData_bmesh_free_block_data_exclude_by_type(&bm_dst->vdata, v_dst->head.data, mask_exclude);
CustomData_bmesh_copy_data_exclude_by_type(
&bm_src->vdata, &bm_dst->vdata, v_src->head.data, &v_dst->head.data, mask_exclude);
}
static void bm_edge_attrs_copy(
BMesh *bm_src, BMesh *bm_dst, const BMEdge *e_src, BMEdge *e_dst, eCustomDataMask mask_exclude)
{
if ((bm_src == bm_dst) && (e_src == e_dst)) {
BLI_assert_msg(0, "BMEdge: source and target match");
return;
}
CustomData_bmesh_free_block_data_exclude_by_type(&bm_dst->edata, e_dst->head.data, mask_exclude);
CustomData_bmesh_copy_data_exclude_by_type(
&bm_src->edata, &bm_dst->edata, e_src->head.data, &e_dst->head.data, mask_exclude);
}
static void bm_loop_attrs_copy(
BMesh *bm_src, BMesh *bm_dst, const BMLoop *l_src, BMLoop *l_dst, eCustomDataMask mask_exclude)
{
if ((bm_src == bm_dst) && (l_src == l_dst)) {
BLI_assert_msg(0, "BMLoop: source and target match");
return;
}
CustomData_bmesh_free_block_data_exclude_by_type(&bm_dst->ldata, l_dst->head.data, mask_exclude);
CustomData_bmesh_copy_data_exclude_by_type(
&bm_src->ldata, &bm_dst->ldata, l_src->head.data, &l_dst->head.data, mask_exclude);
}
static void bm_face_attrs_copy(
BMesh *bm_src, BMesh *bm_dst, const BMFace *f_src, BMFace *f_dst, eCustomDataMask mask_exclude)
{
if ((bm_src == bm_dst) && (f_src == f_dst)) {
BLI_assert_msg(0, "BMFace: source and target match");
return;
}
if ((mask_exclude & CD_MASK_NORMAL) == 0) {
copy_v3_v3(f_dst->no, f_src->no);
}
CustomData_bmesh_free_block_data_exclude_by_type(&bm_dst->pdata, f_dst->head.data, mask_exclude);
CustomData_bmesh_copy_data_exclude_by_type(
&bm_src->pdata, &bm_dst->pdata, f_src->head.data, &f_dst->head.data, mask_exclude);
f_dst->mat_nr = f_src->mat_nr;
}
void BM_elem_attrs_copy_ex(BMesh *bm_src,
BMesh *bm_dst,
const void *ele_src_v,
void *ele_dst_v,
const char hflag_mask,
const uint64_t cd_mask_exclude)
{
/* TODO: Special handling for hide flags? */
/* TODO: swap src/dst args, everywhere else in bmesh does other way round. */
const BMHeader *ele_src = ele_src_v;
BMHeader *ele_dst = ele_dst_v;
BLI_assert(ele_src->htype == ele_dst->htype);
BLI_assert(ele_src != ele_dst);
if ((hflag_mask & BM_ELEM_SELECT) == 0) {
/* First we copy select */
if (BM_elem_flag_test((BMElem *)ele_src, BM_ELEM_SELECT)) {
BM_elem_select_set(bm_dst, (BMElem *)ele_dst, true);
}
}
/* Now we copy flags */
if (hflag_mask == 0) {
ele_dst->hflag = ele_src->hflag;
}
else if (hflag_mask == 0xff) {
/* pass */
}
else {
ele_dst->hflag = ((ele_dst->hflag & hflag_mask) | (ele_src->hflag & ~hflag_mask));
}
/* Copy specific attributes */
switch (ele_dst->htype) {
case BM_VERT:
bm_vert_attrs_copy(
bm_src, bm_dst, (const BMVert *)ele_src, (BMVert *)ele_dst, cd_mask_exclude);
break;
case BM_EDGE:
bm_edge_attrs_copy(
bm_src, bm_dst, (const BMEdge *)ele_src, (BMEdge *)ele_dst, cd_mask_exclude);
break;
case BM_LOOP:
bm_loop_attrs_copy(
bm_src, bm_dst, (const BMLoop *)ele_src, (BMLoop *)ele_dst, cd_mask_exclude);
break;
case BM_FACE:
bm_face_attrs_copy(
bm_src, bm_dst, (const BMFace *)ele_src, (BMFace *)ele_dst, cd_mask_exclude);
break;
default:
BLI_assert(0);
break;
}
}
void BM_elem_attrs_copy(BMesh *bm_src, BMesh *bm_dst, const void *ele_src, void *ele_dst)
{
/* BMESH_TODO, default 'use_flags' to false */
BM_elem_attrs_copy_ex(bm_src, bm_dst, ele_src, ele_dst, BM_ELEM_SELECT, 0x0);
}
void BM_elem_select_copy(BMesh *bm_dst, void *ele_dst_v, const void *ele_src_v)
{
BMHeader *ele_dst = ele_dst_v;
const BMHeader *ele_src = ele_src_v;
BLI_assert(ele_src->htype == ele_dst->htype);
if ((ele_src->hflag & BM_ELEM_SELECT) != (ele_dst->hflag & BM_ELEM_SELECT)) {
BM_elem_select_set(bm_dst, (BMElem *)ele_dst, (ele_src->hflag & BM_ELEM_SELECT) != 0);
}
}
/* helper function for 'BM_mesh_copy' */
static BMFace *bm_mesh_copy_new_face(
BMesh *bm_new, BMesh *bm_old, BMVert **vtable, BMEdge **etable, BMFace *f)
{
BMLoop **loops = BLI_array_alloca(loops, f->len);
BMVert **verts = BLI_array_alloca(verts, f->len);
BMEdge **edges = BLI_array_alloca(edges, f->len);
BMFace *f_new;
BMLoop *l_iter, *l_first;
int j;
j = 0;
l_iter = l_first = BM_FACE_FIRST_LOOP(f);
do {
loops[j] = l_iter;
verts[j] = vtable[BM_elem_index_get(l_iter->v)];
edges[j] = etable[BM_elem_index_get(l_iter->e)];
j++;
} while ((l_iter = l_iter->next) != l_first);
f_new = BM_face_create(bm_new, verts, edges, f->len, NULL, BM_CREATE_SKIP_CD);
if (UNLIKELY(f_new == NULL)) {
return NULL;
}
/* use totface in case adding some faces fails */
BM_elem_index_set(f_new, (bm_new->totface - 1)); /* set_inline */
BM_elem_attrs_copy_ex(bm_old, bm_new, f, f_new, 0xff, 0x0);
f_new->head.hflag = f->head.hflag; /* low level! don't do this for normal api use */
j = 0;
l_iter = l_first = BM_FACE_FIRST_LOOP(f_new);
do {
BM_elem_attrs_copy(bm_old, bm_new, loops[j], l_iter);
j++;
} while ((l_iter = l_iter->next) != l_first);
return f_new;
}
void BM_mesh_copy_init_customdata_from_mesh_array(BMesh *bm_dst,
const Mesh *me_src_array[],
const int me_src_array_len,
const BMAllocTemplate *allocsize)
{
if (allocsize == NULL) {
allocsize = &bm_mesh_allocsize_default;
}
for (int i = 0; i < me_src_array_len; i++) {
const Mesh *me_src = me_src_array[i];
CustomData mesh_vdata = CustomData_shallow_copy_remove_non_bmesh_attributes(
&me_src->vdata, CD_MASK_BMESH.vmask);
CustomData mesh_edata = CustomData_shallow_copy_remove_non_bmesh_attributes(
&me_src->edata, CD_MASK_BMESH.emask);
CustomData mesh_pdata = CustomData_shallow_copy_remove_non_bmesh_attributes(
&me_src->pdata, CD_MASK_BMESH.lmask);
CustomData mesh_ldata = CustomData_shallow_copy_remove_non_bmesh_attributes(
&me_src->ldata, CD_MASK_BMESH.pmask);
if (i == 0) {
CustomData_copy_layout(&mesh_vdata, &bm_dst->vdata, CD_MASK_BMESH.vmask, CD_SET_DEFAULT, 0);
CustomData_copy_layout(&mesh_edata, &bm_dst->edata, CD_MASK_BMESH.emask, CD_SET_DEFAULT, 0);
CustomData_copy_layout(&mesh_pdata, &bm_dst->pdata, CD_MASK_BMESH.pmask, CD_SET_DEFAULT, 0);
CustomData_copy_layout(&mesh_ldata, &bm_dst->ldata, CD_MASK_BMESH.lmask, CD_SET_DEFAULT, 0);
}
else {
CustomData_merge_layout(&mesh_vdata, &bm_dst->vdata, CD_MASK_BMESH.vmask, CD_SET_DEFAULT, 0);
CustomData_merge_layout(&mesh_edata, &bm_dst->edata, CD_MASK_BMESH.emask, CD_SET_DEFAULT, 0);
CustomData_merge_layout(&mesh_pdata, &bm_dst->pdata, CD_MASK_BMESH.pmask, CD_SET_DEFAULT, 0);
CustomData_merge_layout(&mesh_ldata, &bm_dst->ldata, CD_MASK_BMESH.lmask, CD_SET_DEFAULT, 0);
}
MEM_SAFE_FREE(mesh_vdata.layers);
MEM_SAFE_FREE(mesh_edata.layers);
MEM_SAFE_FREE(mesh_pdata.layers);
MEM_SAFE_FREE(mesh_ldata.layers);
}
CustomData_bmesh_init_pool(&bm_dst->vdata, allocsize->totvert, BM_VERT);
CustomData_bmesh_init_pool(&bm_dst->edata, allocsize->totedge, BM_EDGE);
CustomData_bmesh_init_pool(&bm_dst->ldata, allocsize->totloop, BM_LOOP);
CustomData_bmesh_init_pool(&bm_dst->pdata, allocsize->totface, BM_FACE);
}
void BM_mesh_copy_init_customdata_from_mesh(BMesh *bm_dst,
const Mesh *me_src,
const BMAllocTemplate *allocsize)
{
BM_mesh_copy_init_customdata_from_mesh_array(bm_dst, &me_src, 1, allocsize);
}
void BM_mesh_copy_init_customdata(BMesh *bm_dst, BMesh *bm_src, const BMAllocTemplate *allocsize)
{
if (allocsize == NULL) {
allocsize = &bm_mesh_allocsize_default;
}
CustomData_copy_layout(&bm_src->vdata, &bm_dst->vdata, CD_MASK_BMESH.vmask, CD_SET_DEFAULT, 0);
CustomData_copy_layout(&bm_src->edata, &bm_dst->edata, CD_MASK_BMESH.emask, CD_SET_DEFAULT, 0);
CustomData_copy_layout(&bm_src->ldata, &bm_dst->ldata, CD_MASK_BMESH.lmask, CD_SET_DEFAULT, 0);
CustomData_copy_layout(&bm_src->pdata, &bm_dst->pdata, CD_MASK_BMESH.pmask, CD_SET_DEFAULT, 0);
CustomData_bmesh_init_pool(&bm_dst->vdata, allocsize->totvert, BM_VERT);
CustomData_bmesh_init_pool(&bm_dst->edata, allocsize->totedge, BM_EDGE);
CustomData_bmesh_init_pool(&bm_dst->ldata, allocsize->totloop, BM_LOOP);
CustomData_bmesh_init_pool(&bm_dst->pdata, allocsize->totface, BM_FACE);
}
void BM_mesh_copy_init_customdata_all_layers(BMesh *bm_dst,
BMesh *bm_src,
const char htype,
const BMAllocTemplate *allocsize)
{
if (allocsize == NULL) {
allocsize = &bm_mesh_allocsize_default;
}
const char htypes[4] = {BM_VERT, BM_EDGE, BM_LOOP, BM_FACE};
BLI_assert(((&bm_dst->vdata + 1) == &bm_dst->edata) &&
((&bm_dst->vdata + 2) == &bm_dst->ldata) && ((&bm_dst->vdata + 3) == &bm_dst->pdata));
BLI_assert(((&allocsize->totvert + 1) == &allocsize->totedge) &&
((&allocsize->totvert + 2) == &allocsize->totloop) &&
((&allocsize->totvert + 3) == &allocsize->totface));
for (int i = 0; i < 4; i++) {
if (!(htypes[i] & htype)) {
continue;
}
CustomData *dst = &bm_dst->vdata + i;
CustomData *src = &bm_src->vdata + i;
const int size = *(&allocsize->totvert + i);
for (int l = 0; l < src->totlayer; l++) {
CustomData_add_layer_named(dst, src->layers[l].type, CD_SET_DEFAULT, 0, src->layers[l].name);
}
CustomData_bmesh_init_pool(dst, size, htypes[i]);
}
}
BMesh *BM_mesh_copy(BMesh *bm_old)
{
BMesh *bm_new;
BMVert *v, *v_new, **vtable = NULL;
BMEdge *e, *e_new, **etable = NULL;
BMFace *f, *f_new, **ftable = NULL;
BMElem **eletable;
BMEditSelection *ese;
BMIter iter;
int i;
const BMAllocTemplate allocsize = BMALLOC_TEMPLATE_FROM_BM(bm_old);
/* allocate a bmesh */
bm_new = BM_mesh_create(&allocsize,
&((struct BMeshCreateParams){
.use_toolflags = bm_old->use_toolflags,
}));
BM_mesh_copy_init_customdata(bm_new, bm_old, &allocsize);
vtable = MEM_mallocN(sizeof(BMVert *) * bm_old->totvert, "BM_mesh_copy vtable");
etable = MEM_mallocN(sizeof(BMEdge *) * bm_old->totedge, "BM_mesh_copy etable");
ftable = MEM_mallocN(sizeof(BMFace *) * bm_old->totface, "BM_mesh_copy ftable");
BM_ITER_MESH_INDEX (v, &iter, bm_old, BM_VERTS_OF_MESH, i) {
/* copy between meshes so can't use 'example' argument */
v_new = BM_vert_create(bm_new, v->co, NULL, BM_CREATE_SKIP_CD);
BM_elem_attrs_copy_ex(bm_old, bm_new, v, v_new, 0xff, 0x0);
v_new->head.hflag = v->head.hflag; /* low level! don't do this for normal api use */
vtable[i] = v_new;
BM_elem_index_set(v, i); /* set_inline */
BM_elem_index_set(v_new, i); /* set_inline */
}
bm_old->elem_index_dirty &= ~BM_VERT;
bm_new->elem_index_dirty &= ~BM_VERT;
/* safety check */
BLI_assert(i == bm_old->totvert);
BM_ITER_MESH_INDEX (e, &iter, bm_old, BM_EDGES_OF_MESH, i) {
e_new = BM_edge_create(bm_new,
vtable[BM_elem_index_get(e->v1)],
vtable[BM_elem_index_get(e->v2)],
e,
BM_CREATE_SKIP_CD);
BM_elem_attrs_copy_ex(bm_old, bm_new, e, e_new, 0xff, 0x0);
e_new->head.hflag = e->head.hflag; /* low level! don't do this for normal api use */
etable[i] = e_new;
BM_elem_index_set(e, i); /* set_inline */
BM_elem_index_set(e_new, i); /* set_inline */
}
bm_old->elem_index_dirty &= ~BM_EDGE;
bm_new->elem_index_dirty &= ~BM_EDGE;
/* safety check */
BLI_assert(i == bm_old->totedge);
BM_ITER_MESH_INDEX (f, &iter, bm_old, BM_FACES_OF_MESH, i) {
BM_elem_index_set(f, i); /* set_inline */
f_new = bm_mesh_copy_new_face(bm_new, bm_old, vtable, etable, f);
ftable[i] = f_new;
if (f == bm_old->act_face) {
bm_new->act_face = f_new;
}
}
bm_old->elem_index_dirty &= ~BM_FACE;
bm_new->elem_index_dirty &= ~BM_FACE;
/* low level! don't do this for normal api use */
bm_new->totvertsel = bm_old->totvertsel;
bm_new->totedgesel = bm_old->totedgesel;
bm_new->totfacesel = bm_old->totfacesel;
/* safety check */
BLI_assert(i == bm_old->totface);
/* copy over edit selection history */
for (ese = bm_old->selected.first; ese; ese = ese->next) {
BMElem *ele = NULL;
switch (ese->htype) {
case BM_VERT:
eletable = (BMElem **)vtable;
break;
case BM_EDGE:
eletable = (BMElem **)etable;
break;
case BM_FACE:
eletable = (BMElem **)ftable;
break;
default:
eletable = NULL;
break;
}
if (eletable) {
ele = eletable[BM_elem_index_get(ese->ele)];
if (ele) {
BM_select_history_store(bm_new, ele);
}
}
}
MEM_freeN(etable);
MEM_freeN(vtable);
MEM_freeN(ftable);
/* Copy various settings. */
bm_new->shapenr = bm_old->shapenr;
bm_new->selectmode = bm_old->selectmode;
return bm_new;
}
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