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blender-archive/source/blender/blenkernel/intern/cdderivedmesh.c
Bastien Montagne ab0bc65c24 Refactor CDData masks, to have one mask per mesh elem type. 
We already have different storages for cddata of verts, edges etc.,
'simply' do the same for the mask flags we use all around Blender code
to request some data, or limit some operation to some layers, etc.

Reason we need this is that some cddata types (like Normals) are
actually shared between verts/polys/loops, and we don’t want to generate
clnors everytime we request vnors!

As a side note, this also does final fix to T59338, which was the
trigger for this patch (need to request computed loop normals for
another mesh than evaluated one).

Reviewers: brecht, campbellbarton, sergey

Differential Revision: https://developer.blender.org/D4407
2019-03-07 11:29:50 +01:00

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/*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* The Original Code is Copyright (C) 2006 Blender Foundation.
* All rights reserved.
* Implementation of CDDerivedMesh.
*
* BKE_cdderivedmesh.h contains the function prototypes for this file.
*/
/** \file
* \ingroup bke
*/
#include "atomic_ops.h"
#include "BLI_math.h"
#include "BLI_utildefines.h"
#include "BKE_pbvh.h"
#include "BKE_cdderivedmesh.h"
#include "BKE_mesh.h"
#include "BKE_mesh_mapping.h"
#include "BKE_object.h"
#include "BKE_paint.h"
#include "BKE_editmesh.h"
#include "BKE_curve.h"
#include "DNA_mesh_types.h"
#include "DNA_meshdata_types.h"
#include "DNA_object_types.h"
#include "DNA_curve_types.h" /* for Curve */
#include "MEM_guardedalloc.h"
#include <string.h>
#include <limits.h>
#include <math.h>
typedef struct {
DerivedMesh dm;
/* these point to data in the DerivedMesh custom data layers,
* they are only here for efficiency and convenience **/
MVert *mvert;
MEdge *medge;
MFace *mface;
MLoop *mloop;
MPoly *mpoly;
/* Cached */
struct PBVH *pbvh;
bool pbvh_draw;
/* Mesh connectivity */
MeshElemMap *pmap;
int *pmap_mem;
} CDDerivedMesh;
/**************** DerivedMesh interface functions ****************/
static int cdDM_getNumVerts(DerivedMesh *dm)
{
return dm->numVertData;
}
static int cdDM_getNumEdges(DerivedMesh *dm)
{
return dm->numEdgeData;
}
static int cdDM_getNumTessFaces(DerivedMesh *dm)
{
/* uncomment and add a breakpoint on the printf()
* to help debug tessfaces issues since BMESH merge. */
#if 0
if (dm->numTessFaceData == 0 && dm->numPolyData != 0) {
printf("%s: has no faces!\n");
}
#endif
return dm->numTessFaceData;
}
static int cdDM_getNumLoops(DerivedMesh *dm)
{
return dm->numLoopData;
}
static int cdDM_getNumPolys(DerivedMesh *dm)
{
return dm->numPolyData;
}
static void cdDM_getVert(DerivedMesh *dm, int index, MVert *r_vert)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
*r_vert = cddm->mvert[index];
}
static void cdDM_getEdge(DerivedMesh *dm, int index, MEdge *r_edge)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
*r_edge = cddm->medge[index];
}
static void cdDM_getTessFace(DerivedMesh *dm, int index, MFace *r_face)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
*r_face = cddm->mface[index];
}
static void cdDM_copyVertArray(DerivedMesh *dm, MVert *r_vert)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
memcpy(r_vert, cddm->mvert, sizeof(*r_vert) * dm->numVertData);
}
static void cdDM_copyEdgeArray(DerivedMesh *dm, MEdge *r_edge)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
memcpy(r_edge, cddm->medge, sizeof(*r_edge) * dm->numEdgeData);
}
static void cdDM_copyTessFaceArray(DerivedMesh *dm, MFace *r_face)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
memcpy(r_face, cddm->mface, sizeof(*r_face) * dm->numTessFaceData);
}
static void cdDM_copyLoopArray(DerivedMesh *dm, MLoop *r_loop)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
memcpy(r_loop, cddm->mloop, sizeof(*r_loop) * dm->numLoopData);
}
static void cdDM_copyPolyArray(DerivedMesh *dm, MPoly *r_poly)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
memcpy(r_poly, cddm->mpoly, sizeof(*r_poly) * dm->numPolyData);
}
static void cdDM_getMinMax(DerivedMesh *dm, float r_min[3], float r_max[3])
{
CDDerivedMesh *cddm = (CDDerivedMesh *) dm;
int i;
if (dm->numVertData) {
for (i = 0; i < dm->numVertData; i++) {
minmax_v3v3_v3(r_min, r_max, cddm->mvert[i].co);
}
}
else {
zero_v3(r_min);
zero_v3(r_max);
}
}
static void cdDM_getVertCo(DerivedMesh *dm, int index, float r_co[3])
{
CDDerivedMesh *cddm = (CDDerivedMesh *) dm;
copy_v3_v3(r_co, cddm->mvert[index].co);
}
static void cdDM_getVertCos(DerivedMesh *dm, float (*r_cos)[3])
{
MVert *mv = CDDM_get_verts(dm);
int i;
for (i = 0; i < dm->numVertData; i++, mv++)
copy_v3_v3(r_cos[i], mv->co);
}
static void cdDM_getVertNo(DerivedMesh *dm, int index, float r_no[3])
{
CDDerivedMesh *cddm = (CDDerivedMesh *) dm;
normal_short_to_float_v3(r_no, cddm->mvert[index].no);
}
static const MeshElemMap *cdDM_getPolyMap(Object *ob, DerivedMesh *dm)
{
CDDerivedMesh *cddm = (CDDerivedMesh *) dm;
if (!cddm->pmap && ob->type == OB_MESH) {
Mesh *me = ob->data;
BKE_mesh_vert_poly_map_create(
&cddm->pmap, &cddm->pmap_mem,
me->mpoly, me->mloop,
me->totvert, me->totpoly, me->totloop);
}
return cddm->pmap;
}
static bool check_sculpt_object_deformed(Object *object, bool for_construction)
{
bool deformed = false;
/* Active modifiers means extra deformation, which can't be handled correct
* on birth of PBVH and sculpt "layer" levels, so use PBVH only for internal brush
* stuff and show final DerivedMesh so user would see actual object shape.
*/
deformed |= object->sculpt->modifiers_active;
if (for_construction) {
deformed |= object->sculpt->kb != NULL;
}
else {
/* As in case with modifiers, we can't synchronize deformation made against
* PBVH and non-locked keyblock, so also use PBVH only for brushes and
* final DM to give final result to user.
*/
deformed |= object->sculpt->kb && (object->shapeflag & OB_SHAPE_LOCK) == 0;
}
return deformed;
}
static bool can_pbvh_draw(Object *ob, DerivedMesh *dm)
{
CDDerivedMesh *cddm = (CDDerivedMesh *) dm;
Mesh *me = ob->data;
bool deformed = check_sculpt_object_deformed(ob, false);
if (deformed) {
return false;
}
return cddm->mvert == me->mvert || ob->sculpt->kb;
}
static PBVH *cdDM_getPBVH(Object *ob, DerivedMesh *dm)
{
CDDerivedMesh *cddm = (CDDerivedMesh *) dm;
if (!ob) {
cddm->pbvh = NULL;
return NULL;
}
if (!ob->sculpt)
return NULL;
if (ob->sculpt->pbvh) {
cddm->pbvh = ob->sculpt->pbvh;
cddm->pbvh_draw = can_pbvh_draw(ob, dm);
}
/* Sculpting on a BMesh (dynamic-topology) gets a special PBVH */
if (!cddm->pbvh && ob->sculpt->bm) {
cddm->pbvh = BKE_pbvh_new();
cddm->pbvh_draw = true;
BKE_pbvh_build_bmesh(cddm->pbvh, ob->sculpt->bm,
ob->sculpt->bm_smooth_shading,
ob->sculpt->bm_log, ob->sculpt->cd_vert_node_offset,
ob->sculpt->cd_face_node_offset);
pbvh_show_diffuse_color_set(cddm->pbvh, ob->sculpt->show_diffuse_color);
pbvh_show_mask_set(cddm->pbvh, ob->sculpt->show_mask);
}
/* always build pbvh from original mesh, and only use it for drawing if
* this derivedmesh is just original mesh. it's the multires subsurf dm
* that this is actually for, to support a pbvh on a modified mesh */
if (!cddm->pbvh && ob->type == OB_MESH) {
Mesh *me = BKE_object_get_original_mesh(ob);
const int looptris_num = poly_to_tri_count(me->totpoly, me->totloop);
MLoopTri *looptri;
bool deformed;
cddm->pbvh = BKE_pbvh_new();
cddm->pbvh_draw = can_pbvh_draw(ob, dm);
looptri = MEM_malloc_arrayN(looptris_num, sizeof(*looptri), __func__);
BKE_mesh_recalc_looptri(
me->mloop, me->mpoly,
me->mvert,
me->totloop, me->totpoly,
looptri);
BKE_pbvh_build_mesh(
cddm->pbvh,
me->mpoly, me->mloop,
me->mvert, me->totvert, &me->vdata,
looptri, looptris_num);
pbvh_show_diffuse_color_set(cddm->pbvh, ob->sculpt->show_diffuse_color);
pbvh_show_mask_set(cddm->pbvh, ob->sculpt->show_mask);
deformed = check_sculpt_object_deformed(ob, true);
if (deformed && ob->derivedDeform) {
DerivedMesh *deformdm = ob->derivedDeform;
float (*vertCos)[3];
int totvert;
totvert = deformdm->getNumVerts(deformdm);
vertCos = MEM_malloc_arrayN(totvert, sizeof(float[3]), "cdDM_getPBVH vertCos");
deformdm->getVertCos(deformdm, vertCos);
BKE_pbvh_apply_vertCos(cddm->pbvh, vertCos, totvert);
MEM_freeN(vertCos);
}
}
return cddm->pbvh;
}
static void cdDM_foreachMappedVert(
DerivedMesh *dm,
void (*func)(void *userData, int index, const float co[3], const float no_f[3], const short no_s[3]),
void *userData,
DMForeachFlag flag)
{
MVert *mv = CDDM_get_verts(dm);
const int *index = DM_get_vert_data_layer(dm, CD_ORIGINDEX);
int i;
if (index) {
for (i = 0; i < dm->numVertData; i++, mv++) {
const short *no = (flag & DM_FOREACH_USE_NORMAL) ? mv->no : NULL;
const int orig = *index++;
if (orig == ORIGINDEX_NONE) continue;
func(userData, orig, mv->co, NULL, no);
}
}
else {
for (i = 0; i < dm->numVertData; i++, mv++) {
const short *no = (flag & DM_FOREACH_USE_NORMAL) ? mv->no : NULL;
func(userData, i, mv->co, NULL, no);
}
}
}
static void cdDM_foreachMappedEdge(
DerivedMesh *dm,
void (*func)(void *userData, int index, const float v0co[3], const float v1co[3]),
void *userData)
{
CDDerivedMesh *cddm = (CDDerivedMesh *) dm;
MVert *mv = cddm->mvert;
MEdge *med = cddm->medge;
int i, orig, *index = DM_get_edge_data_layer(dm, CD_ORIGINDEX);
for (i = 0; i < dm->numEdgeData; i++, med++) {
if (index) {
orig = *index++;
if (orig == ORIGINDEX_NONE) continue;
func(userData, orig, mv[med->v1].co, mv[med->v2].co);
}
else
func(userData, i, mv[med->v1].co, mv[med->v2].co);
}
}
static void cdDM_foreachMappedLoop(
DerivedMesh *dm,
void (*func)(void *userData, int vertex_index, int face_index, const float co[3], const float no[3]),
void *userData,
DMForeachFlag flag)
{
/* We can't use dm->getLoopDataLayout(dm) here, we want to always access dm->loopData, EditDerivedBMesh would
* return loop data from bmesh itself. */
const float (*lnors)[3] = (flag & DM_FOREACH_USE_NORMAL) ? DM_get_loop_data_layer(dm, CD_NORMAL) : NULL;
const MVert *mv = CDDM_get_verts(dm);
const MLoop *ml = CDDM_get_loops(dm);
const MPoly *mp = CDDM_get_polys(dm);
const int *v_index = DM_get_vert_data_layer(dm, CD_ORIGINDEX);
const int *f_index = DM_get_poly_data_layer(dm, CD_ORIGINDEX);
int p_idx, i;
for (p_idx = 0; p_idx < dm->numPolyData; ++p_idx, ++mp) {
for (i = 0; i < mp->totloop; ++i, ++ml) {
const int v_idx = v_index ? v_index[ml->v] : ml->v;
const int f_idx = f_index ? f_index[p_idx] : p_idx;
const float *no = lnors ? *lnors++ : NULL;
if (!ELEM(ORIGINDEX_NONE, v_idx, f_idx)) {
func(userData, v_idx, f_idx, mv[ml->v].co, no);
}
}
}
}
static void cdDM_foreachMappedFaceCenter(
DerivedMesh *dm,
void (*func)(void *userData, int index, const float cent[3], const float no[3]),
void *userData,
DMForeachFlag flag)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
MVert *mvert = cddm->mvert;
MPoly *mp;
MLoop *ml;
int i, orig, *index;
index = CustomData_get_layer(&dm->polyData, CD_ORIGINDEX);
mp = cddm->mpoly;
for (i = 0; i < dm->numPolyData; i++, mp++) {
float cent[3];
float *no, _no[3];
if (index) {
orig = *index++;
if (orig == ORIGINDEX_NONE) continue;
}
else {
orig = i;
}
ml = &cddm->mloop[mp->loopstart];
BKE_mesh_calc_poly_center(mp, ml, mvert, cent);
if (flag & DM_FOREACH_USE_NORMAL) {
BKE_mesh_calc_poly_normal(mp, ml, mvert, (no = _no));
}
else {
no = NULL;
}
func(userData, orig, cent, no);
}
}
void CDDM_recalc_tessellation_ex(DerivedMesh *dm, const bool do_face_nor_cpy)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
dm->numTessFaceData = BKE_mesh_recalc_tessellation(
&dm->faceData, &dm->loopData, &dm->polyData,
cddm->mvert,
dm->numTessFaceData, dm->numLoopData, dm->numPolyData,
do_face_nor_cpy);
cddm->mface = CustomData_get_layer(&dm->faceData, CD_MFACE);
/* Tessellation recreated faceData, and the active layer indices need to get re-propagated
* from loops and polys to faces */
CustomData_bmesh_update_active_layers(&dm->faceData, &dm->loopData);
}
void CDDM_recalc_tessellation(DerivedMesh *dm)
{
CDDM_recalc_tessellation_ex(dm, true);
}
void CDDM_recalc_looptri(DerivedMesh *dm)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
const unsigned int totpoly = dm->numPolyData;
const unsigned int totloop = dm->numLoopData;
DM_ensure_looptri_data(dm);
BLI_assert(totpoly == 0 || cddm->dm.looptris.array_wip != NULL);
BKE_mesh_recalc_looptri(
cddm->mloop, cddm->mpoly,
cddm->mvert,
totloop, totpoly,
cddm->dm.looptris.array_wip);
BLI_assert(cddm->dm.looptris.array == NULL);
atomic_cas_ptr((void **)&cddm->dm.looptris.array, cddm->dm.looptris.array, cddm->dm.looptris.array_wip);
cddm->dm.looptris.array_wip = NULL;
}
static void cdDM_free_internal(CDDerivedMesh *cddm)
{
if (cddm->pmap) MEM_freeN(cddm->pmap);
if (cddm->pmap_mem) MEM_freeN(cddm->pmap_mem);
}
static void cdDM_release(DerivedMesh *dm)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
if (DM_release(dm)) {
cdDM_free_internal(cddm);
MEM_freeN(cddm);
}
}
/**************** CDDM interface functions ****************/
static CDDerivedMesh *cdDM_create(const char *desc)
{
CDDerivedMesh *cddm;
DerivedMesh *dm;
cddm = MEM_callocN(sizeof(*cddm), desc);
dm = &cddm->dm;
dm->getMinMax = cdDM_getMinMax;
dm->getNumVerts = cdDM_getNumVerts;
dm->getNumEdges = cdDM_getNumEdges;
dm->getNumTessFaces = cdDM_getNumTessFaces;
dm->getNumLoops = cdDM_getNumLoops;
dm->getNumPolys = cdDM_getNumPolys;
dm->getVert = cdDM_getVert;
dm->getEdge = cdDM_getEdge;
dm->getTessFace = cdDM_getTessFace;
dm->copyVertArray = cdDM_copyVertArray;
dm->copyEdgeArray = cdDM_copyEdgeArray;
dm->copyTessFaceArray = cdDM_copyTessFaceArray;
dm->copyLoopArray = cdDM_copyLoopArray;
dm->copyPolyArray = cdDM_copyPolyArray;
dm->getVertData = DM_get_vert_data;
dm->getEdgeData = DM_get_edge_data;
dm->getTessFaceData = DM_get_tessface_data;
dm->getVertDataArray = DM_get_vert_data_layer;
dm->getEdgeDataArray = DM_get_edge_data_layer;
dm->getTessFaceDataArray = DM_get_tessface_data_layer;
dm->calcNormals = CDDM_calc_normals;
dm->calcLoopNormals = CDDM_calc_loop_normals;
dm->calcLoopNormalsSpaceArray = CDDM_calc_loop_normals_spacearr;
dm->calcLoopTangents = DM_calc_loop_tangents;
dm->recalcTessellation = CDDM_recalc_tessellation;
dm->recalcLoopTri = CDDM_recalc_looptri;
dm->getVertCos = cdDM_getVertCos;
dm->getVertCo = cdDM_getVertCo;
dm->getVertNo = cdDM_getVertNo;
dm->getPBVH = cdDM_getPBVH;
dm->getPolyMap = cdDM_getPolyMap;
dm->foreachMappedVert = cdDM_foreachMappedVert;
dm->foreachMappedEdge = cdDM_foreachMappedEdge;
dm->foreachMappedLoop = cdDM_foreachMappedLoop;
dm->foreachMappedFaceCenter = cdDM_foreachMappedFaceCenter;
dm->release = cdDM_release;
return cddm;
}
DerivedMesh *CDDM_new(int numVerts, int numEdges, int numTessFaces, int numLoops, int numPolys)
{
CDDerivedMesh *cddm = cdDM_create("CDDM_new dm");
DerivedMesh *dm = &cddm->dm;
DM_init(dm, DM_TYPE_CDDM, numVerts, numEdges, numTessFaces, numLoops, numPolys);
CustomData_add_layer(&dm->vertData, CD_ORIGINDEX, CD_CALLOC, NULL, numVerts);
CustomData_add_layer(&dm->edgeData, CD_ORIGINDEX, CD_CALLOC, NULL, numEdges);
CustomData_add_layer(&dm->faceData, CD_ORIGINDEX, CD_CALLOC, NULL, numTessFaces);
CustomData_add_layer(&dm->polyData, CD_ORIGINDEX, CD_CALLOC, NULL, numPolys);
CustomData_add_layer(&dm->vertData, CD_MVERT, CD_CALLOC, NULL, numVerts);
CustomData_add_layer(&dm->edgeData, CD_MEDGE, CD_CALLOC, NULL, numEdges);
CustomData_add_layer(&dm->faceData, CD_MFACE, CD_CALLOC, NULL, numTessFaces);
CustomData_add_layer(&dm->loopData, CD_MLOOP, CD_CALLOC, NULL, numLoops);
CustomData_add_layer(&dm->polyData, CD_MPOLY, CD_CALLOC, NULL, numPolys);
cddm->mvert = CustomData_get_layer(&dm->vertData, CD_MVERT);
cddm->medge = CustomData_get_layer(&dm->edgeData, CD_MEDGE);
cddm->mface = CustomData_get_layer(&dm->faceData, CD_MFACE);
cddm->mloop = CustomData_get_layer(&dm->loopData, CD_MLOOP);
cddm->mpoly = CustomData_get_layer(&dm->polyData, CD_MPOLY);
return dm;
}
DerivedMesh *CDDM_from_mesh(Mesh *mesh)
{
return CDDM_from_mesh_ex(mesh, CD_REFERENCE, &CD_MASK_MESH);
}
DerivedMesh *CDDM_from_mesh_ex(Mesh *mesh, eCDAllocType alloctype, const CustomData_MeshMasks *mask)
{
CDDerivedMesh *cddm = cdDM_create(__func__);
DerivedMesh *dm = &cddm->dm;
CustomData_MeshMasks cddata_masks = *mask;
cddata_masks.lmask &= ~CD_MASK_MDISPS;
/* this does a referenced copy, with an exception for fluidsim */
DM_init(dm, DM_TYPE_CDDM, mesh->totvert, mesh->totedge, 0 /* mesh->totface */,
mesh->totloop, mesh->totpoly);
/* This should actually be dm->deformedOnly = mesh->runtime.deformed_only,
* but only if the original mesh had its deformed_only flag correctly set
* (which isn't generally the case). */
dm->deformedOnly = 1;
dm->cd_flag = mesh->cd_flag;
if (mesh->runtime.cd_dirty_vert & CD_MASK_NORMAL) {
dm->dirty |= DM_DIRTY_NORMALS;
}
/* TODO DM_DIRTY_TESS_CDLAYERS ? Maybe not though, since we probably want to switch to looptris ? */
CustomData_merge(&mesh->vdata, &dm->vertData, cddata_masks.vmask, alloctype,
mesh->totvert);
CustomData_merge(&mesh->edata, &dm->edgeData, cddata_masks.emask, alloctype,
mesh->totedge);
CustomData_merge(&mesh->fdata, &dm->faceData, cddata_masks.fmask | CD_MASK_ORIGINDEX, alloctype,
0 /* mesh->totface */);
CustomData_merge(&mesh->ldata, &dm->loopData, cddata_masks.lmask, alloctype,
mesh->totloop);
CustomData_merge(&mesh->pdata, &dm->polyData, cddata_masks.pmask, alloctype,
mesh->totpoly);
cddm->mvert = CustomData_get_layer(&dm->vertData, CD_MVERT);
cddm->medge = CustomData_get_layer(&dm->edgeData, CD_MEDGE);
cddm->mloop = CustomData_get_layer(&dm->loopData, CD_MLOOP);
cddm->mpoly = CustomData_get_layer(&dm->polyData, CD_MPOLY);
#if 0
cddm->mface = CustomData_get_layer(&dm->faceData, CD_MFACE);
#else
cddm->mface = NULL;
#endif
/* commented since even when CD_ORIGINDEX was first added this line fails
* on the default cube, (after editmode toggle too) - campbell */
#if 0
BLI_assert(CustomData_has_layer(&cddm->dm.faceData, CD_ORIGINDEX));
#endif
return dm;
}
DerivedMesh *CDDM_from_curve(Object *ob)
{
ListBase disp = {NULL, NULL};
if (ob->runtime.curve_cache) {
disp = ob->runtime.curve_cache->disp;
}
return CDDM_from_curve_displist(ob, &disp);
}
DerivedMesh *CDDM_from_curve_displist(Object *ob, ListBase *dispbase)
{
Curve *cu = (Curve *) ob->data;
DerivedMesh *dm;
CDDerivedMesh *cddm;
MVert *allvert;
MEdge *alledge;
MLoop *allloop;
MPoly *allpoly;
MLoopUV *alluv = NULL;
int totvert, totedge, totloop, totpoly;
bool use_orco_uv = (cu->flag & CU_UV_ORCO) != 0;
if (BKE_mesh_nurbs_displist_to_mdata(
ob, dispbase, &allvert, &totvert, &alledge,
&totedge, &allloop, &allpoly, (use_orco_uv) ? &alluv : NULL,
&totloop, &totpoly) != 0)
{
/* Error initializing mdata. This often happens when curve is empty */
return CDDM_new(0, 0, 0, 0, 0);
}
dm = CDDM_new(totvert, totedge, 0, totloop, totpoly);
dm->deformedOnly = 1;
dm->dirty |= DM_DIRTY_NORMALS;
cddm = (CDDerivedMesh *)dm;
memcpy(cddm->mvert, allvert, totvert * sizeof(MVert));
memcpy(cddm->medge, alledge, totedge * sizeof(MEdge));
memcpy(cddm->mloop, allloop, totloop * sizeof(MLoop));
memcpy(cddm->mpoly, allpoly, totpoly * sizeof(MPoly));
if (alluv) {
const char *uvname = "Orco";
CustomData_add_layer_named(&cddm->dm.loopData, CD_MLOOPUV, CD_ASSIGN, alluv, totloop, uvname);
}
MEM_freeN(allvert);
MEM_freeN(alledge);
MEM_freeN(allloop);
MEM_freeN(allpoly);
return dm;
}
static void loops_to_customdata_corners(
BMesh *bm, CustomData *facedata,
int cdindex, const BMLoop *l3[3],
int numCol, int numUV)
{
const BMLoop *l;
// BMFace *f = l3[0]->f;
MTFace *texface;
MCol *mcol;
MLoopCol *mloopcol;
MLoopUV *mloopuv;
int i, j, hasPCol = CustomData_has_layer(&bm->ldata, CD_PREVIEW_MLOOPCOL);
for (i = 0; i < numUV; i++) {
texface = CustomData_get_n(facedata, CD_MTFACE, cdindex, i);
for (j = 0; j < 3; j++) {
l = l3[j];
mloopuv = CustomData_bmesh_get_n(&bm->ldata, l->head.data, CD_MLOOPUV, i);
copy_v2_v2(texface->uv[j], mloopuv->uv);
}
}
for (i = 0; i < numCol; i++) {
mcol = CustomData_get_n(facedata, CD_MCOL, cdindex, i);
for (j = 0; j < 3; j++) {
l = l3[j];
mloopcol = CustomData_bmesh_get_n(&bm->ldata, l->head.data, CD_MLOOPCOL, i);
MESH_MLOOPCOL_TO_MCOL(mloopcol, &mcol[j]);
}
}
if (hasPCol) {
mcol = CustomData_get(facedata, cdindex, CD_PREVIEW_MCOL);
for (j = 0; j < 3; j++) {
l = l3[j];
mloopcol = CustomData_bmesh_get(&bm->ldata, l->head.data, CD_PREVIEW_MLOOPCOL);
MESH_MLOOPCOL_TO_MCOL(mloopcol, &mcol[j]);
}
}
}
/* TODO(campbell): remove, use BKE_mesh_from_bmesh_for_eval_nomain instead. */
/* used for both editbmesh and bmesh */
static DerivedMesh *cddm_from_bmesh_ex(
struct BMesh *bm, const bool use_mdisps,
/* EditBMesh vars for use_tessface */
const bool use_tessface,
const int em_tottri, const BMLoop *(*em_looptris)[3])
{
DerivedMesh *dm = CDDM_new(bm->totvert,
bm->totedge,
use_tessface ? em_tottri : 0,
bm->totloop,
bm->totface);
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
BMIter iter;
BMVert *eve;
BMEdge *eed;
BMFace *efa;
MVert *mvert = cddm->mvert;
MEdge *medge = cddm->medge;
MFace *mface = cddm->mface;
MLoop *mloop = cddm->mloop;
MPoly *mpoly = cddm->mpoly;
int numCol = CustomData_number_of_layers(&bm->ldata, CD_MLOOPCOL);
int numUV = CustomData_number_of_layers(&bm->ldata, CD_MLOOPUV);
int *index, add_orig;
CustomData_MeshMasks mask = {0};
unsigned int i, j;
const int cd_vert_bweight_offset = CustomData_get_offset(&bm->vdata, CD_BWEIGHT);
const int cd_edge_bweight_offset = CustomData_get_offset(&bm->edata, CD_BWEIGHT);
const int cd_edge_crease_offset = CustomData_get_offset(&bm->edata, CD_CREASE);
dm->deformedOnly = 1;
/* don't add origindex layer if one already exists */
add_orig = !CustomData_has_layer(&bm->pdata, CD_ORIGINDEX);
mask = CD_MASK_DERIVEDMESH;
if (use_mdisps) {
mask.lmask |= CD_MASK_MDISPS;
}
/* don't process shapekeys, we only feed them through the modifier stack as needed,
* e.g. for applying modifiers or the like*/
mask.vmask &= ~CD_MASK_SHAPEKEY;
CustomData_merge(&bm->vdata, &dm->vertData, mask.vmask,
CD_CALLOC, dm->numVertData);
CustomData_merge(&bm->edata, &dm->edgeData, mask.emask,
CD_CALLOC, dm->numEdgeData);
CustomData_merge(&bm->ldata, &dm->loopData, mask.lmask,
CD_CALLOC, dm->numLoopData);
CustomData_merge(&bm->pdata, &dm->polyData, mask.pmask,
CD_CALLOC, dm->numPolyData);
/* add tessellation mface layers */
if (use_tessface) {
CustomData_from_bmeshpoly(&dm->faceData, &dm->loopData, em_tottri);
}
index = dm->getVertDataArray(dm, CD_ORIGINDEX);
BM_ITER_MESH_INDEX (eve, &iter, bm, BM_VERTS_OF_MESH, i) {
MVert *mv = &mvert[i];
copy_v3_v3(mv->co, eve->co);
BM_elem_index_set(eve, i); /* set_inline */
normal_float_to_short_v3(mv->no, eve->no);
mv->flag = BM_vert_flag_to_mflag(eve);
if (cd_vert_bweight_offset != -1) mv->bweight = BM_ELEM_CD_GET_FLOAT_AS_UCHAR(eve, cd_vert_bweight_offset);
if (add_orig) *index++ = i;
CustomData_from_bmesh_block(&bm->vdata, &dm->vertData, eve->head.data, i);
}
bm->elem_index_dirty &= ~BM_VERT;
index = dm->getEdgeDataArray(dm, CD_ORIGINDEX);
BM_ITER_MESH_INDEX (eed, &iter, bm, BM_EDGES_OF_MESH, i) {
MEdge *med = &medge[i];
BM_elem_index_set(eed, i); /* set_inline */
med->v1 = BM_elem_index_get(eed->v1);
med->v2 = BM_elem_index_get(eed->v2);
med->flag = BM_edge_flag_to_mflag(eed);
/* handle this differently to editmode switching,
* only enable draw for single user edges rather then calculating angle */
if ((med->flag & ME_EDGEDRAW) == 0) {
if (eed->l && eed->l == eed->l->radial_next) {
med->flag |= ME_EDGEDRAW;
}
}
if (cd_edge_crease_offset != -1) med->crease = BM_ELEM_CD_GET_FLOAT_AS_UCHAR(eed, cd_edge_crease_offset);
if (cd_edge_bweight_offset != -1) med->bweight = BM_ELEM_CD_GET_FLOAT_AS_UCHAR(eed, cd_edge_bweight_offset);
CustomData_from_bmesh_block(&bm->edata, &dm->edgeData, eed->head.data, i);
if (add_orig) *index++ = i;
}
bm->elem_index_dirty &= ~BM_EDGE;
/* avoid this where possiblem, takes extra memory */
if (use_tessface) {
BM_mesh_elem_index_ensure(bm, BM_FACE);
index = dm->getTessFaceDataArray(dm, CD_ORIGINDEX);
for (i = 0; i < dm->numTessFaceData; i++) {
MFace *mf = &mface[i];
const BMLoop **l = em_looptris[i];
efa = l[0]->f;
mf->v1 = BM_elem_index_get(l[0]->v);
mf->v2 = BM_elem_index_get(l[1]->v);
mf->v3 = BM_elem_index_get(l[2]->v);
mf->v4 = 0;
mf->mat_nr = efa->mat_nr;
mf->flag = BM_face_flag_to_mflag(efa);
/* map mfaces to polygons in the same cddm intentionally */
*index++ = BM_elem_index_get(efa);
loops_to_customdata_corners(bm, &dm->faceData, i, l, numCol, numUV);
test_index_face(mf, &dm->faceData, i, 3);
}
}
index = CustomData_get_layer(&dm->polyData, CD_ORIGINDEX);
j = 0;
BM_ITER_MESH_INDEX (efa, &iter, bm, BM_FACES_OF_MESH, i) {
BMLoop *l_iter;
BMLoop *l_first;
MPoly *mp = &mpoly[i];
BM_elem_index_set(efa, i); /* set_inline */
mp->totloop = efa->len;
mp->flag = BM_face_flag_to_mflag(efa);
mp->loopstart = j;
mp->mat_nr = efa->mat_nr;
l_iter = l_first = BM_FACE_FIRST_LOOP(efa);
do {
mloop->v = BM_elem_index_get(l_iter->v);
mloop->e = BM_elem_index_get(l_iter->e);
CustomData_from_bmesh_block(&bm->ldata, &dm->loopData, l_iter->head.data, j);
BM_elem_index_set(l_iter, j); /* set_inline */
j++;
mloop++;
} while ((l_iter = l_iter->next) != l_first);
CustomData_from_bmesh_block(&bm->pdata, &dm->polyData, efa->head.data, i);
if (add_orig) *index++ = i;
}
bm->elem_index_dirty &= ~(BM_FACE | BM_LOOP);
dm->cd_flag = BM_mesh_cd_flag_from_bmesh(bm);
return dm;
}
struct DerivedMesh *CDDM_from_bmesh(struct BMesh *bm, const bool use_mdisps)
{
return cddm_from_bmesh_ex(
bm, use_mdisps, false,
/* these vars are for editmesh only */
0, NULL);
}
DerivedMesh *CDDM_from_editbmesh(BMEditMesh *em, const bool use_mdisps, const bool use_tessface)
{
return cddm_from_bmesh_ex(
em->bm, use_mdisps,
/* editmesh */
use_tessface, em->tottri, (const BMLoop *(*)[3])em->looptris);
}
DerivedMesh *CDDM_copy(DerivedMesh *source)
{
CDDerivedMesh *cddm = cdDM_create("CDDM_copy cddm");
DerivedMesh *dm = &cddm->dm;
int numVerts = source->numVertData;
int numEdges = source->numEdgeData;
int numTessFaces = 0;
int numLoops = source->numLoopData;
int numPolys = source->numPolyData;
/* NOTE: Don't copy tessellation faces if not requested explicitly. */
/* ensure these are created if they are made on demand */
source->getVertDataArray(source, CD_ORIGINDEX);
source->getEdgeDataArray(source, CD_ORIGINDEX);
source->getPolyDataArray(source, CD_ORIGINDEX);
/* this initializes dm, and copies all non mvert/medge/mface layers */
DM_from_template(dm, source, DM_TYPE_CDDM, numVerts, numEdges, numTessFaces,
numLoops, numPolys);
dm->deformedOnly = source->deformedOnly;
dm->cd_flag = source->cd_flag;
dm->dirty = source->dirty;
/* Tessellation data is never copied, so tag it here.
* Only tag dirty layers if we really ignored tessellation faces.
*/
dm->dirty |= DM_DIRTY_TESS_CDLAYERS;
CustomData_copy_data(&source->vertData, &dm->vertData, 0, 0, numVerts);
CustomData_copy_data(&source->edgeData, &dm->edgeData, 0, 0, numEdges);
/* now add mvert/medge/mface layers */
cddm->mvert = source->dupVertArray(source);
cddm->medge = source->dupEdgeArray(source);
CustomData_add_layer(&dm->vertData, CD_MVERT, CD_ASSIGN, cddm->mvert, numVerts);
CustomData_add_layer(&dm->edgeData, CD_MEDGE, CD_ASSIGN, cddm->medge, numEdges);
DM_DupPolys(source, dm);
cddm->mloop = CustomData_get_layer(&dm->loopData, CD_MLOOP);
cddm->mpoly = CustomData_get_layer(&dm->polyData, CD_MPOLY);
return dm;
}
/* note, the CD_ORIGINDEX layers are all 0, so if there is a direct
* relationship between mesh data this needs to be set by the caller. */
DerivedMesh *CDDM_from_template_ex(DerivedMesh *source,
int numVerts, int numEdges, int numTessFaces,
int numLoops, int numPolys,
const CustomData_MeshMasks *mask)
{
CDDerivedMesh *cddm = cdDM_create("CDDM_from_template dest");
DerivedMesh *dm = &cddm->dm;
/* ensure these are created if they are made on demand */
source->getVertDataArray(source, CD_ORIGINDEX);
source->getEdgeDataArray(source, CD_ORIGINDEX);
source->getTessFaceDataArray(source, CD_ORIGINDEX);
source->getPolyDataArray(source, CD_ORIGINDEX);
/* this does a copy of all non mvert/medge/mface layers */
DM_from_template_ex(
dm, source, DM_TYPE_CDDM,
numVerts, numEdges, numTessFaces,
numLoops, numPolys,
mask);
/* now add mvert/medge/mface layers */
CustomData_add_layer(&dm->vertData, CD_MVERT, CD_CALLOC, NULL, numVerts);
CustomData_add_layer(&dm->edgeData, CD_MEDGE, CD_CALLOC, NULL, numEdges);
CustomData_add_layer(&dm->faceData, CD_MFACE, CD_CALLOC, NULL, numTessFaces);
CustomData_add_layer(&dm->loopData, CD_MLOOP, CD_CALLOC, NULL, numLoops);
CustomData_add_layer(&dm->polyData, CD_MPOLY, CD_CALLOC, NULL, numPolys);
if (!CustomData_get_layer(&dm->vertData, CD_ORIGINDEX))
CustomData_add_layer(&dm->vertData, CD_ORIGINDEX, CD_CALLOC, NULL, numVerts);
if (!CustomData_get_layer(&dm->edgeData, CD_ORIGINDEX))
CustomData_add_layer(&dm->edgeData, CD_ORIGINDEX, CD_CALLOC, NULL, numEdges);
if (!CustomData_get_layer(&dm->faceData, CD_ORIGINDEX))
CustomData_add_layer(&dm->faceData, CD_ORIGINDEX, CD_CALLOC, NULL, numTessFaces);
cddm->mvert = CustomData_get_layer(&dm->vertData, CD_MVERT);
cddm->medge = CustomData_get_layer(&dm->edgeData, CD_MEDGE);
cddm->mface = CustomData_get_layer(&dm->faceData, CD_MFACE);
cddm->mloop = CustomData_get_layer(&dm->loopData, CD_MLOOP);
cddm->mpoly = CustomData_get_layer(&dm->polyData, CD_MPOLY);
return dm;
}
DerivedMesh *CDDM_from_template(
DerivedMesh *source,
int numVerts, int numEdges, int numTessFaces,
int numLoops, int numPolys)
{
return CDDM_from_template_ex(
source, numVerts, numEdges, numTessFaces,
numLoops, numPolys,
&CD_MASK_DERIVEDMESH);
}
void CDDM_apply_vert_coords(DerivedMesh *dm, float (*vertCoords)[3])
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
MVert *vert;
int i;
/* this will just return the pointer if it wasn't a referenced layer */
vert = CustomData_duplicate_referenced_layer(&dm->vertData, CD_MVERT, dm->numVertData);
cddm->mvert = vert;
for (i = 0; i < dm->numVertData; ++i, ++vert)
copy_v3_v3(vert->co, vertCoords[i]);
cddm->dm.dirty |= DM_DIRTY_NORMALS;
}
void CDDM_apply_vert_normals(DerivedMesh *dm, short (*vertNormals)[3])
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
MVert *vert;
int i;
/* this will just return the pointer if it wasn't a referenced layer */
vert = CustomData_duplicate_referenced_layer(&dm->vertData, CD_MVERT, dm->numVertData);
cddm->mvert = vert;
for (i = 0; i < dm->numVertData; ++i, ++vert)
copy_v3_v3_short(vert->no, vertNormals[i]);
cddm->dm.dirty &= ~DM_DIRTY_NORMALS;
}
void CDDM_calc_normals_mapping_ex(DerivedMesh *dm, const bool only_face_normals)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
float (*face_nors)[3] = NULL;
if (dm->numVertData == 0) {
cddm->dm.dirty &= ~DM_DIRTY_NORMALS;
return;
}
/* now we skip calculating vertex normals for referenced layer,
* no need to duplicate verts.
* WATCH THIS, bmesh only change!,
* need to take care of the side effects here - campbell */
#if 0
/* we don't want to overwrite any referenced layers */
cddm->mvert = CustomData_duplicate_referenced_layer(&dm->vertData, CD_MVERT, dm->numVertData);
#endif
#if 0
if (dm->numTessFaceData == 0) {
/* No tessellation on this mesh yet, need to calculate one.
*
* Important not to update face normals from polys since it
* interferes with assigning the new normal layer in the following code.
*/
CDDM_recalc_tessellation_ex(dm, false);
}
else {
/* A tessellation already exists, it should always have a CD_ORIGINDEX */
BLI_assert(CustomData_has_layer(&dm->faceData, CD_ORIGINDEX));
CustomData_free_layers(&dm->faceData, CD_NORMAL, dm->numTessFaceData);
}
#endif
face_nors = MEM_malloc_arrayN(dm->numPolyData, sizeof(*face_nors), "face_nors");
/* calculate face normals */
BKE_mesh_calc_normals_poly(
cddm->mvert, NULL, dm->numVertData, CDDM_get_loops(dm), CDDM_get_polys(dm),
dm->numLoopData, dm->numPolyData, face_nors,
only_face_normals);
CustomData_add_layer(&dm->polyData, CD_NORMAL, CD_ASSIGN, face_nors, dm->numPolyData);
cddm->dm.dirty &= ~DM_DIRTY_NORMALS;
}
void CDDM_calc_normals_mapping(DerivedMesh *dm)
{
/* use this to skip calculating normals on original vert's, this may need to be changed */
const bool only_face_normals = CustomData_is_referenced_layer(&dm->vertData, CD_MVERT);
CDDM_calc_normals_mapping_ex(dm, only_face_normals);
}
#if 0
/* bmesh note: this matches what we have in trunk */
void CDDM_calc_normals(DerivedMesh *dm)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
float (*poly_nors)[3];
if (dm->numVertData == 0) return;
/* we don't want to overwrite any referenced layers */
cddm->mvert = CustomData_duplicate_referenced_layer(&dm->vertData, CD_MVERT, dm->numVertData);
/* fill in if it exists */
poly_nors = CustomData_get_layer(&dm->polyData, CD_NORMAL);
if (!poly_nors) {
poly_nors = CustomData_add_layer(&dm->polyData, CD_NORMAL, CD_CALLOC, NULL, dm->numPolyData);
}
BKE_mesh_calc_normals_poly(cddm->mvert, dm->numVertData, CDDM_get_loops(dm), CDDM_get_polys(dm),
dm->numLoopData, dm->numPolyData, poly_nors, false);
cddm->dm.dirty &= ~DM_DIRTY_NORMALS;
}
#else
/* poly normal layer is now only for final display */
void CDDM_calc_normals(DerivedMesh *dm)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
/* we don't want to overwrite any referenced layers */
cddm->mvert = CustomData_duplicate_referenced_layer(&dm->vertData, CD_MVERT, dm->numVertData);
BKE_mesh_calc_normals_poly(cddm->mvert, NULL, dm->numVertData, CDDM_get_loops(dm), CDDM_get_polys(dm),
dm->numLoopData, dm->numPolyData, NULL, false);
cddm->dm.dirty &= ~DM_DIRTY_NORMALS;
}
#endif
void CDDM_calc_loop_normals(DerivedMesh *dm, const bool use_split_normals, const float split_angle)
{
CDDM_calc_loop_normals_spacearr(dm, use_split_normals, split_angle, NULL);
}
/* #define DEBUG_CLNORS */
#ifdef DEBUG_CLNORS
# include "BLI_linklist.h"
#endif
void CDDM_calc_loop_normals_spacearr(
DerivedMesh *dm, const bool use_split_normals, const float split_angle, MLoopNorSpaceArray *r_lnors_spacearr)
{
MVert *mverts = dm->getVertArray(dm);
MEdge *medges = dm->getEdgeArray(dm);
MLoop *mloops = dm->getLoopArray(dm);
MPoly *mpolys = dm->getPolyArray(dm);
CustomData *ldata, *pdata;
float (*lnors)[3];
short (*clnor_data)[2];
float (*pnors)[3];
const int numVerts = dm->getNumVerts(dm);
const int numEdges = dm->getNumEdges(dm);
const int numLoops = dm->getNumLoops(dm);
const int numPolys = dm->getNumPolys(dm);
ldata = dm->getLoopDataLayout(dm);
if (CustomData_has_layer(ldata, CD_NORMAL)) {
lnors = CustomData_get_layer(ldata, CD_NORMAL);
}
else {
lnors = CustomData_add_layer(ldata, CD_NORMAL, CD_CALLOC, NULL, numLoops);
}
/* Compute poly (always needed) and vert normals. */
/* Note we can't use DM_ensure_normals, since it won't keep computed poly nors... */
pdata = dm->getPolyDataLayout(dm);
pnors = CustomData_get_layer(pdata, CD_NORMAL);
if (!pnors) {
pnors = CustomData_add_layer(pdata, CD_NORMAL, CD_CALLOC, NULL, numPolys);
}
BKE_mesh_calc_normals_poly(mverts, NULL, numVerts, mloops, mpolys, numLoops, numPolys, pnors,
(dm->dirty & DM_DIRTY_NORMALS) ? false : true);
dm->dirty &= ~DM_DIRTY_NORMALS;
clnor_data = CustomData_get_layer(ldata, CD_CUSTOMLOOPNORMAL);
BKE_mesh_normals_loop_split(mverts, numVerts, medges, numEdges, mloops, lnors, numLoops,
mpolys, (const float (*)[3])pnors, numPolys,
use_split_normals, split_angle,
r_lnors_spacearr, clnor_data, NULL);
#ifdef DEBUG_CLNORS
if (r_lnors_spacearr) {
int i;
for (i = 0; i < numLoops; i++) {
if (r_lnors_spacearr->lspacearr[i]->ref_alpha != 0.0f) {
LinkNode *loops = r_lnors_spacearr->lspacearr[i]->loops;
printf("Loop %d uses lnor space %p:\n", i, r_lnors_spacearr->lspacearr[i]);
print_v3("\tfinal lnor", lnors[i]);
print_v3("\tauto lnor", r_lnors_spacearr->lspacearr[i]->vec_lnor);
print_v3("\tref_vec", r_lnors_spacearr->lspacearr[i]->vec_ref);
printf("\talpha: %f\n\tbeta: %f\n\tloops: %p\n", r_lnors_spacearr->lspacearr[i]->ref_alpha,
r_lnors_spacearr->lspacearr[i]->ref_beta, r_lnors_spacearr->lspacearr[i]->loops);
printf("\t\t(shared with loops");
while (loops) {
printf(" %d", POINTER_AS_INT(loops->link));
loops = loops->next;
}
printf(")\n");
}
else {
printf("Loop %d has no lnor space\n", i);
}
}
}
#endif
}
void CDDM_lower_num_verts(DerivedMesh *dm, int numVerts)
{
BLI_assert(numVerts >= 0);
if (numVerts < dm->numVertData)
CustomData_free_elem(&dm->vertData, numVerts, dm->numVertData - numVerts);
dm->numVertData = numVerts;
}
void CDDM_lower_num_edges(DerivedMesh *dm, int numEdges)
{
BLI_assert(numEdges >= 0);
if (numEdges < dm->numEdgeData)
CustomData_free_elem(&dm->edgeData, numEdges, dm->numEdgeData - numEdges);
dm->numEdgeData = numEdges;
}
void CDDM_lower_num_tessfaces(DerivedMesh *dm, int numTessFaces)
{
BLI_assert(numTessFaces >= 0);
if (numTessFaces < dm->numTessFaceData)
CustomData_free_elem(&dm->faceData, numTessFaces, dm->numTessFaceData - numTessFaces);
dm->numTessFaceData = numTessFaces;
}
void CDDM_lower_num_loops(DerivedMesh *dm, int numLoops)
{
BLI_assert(numLoops >= 0);
if (numLoops < dm->numLoopData)
CustomData_free_elem(&dm->loopData, numLoops, dm->numLoopData - numLoops);
dm->numLoopData = numLoops;
}
void CDDM_lower_num_polys(DerivedMesh *dm, int numPolys)
{
BLI_assert(numPolys >= 0);
if (numPolys < dm->numPolyData)
CustomData_free_elem(&dm->polyData, numPolys, dm->numPolyData - numPolys);
dm->numPolyData = numPolys;
}
/* mesh element access functions */
MVert *CDDM_get_vert(DerivedMesh *dm, int index)
{
return &((CDDerivedMesh *)dm)->mvert[index];
}
MEdge *CDDM_get_edge(DerivedMesh *dm, int index)
{
return &((CDDerivedMesh *)dm)->medge[index];
}
MFace *CDDM_get_tessface(DerivedMesh *dm, int index)
{
return &((CDDerivedMesh *)dm)->mface[index];
}
MLoop *CDDM_get_loop(DerivedMesh *dm, int index)
{
return &((CDDerivedMesh *)dm)->mloop[index];
}
MPoly *CDDM_get_poly(DerivedMesh *dm, int index)
{
return &((CDDerivedMesh *)dm)->mpoly[index];
}
/* array access functions */
MVert *CDDM_get_verts(DerivedMesh *dm)
{
return ((CDDerivedMesh *)dm)->mvert;
}
MEdge *CDDM_get_edges(DerivedMesh *dm)
{
return ((CDDerivedMesh *)dm)->medge;
}
MFace *CDDM_get_tessfaces(DerivedMesh *dm)
{
return ((CDDerivedMesh *)dm)->mface;
}
MLoop *CDDM_get_loops(DerivedMesh *dm)
{
return ((CDDerivedMesh *)dm)->mloop;
}
MPoly *CDDM_get_polys(DerivedMesh *dm)
{
return ((CDDerivedMesh *)dm)->mpoly;
}
void CDDM_set_mvert(DerivedMesh *dm, MVert *mvert)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
if (!CustomData_has_layer(&dm->vertData, CD_MVERT))
CustomData_add_layer(&dm->vertData, CD_MVERT, CD_ASSIGN, mvert, dm->numVertData);
cddm->mvert = mvert;
}
void CDDM_set_medge(DerivedMesh *dm, MEdge *medge)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
if (!CustomData_has_layer(&dm->edgeData, CD_MEDGE))
CustomData_add_layer(&dm->edgeData, CD_MEDGE, CD_ASSIGN, medge, dm->numEdgeData);
cddm->medge = medge;
}
void CDDM_set_mface(DerivedMesh *dm, MFace *mface)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
if (!CustomData_has_layer(&dm->faceData, CD_MFACE))
CustomData_add_layer(&dm->faceData, CD_MFACE, CD_ASSIGN, mface, dm->numTessFaceData);
cddm->mface = mface;
}
void CDDM_set_mloop(DerivedMesh *dm, MLoop *mloop)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
if (!CustomData_has_layer(&dm->loopData, CD_MLOOP))
CustomData_add_layer(&dm->loopData, CD_MLOOP, CD_ASSIGN, mloop, dm->numLoopData);
cddm->mloop = mloop;
}
void CDDM_set_mpoly(DerivedMesh *dm, MPoly *mpoly)
{
CDDerivedMesh *cddm = (CDDerivedMesh *)dm;
if (!CustomData_has_layer(&dm->polyData, CD_MPOLY))
CustomData_add_layer(&dm->polyData, CD_MPOLY, CD_ASSIGN, mpoly, dm->numPolyData);
cddm->mpoly = mpoly;
}
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