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ab0bc65c24bdf68c356adb2566f3669153c931ea
blender-archive/source/blender/modifiers/intern/MOD_explode.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) 2005 by the Blender Foundation.
* All rights reserved.
*/
/** \file
* \ingroup modifiers
*/
#include "BLI_utildefines.h"
#include "BLI_edgehash.h"
#include "BLI_kdtree.h"
#include "BLI_math.h"
#include "BLI_rand.h"
#include "DNA_meshdata_types.h"
#include "DNA_scene_types.h"
#include "DNA_object_types.h"
#include "DNA_mesh_types.h"
#include "BKE_deform.h"
#include "BKE_lattice.h"
#include "BKE_library.h"
#include "BKE_mesh.h"
#include "BKE_modifier.h"
#include "BKE_particle.h"
#include "BKE_scene.h"
#include "DEG_depsgraph_query.h"
#include "MEM_guardedalloc.h"
#include "MOD_modifiertypes.h"
static void initData(ModifierData *md)
{
ExplodeModifierData *emd = (ExplodeModifierData *) md;
emd->facepa = NULL;
emd->flag |= eExplodeFlag_Unborn + eExplodeFlag_Alive + eExplodeFlag_Dead;
}
static void freeData(ModifierData *md)
{
ExplodeModifierData *emd = (ExplodeModifierData *) md;
MEM_SAFE_FREE(emd->facepa);
}
static void copyData(const ModifierData *md, ModifierData *target, const int flag)
{
#if 0
const ExplodeModifierData *emd = (const ExplodeModifierData *) md;
#endif
ExplodeModifierData *temd = (ExplodeModifierData *) target;
modifier_copyData_generic(md, target, flag);
temd->facepa = NULL;
}
static bool dependsOnTime(ModifierData *UNUSED(md))
{
return true;
}
static void requiredDataMask(Object *UNUSED(ob), ModifierData *md, CustomData_MeshMasks *r_cddata_masks)
{
ExplodeModifierData *emd = (ExplodeModifierData *) md;
if (emd->vgroup) {
r_cddata_masks->vmask |= CD_MASK_MDEFORMVERT;
}
}
static void createFacepa(
ExplodeModifierData *emd,
ParticleSystemModifierData *psmd,
Mesh *mesh)
{
ParticleSystem *psys = psmd->psys;
MFace *fa = NULL, *mface = NULL;
MVert *mvert = NULL;
ParticleData *pa;
KDTree *tree;
RNG *rng;
float center[3], co[3];
int *facepa = NULL, *vertpa = NULL, totvert = 0, totface = 0, totpart = 0;
int i, p, v1, v2, v3, v4 = 0;
mvert = mesh->mvert;
mface = mesh->mface;
totvert = mesh->totvert;
totface = mesh->totface;
totpart = psmd->psys->totpart;
rng = BLI_rng_new_srandom(psys->seed);
if (emd->facepa) {
MEM_freeN(emd->facepa);
}
facepa = emd->facepa = MEM_calloc_arrayN(totface, sizeof(int), "explode_facepa");
vertpa = MEM_calloc_arrayN(totvert, sizeof(int), "explode_vertpa");
/* initialize all faces & verts to no particle */
for (i = 0; i < totface; i++) {
facepa[i] = totpart;
}
for (i = 0; i < totvert; i++) {
vertpa[i] = totpart;
}
/* set protected verts */
if (emd->vgroup) {
MDeformVert *dvert = CustomData_get_layer(&mesh->vdata, CD_MDEFORMVERT);
if (dvert) {
const int defgrp_index = emd->vgroup - 1;
for (i = 0; i < totvert; i++, dvert++) {
float val = BLI_rng_get_float(rng);
val = (1.0f - emd->protect) * val + emd->protect * 0.5f;
if (val < defvert_find_weight(dvert, defgrp_index))
vertpa[i] = -1;
}
}
}
/* make tree of emitter locations */
tree = BLI_kdtree_new(totpart);
for (p = 0, pa = psys->particles; p < totpart; p++, pa++) {
psys_particle_on_emitter(psmd, psys->part->from, pa->num, pa->num_dmcache, pa->fuv, pa->foffset, co, NULL, NULL, NULL, NULL);
BLI_kdtree_insert(tree, p, co);
}
BLI_kdtree_balance(tree);
/* set face-particle-indexes to nearest particle to face center */
for (i = 0, fa = mface; i < totface; i++, fa++) {
add_v3_v3v3(center, mvert[fa->v1].co, mvert[fa->v2].co);
add_v3_v3(center, mvert[fa->v3].co);
if (fa->v4) {
add_v3_v3(center, mvert[fa->v4].co);
mul_v3_fl(center, 0.25);
}
else {
mul_v3_fl(center, 1.0f / 3.0f);
}
p = BLI_kdtree_find_nearest(tree, center, NULL);
v1 = vertpa[fa->v1];
v2 = vertpa[fa->v2];
v3 = vertpa[fa->v3];
if (fa->v4) {
v4 = vertpa[fa->v4];
}
if (v1 >= 0 && v2 >= 0 && v3 >= 0 && (fa->v4 == 0 || v4 >= 0)) {
facepa[i] = p;
}
if (v1 >= 0) {
vertpa[fa->v1] = p;
}
if (v2 >= 0) {
vertpa[fa->v2] = p;
}
if (v3 >= 0) {
vertpa[fa->v3] = p;
}
if (fa->v4 && v4 >= 0) {
vertpa[fa->v4] = p;
}
}
if (vertpa) {
MEM_freeN(vertpa);
}
BLI_kdtree_free(tree);
BLI_rng_free(rng);
}
static int edgecut_get(EdgeHash *edgehash, unsigned int v1, unsigned int v2)
{
return POINTER_AS_INT(BLI_edgehash_lookup(edgehash, v1, v2));
}
static const short add_faces[24] = {
0,
0, 0, 2, 0, 1, 2, 2, 0, 2, 1,
2, 2, 2, 2, 3, 0, 0, 0, 1, 0,
1, 1, 2,
};
static MFace *get_dface(Mesh *mesh, Mesh *split, int cur, int i, MFace *mf)
{
MFace *df = &split->mface[cur];
CustomData_copy_data(&mesh->fdata, &split->fdata, i, cur, 1);
*df = *mf;
return df;
}
#define SET_VERTS(a, b, c, d) \
{ \
v[0] = mf->v##a; uv[0] = a - 1; \
v[1] = mf->v##b; uv[1] = b - 1; \
v[2] = mf->v##c; uv[2] = c - 1; \
v[3] = mf->v##d; uv[3] = d - 1; \
} (void)0
#define GET_ES(v1, v2) edgecut_get(eh, v1, v2)
#define INT_UV(uvf, c0, c1) mid_v2_v2v2(uvf, mf->uv[c0], mf->uv[c1])
static void remap_faces_3_6_9_12(Mesh *mesh, Mesh *split, MFace *mf, int *facepa, int *vertpa, int i, EdgeHash *eh, int cur, int v1, int v2, int v3, int v4)
{
MFace *df1 = get_dface(mesh, split, cur, i, mf);
MFace *df2 = get_dface(mesh, split, cur + 1, i, mf);
MFace *df3 = get_dface(mesh, split, cur + 2, i, mf);
facepa[cur] = vertpa[v1];
df1->v1 = v1;
df1->v2 = GET_ES(v1, v2);
df1->v3 = GET_ES(v2, v3);
df1->v4 = v3;
df1->flag |= ME_FACE_SEL;
facepa[cur + 1] = vertpa[v2];
df2->v1 = GET_ES(v1, v2);
df2->v2 = v2;
df2->v3 = GET_ES(v2, v3);
df2->v4 = 0;
df2->flag &= ~ME_FACE_SEL;
facepa[cur + 2] = vertpa[v1];
df3->v1 = v1;
df3->v2 = v3;
df3->v3 = v4;
df3->v4 = 0;
df3->flag &= ~ME_FACE_SEL;
}
static void remap_uvs_3_6_9_12(Mesh *mesh, Mesh *split, int numlayer, int i, int cur, int c0, int c1, int c2, int c3)
{
MTFace *mf, *df1, *df2, *df3;
int l;
for (l = 0; l < numlayer; l++) {
mf = CustomData_get_layer_n(&split->fdata, CD_MTFACE, l);
df1 = mf + cur;
df2 = df1 + 1;
df3 = df1 + 2;
mf = CustomData_get_layer_n(&mesh->fdata, CD_MTFACE, l);
mf += i;
copy_v2_v2(df1->uv[0], mf->uv[c0]);
INT_UV(df1->uv[1], c0, c1);
INT_UV(df1->uv[2], c1, c2);
copy_v2_v2(df1->uv[3], mf->uv[c2]);
INT_UV(df2->uv[0], c0, c1);
copy_v2_v2(df2->uv[1], mf->uv[c1]);
INT_UV(df2->uv[2], c1, c2);
copy_v2_v2(df3->uv[0], mf->uv[c0]);
copy_v2_v2(df3->uv[1], mf->uv[c2]);
copy_v2_v2(df3->uv[2], mf->uv[c3]);
}
}
static void remap_faces_5_10(Mesh *mesh, Mesh *split, MFace *mf, int *facepa, int *vertpa, int i, EdgeHash *eh, int cur, int v1, int v2, int v3, int v4)
{
MFace *df1 = get_dface(mesh, split, cur, i, mf);
MFace *df2 = get_dface(mesh, split, cur + 1, i, mf);
facepa[cur] = vertpa[v1];
df1->v1 = v1;
df1->v2 = v2;
df1->v3 = GET_ES(v2, v3);
df1->v4 = GET_ES(v1, v4);
df1->flag |= ME_FACE_SEL;
facepa[cur + 1] = vertpa[v3];
df2->v1 = GET_ES(v1, v4);
df2->v2 = GET_ES(v2, v3);
df2->v3 = v3;
df2->v4 = v4;
df2->flag |= ME_FACE_SEL;
}
static void remap_uvs_5_10(Mesh *mesh, Mesh *split, int numlayer, int i, int cur, int c0, int c1, int c2, int c3)
{
MTFace *mf, *df1, *df2;
int l;
for (l = 0; l < numlayer; l++) {
mf = CustomData_get_layer_n(&split->fdata, CD_MTFACE, l);
df1 = mf + cur;
df2 = df1 + 1;
mf = CustomData_get_layer_n(&mesh->fdata, CD_MTFACE, l);
mf += i;
copy_v2_v2(df1->uv[0], mf->uv[c0]);
copy_v2_v2(df1->uv[1], mf->uv[c1]);
INT_UV(df1->uv[2], c1, c2);
INT_UV(df1->uv[3], c0, c3);
INT_UV(df2->uv[0], c0, c3);
INT_UV(df2->uv[1], c1, c2);
copy_v2_v2(df2->uv[2], mf->uv[c2]);
copy_v2_v2(df2->uv[3], mf->uv[c3]);
}
}
static void remap_faces_15(Mesh *mesh, Mesh *split, MFace *mf, int *facepa, int *vertpa, int i, EdgeHash *eh, int cur, int v1, int v2, int v3, int v4)
{
MFace *df1 = get_dface(mesh, split, cur, i, mf);
MFace *df2 = get_dface(mesh, split, cur + 1, i, mf);
MFace *df3 = get_dface(mesh, split, cur + 2, i, mf);
MFace *df4 = get_dface(mesh, split, cur + 3, i, mf);
facepa[cur] = vertpa[v1];
df1->v1 = v1;
df1->v2 = GET_ES(v1, v2);
df1->v3 = GET_ES(v1, v3);
df1->v4 = GET_ES(v1, v4);
df1->flag |= ME_FACE_SEL;
facepa[cur + 1] = vertpa[v2];
df2->v1 = GET_ES(v1, v2);
df2->v2 = v2;
df2->v3 = GET_ES(v2, v3);
df2->v4 = GET_ES(v1, v3);
df2->flag |= ME_FACE_SEL;
facepa[cur + 2] = vertpa[v3];
df3->v1 = GET_ES(v1, v3);
df3->v2 = GET_ES(v2, v3);
df3->v3 = v3;
df3->v4 = GET_ES(v3, v4);
df3->flag |= ME_FACE_SEL;
facepa[cur + 3] = vertpa[v4];
df4->v1 = GET_ES(v1, v4);
df4->v2 = GET_ES(v1, v3);
df4->v3 = GET_ES(v3, v4);
df4->v4 = v4;
df4->flag |= ME_FACE_SEL;
}
static void remap_uvs_15(Mesh *mesh, Mesh *split, int numlayer, int i, int cur, int c0, int c1, int c2, int c3)
{
MTFace *mf, *df1, *df2, *df3, *df4;
int l;
for (l = 0; l < numlayer; l++) {
mf = CustomData_get_layer_n(&split->fdata, CD_MTFACE, l);
df1 = mf + cur;
df2 = df1 + 1;
df3 = df1 + 2;
df4 = df1 + 3;
mf = CustomData_get_layer_n(&mesh->fdata, CD_MTFACE, l);
mf += i;
copy_v2_v2(df1->uv[0], mf->uv[c0]);
INT_UV(df1->uv[1], c0, c1);
INT_UV(df1->uv[2], c0, c2);
INT_UV(df1->uv[3], c0, c3);
INT_UV(df2->uv[0], c0, c1);
copy_v2_v2(df2->uv[1], mf->uv[c1]);
INT_UV(df2->uv[2], c1, c2);
INT_UV(df2->uv[3], c0, c2);
INT_UV(df3->uv[0], c0, c2);
INT_UV(df3->uv[1], c1, c2);
copy_v2_v2(df3->uv[2], mf->uv[c2]);
INT_UV(df3->uv[3], c2, c3);
INT_UV(df4->uv[0], c0, c3);
INT_UV(df4->uv[1], c0, c2);
INT_UV(df4->uv[2], c2, c3);
copy_v2_v2(df4->uv[3], mf->uv[c3]);
}
}
static void remap_faces_7_11_13_14(Mesh *mesh, Mesh *split, MFace *mf, int *facepa, int *vertpa, int i, EdgeHash *eh, int cur, int v1, int v2, int v3, int v4)
{
MFace *df1 = get_dface(mesh, split, cur, i, mf);
MFace *df2 = get_dface(mesh, split, cur + 1, i, mf);
MFace *df3 = get_dface(mesh, split, cur + 2, i, mf);
facepa[cur] = vertpa[v1];
df1->v1 = v1;
df1->v2 = GET_ES(v1, v2);
df1->v3 = GET_ES(v2, v3);
df1->v4 = GET_ES(v1, v4);
df1->flag |= ME_FACE_SEL;
facepa[cur + 1] = vertpa[v2];
df2->v1 = GET_ES(v1, v2);
df2->v2 = v2;
df2->v3 = GET_ES(v2, v3);
df2->v4 = 0;
df2->flag &= ~ME_FACE_SEL;
facepa[cur + 2] = vertpa[v4];
df3->v1 = GET_ES(v1, v4);
df3->v2 = GET_ES(v2, v3);
df3->v3 = v3;
df3->v4 = v4;
df3->flag |= ME_FACE_SEL;
}
static void remap_uvs_7_11_13_14(Mesh *mesh, Mesh *split, int numlayer, int i, int cur, int c0, int c1, int c2, int c3)
{
MTFace *mf, *df1, *df2, *df3;
int l;
for (l = 0; l < numlayer; l++) {
mf = CustomData_get_layer_n(&split->fdata, CD_MTFACE, l);
df1 = mf + cur;
df2 = df1 + 1;
df3 = df1 + 2;
mf = CustomData_get_layer_n(&mesh->fdata, CD_MTFACE, l);
mf += i;
copy_v2_v2(df1->uv[0], mf->uv[c0]);
INT_UV(df1->uv[1], c0, c1);
INT_UV(df1->uv[2], c1, c2);
INT_UV(df1->uv[3], c0, c3);
INT_UV(df2->uv[0], c0, c1);
copy_v2_v2(df2->uv[1], mf->uv[c1]);
INT_UV(df2->uv[2], c1, c2);
INT_UV(df3->uv[0], c0, c3);
INT_UV(df3->uv[1], c1, c2);
copy_v2_v2(df3->uv[2], mf->uv[c2]);
copy_v2_v2(df3->uv[3], mf->uv[c3]);
}
}
static void remap_faces_19_21_22(Mesh *mesh, Mesh *split, MFace *mf, int *facepa, int *vertpa, int i, EdgeHash *eh, int cur, int v1, int v2, int v3)
{
MFace *df1 = get_dface(mesh, split, cur, i, mf);
MFace *df2 = get_dface(mesh, split, cur + 1, i, mf);
facepa[cur] = vertpa[v1];
df1->v1 = v1;
df1->v2 = GET_ES(v1, v2);
df1->v3 = GET_ES(v1, v3);
df1->v4 = 0;
df1->flag &= ~ME_FACE_SEL;
facepa[cur + 1] = vertpa[v2];
df2->v1 = GET_ES(v1, v2);
df2->v2 = v2;
df2->v3 = v3;
df2->v4 = GET_ES(v1, v3);
df2->flag |= ME_FACE_SEL;
}
static void remap_uvs_19_21_22(Mesh *mesh, Mesh *split, int numlayer, int i, int cur, int c0, int c1, int c2)
{
MTFace *mf, *df1, *df2;
int l;
for (l = 0; l < numlayer; l++) {
mf = CustomData_get_layer_n(&split->fdata, CD_MTFACE, l);
df1 = mf + cur;
df2 = df1 + 1;
mf = CustomData_get_layer_n(&mesh->fdata, CD_MTFACE, l);
mf += i;
copy_v2_v2(df1->uv[0], mf->uv[c0]);
INT_UV(df1->uv[1], c0, c1);
INT_UV(df1->uv[2], c0, c2);
INT_UV(df2->uv[0], c0, c1);
copy_v2_v2(df2->uv[1], mf->uv[c1]);
copy_v2_v2(df2->uv[2], mf->uv[c2]);
INT_UV(df2->uv[3], c0, c2);
}
}
static void remap_faces_23(Mesh *mesh, Mesh *split, MFace *mf, int *facepa, int *vertpa, int i, EdgeHash *eh, int cur, int v1, int v2, int v3)
{
MFace *df1 = get_dface(mesh, split, cur, i, mf);
MFace *df2 = get_dface(mesh, split, cur + 1, i, mf);
MFace *df3 = get_dface(mesh, split, cur + 2, i, mf);
facepa[cur] = vertpa[v1];
df1->v1 = v1;
df1->v2 = GET_ES(v1, v2);
df1->v3 = GET_ES(v2, v3);
df1->v4 = GET_ES(v1, v3);
df1->flag |= ME_FACE_SEL;
facepa[cur + 1] = vertpa[v2];
df2->v1 = GET_ES(v1, v2);
df2->v2 = v2;
df2->v3 = GET_ES(v2, v3);
df2->v4 = 0;
df2->flag &= ~ME_FACE_SEL;
facepa[cur + 2] = vertpa[v3];
df3->v1 = GET_ES(v1, v3);
df3->v2 = GET_ES(v2, v3);
df3->v3 = v3;
df3->v4 = 0;
df3->flag &= ~ME_FACE_SEL;
}
static void remap_uvs_23(Mesh *mesh, Mesh *split, int numlayer, int i, int cur, int c0, int c1, int c2)
{
MTFace *mf, *df1, *df2;
int l;
for (l = 0; l < numlayer; l++) {
mf = CustomData_get_layer_n(&split->fdata, CD_MTFACE, l);
df1 = mf + cur;
df2 = df1 + 1;
mf = CustomData_get_layer_n(&mesh->fdata, CD_MTFACE, l);
mf += i;
copy_v2_v2(df1->uv[0], mf->uv[c0]);
INT_UV(df1->uv[1], c0, c1);
INT_UV(df1->uv[2], c1, c2);
INT_UV(df1->uv[3], c0, c2);
INT_UV(df2->uv[0], c0, c1);
copy_v2_v2(df2->uv[1], mf->uv[c1]);
INT_UV(df2->uv[2], c1, c2);
INT_UV(df2->uv[0], c0, c2);
INT_UV(df2->uv[1], c1, c2);
copy_v2_v2(df2->uv[2], mf->uv[c2]);
}
}
static Mesh *cutEdges(ExplodeModifierData *emd, Mesh *mesh)
{
Mesh *split_m;
MFace *mf = NULL, *df1 = NULL;
MFace *mface = mesh->mface;
MVert *dupve, *mv;
EdgeHash *edgehash;
EdgeHashIterator *ehi;
int totvert = mesh->totvert;
int totface = mesh->totface;
int *facesplit = MEM_calloc_arrayN(totface, sizeof(int), "explode_facesplit");
int *vertpa = MEM_calloc_arrayN(totvert, sizeof(int), "explode_vertpa2");
int *facepa = emd->facepa;
int *fs, totesplit = 0, totfsplit = 0, curdupface = 0;
int i, v1, v2, v3, v4, esplit,
v[4] = {0, 0, 0, 0}, /* To quite gcc barking... */
uv[4] = {0, 0, 0, 0}; /* To quite gcc barking... */
int numlayer;
unsigned int ed_v1, ed_v2;
edgehash = BLI_edgehash_new(__func__);
/* recreate vertpa from facepa calculation */
for (i = 0, mf = mface; i < totface; i++, mf++) {
vertpa[mf->v1] = facepa[i];
vertpa[mf->v2] = facepa[i];
vertpa[mf->v3] = facepa[i];
if (mf->v4) {
vertpa[mf->v4] = facepa[i];
}
}
/* mark edges for splitting and how to split faces */
for (i = 0, mf = mface, fs = facesplit; i < totface; i++, mf++, fs++) {
v1 = vertpa[mf->v1];
v2 = vertpa[mf->v2];
v3 = vertpa[mf->v3];
if (v1 != v2) {
BLI_edgehash_reinsert(edgehash, mf->v1, mf->v2, NULL);
(*fs) |= 1;
}
if (v2 != v3) {
BLI_edgehash_reinsert(edgehash, mf->v2, mf->v3, NULL);
(*fs) |= 2;
}
if (mf->v4) {
v4 = vertpa[mf->v4];
if (v3 != v4) {
BLI_edgehash_reinsert(edgehash, mf->v3, mf->v4, NULL);
(*fs) |= 4;
}
if (v1 != v4) {
BLI_edgehash_reinsert(edgehash, mf->v1, mf->v4, NULL);
(*fs) |= 8;
}
/* mark center vertex as a fake edge split */
if (*fs == 15) {
BLI_edgehash_reinsert(edgehash, mf->v1, mf->v3, NULL);
}
}
else {
(*fs) |= 16; /* mark face as tri */
if (v1 != v3) {
BLI_edgehash_reinsert(edgehash, mf->v1, mf->v3, NULL);
(*fs) |= 4;
}
}
}
/* count splits & create indexes for new verts */
ehi = BLI_edgehashIterator_new(edgehash);
totesplit = totvert;
for (; !BLI_edgehashIterator_isDone(ehi); BLI_edgehashIterator_step(ehi)) {
BLI_edgehashIterator_setValue(ehi, POINTER_FROM_INT(totesplit));
totesplit++;
}
BLI_edgehashIterator_free(ehi);
/* count new faces due to splitting */
for (i = 0, fs = facesplit; i < totface; i++, fs++)
totfsplit += add_faces[*fs];
split_m = BKE_mesh_new_nomain_from_template(
mesh, totesplit, 0, totface + totfsplit, 0, 0);
numlayer = CustomData_number_of_layers(&split_m->fdata, CD_MTFACE);
/* copy new faces & verts (is it really this painful with custom data??) */
for (i = 0; i < totvert; i++) {
MVert source;
MVert *dest;
source = mesh->mvert[i];
dest = &split_m->mvert[i];
CustomData_copy_data(&mesh->vdata, &split_m->vdata, i, i, 1);
*dest = source;
}
/* override original facepa (original pointer is saved in caller function) */
/* BMESH_TODO, (totfsplit * 2) over allocation is used since the quads are
* later interpreted as tri's, for this to work right I think we probably
* have to stop using tessface - campbell */
facepa = MEM_calloc_arrayN((totface + (totfsplit * 2)), sizeof(int), "explode_facepa");
//memcpy(facepa, emd->facepa, totface*sizeof(int));
emd->facepa = facepa;
/* create new verts */
ehi = BLI_edgehashIterator_new(edgehash);
for (; !BLI_edgehashIterator_isDone(ehi); BLI_edgehashIterator_step(ehi)) {
BLI_edgehashIterator_getKey(ehi, &ed_v1, &ed_v2);
esplit = POINTER_AS_INT(BLI_edgehashIterator_getValue(ehi));
mv = &split_m->mvert[ed_v2];
dupve = &split_m->mvert[esplit];
CustomData_copy_data(&split_m->vdata, &split_m->vdata, ed_v2, esplit, 1);
*dupve = *mv;
mv = &split_m->mvert[ed_v1];
mid_v3_v3v3(dupve->co, dupve->co, mv->co);
}
BLI_edgehashIterator_free(ehi);
/* create new faces */
curdupface = 0; //=totface;
//curdupin=totesplit;
for (i = 0, fs = facesplit; i < totface; i++, fs++) {
mf = &mesh->mface[i];
switch (*fs) {
case 3:
case 10:
case 11:
case 15:
SET_VERTS(1, 2, 3, 4);
break;
case 5:
case 6:
case 7:
SET_VERTS(2, 3, 4, 1);
break;
case 9:
case 13:
SET_VERTS(4, 1, 2, 3);
break;
case 12:
case 14:
SET_VERTS(3, 4, 1, 2);
break;
case 21:
case 23:
SET_VERTS(1, 2, 3, 4);
break;
case 19:
SET_VERTS(2, 3, 1, 4);
break;
case 22:
SET_VERTS(3, 1, 2, 4);
break;
}
switch (*fs) {
case 3:
case 6:
case 9:
case 12:
remap_faces_3_6_9_12(mesh, split_m, mf, facepa, vertpa, i, edgehash, curdupface, v[0], v[1], v[2], v[3]);
if (numlayer) {
remap_uvs_3_6_9_12(mesh, split_m, numlayer, i, curdupface, uv[0], uv[1], uv[2], uv[3]);
}
break;
case 5:
case 10:
remap_faces_5_10(mesh, split_m, mf, facepa, vertpa, i, edgehash, curdupface, v[0], v[1], v[2], v[3]);
if (numlayer) {
remap_uvs_5_10(mesh, split_m, numlayer, i, curdupface, uv[0], uv[1], uv[2], uv[3]);
}
break;
case 15:
remap_faces_15(mesh, split_m, mf, facepa, vertpa, i, edgehash, curdupface, v[0], v[1], v[2], v[3]);
if (numlayer) {
remap_uvs_15(mesh, split_m, numlayer, i, curdupface, uv[0], uv[1], uv[2], uv[3]);
}
break;
case 7:
case 11:
case 13:
case 14:
remap_faces_7_11_13_14(mesh, split_m, mf, facepa, vertpa, i, edgehash, curdupface, v[0], v[1], v[2], v[3]);
if (numlayer) {
remap_uvs_7_11_13_14(mesh, split_m, numlayer, i, curdupface, uv[0], uv[1], uv[2], uv[3]);
}
break;
case 19:
case 21:
case 22:
remap_faces_19_21_22(mesh, split_m, mf, facepa, vertpa, i, edgehash, curdupface, v[0], v[1], v[2]);
if (numlayer) {
remap_uvs_19_21_22(mesh, split_m, numlayer, i, curdupface, uv[0], uv[1], uv[2]);
}
break;
case 23:
remap_faces_23(mesh, split_m, mf, facepa, vertpa, i, edgehash, curdupface, v[0], v[1], v[2]);
if (numlayer) {
remap_uvs_23(mesh, split_m, numlayer, i, curdupface, uv[0], uv[1], uv[2]);
}
break;
case 0:
case 16:
df1 = get_dface(mesh, split_m, curdupface, i, mf);
facepa[curdupface] = vertpa[mf->v1];
if (df1->v4) {
df1->flag |= ME_FACE_SEL;
}
else {
df1->flag &= ~ME_FACE_SEL;
}
break;
}
curdupface += add_faces[*fs] + 1;
}
for (i = 0; i < curdupface; i++) {
mf = &split_m->mface[i];
test_index_face(mf, &split_m->fdata, i, ((mf->flag & ME_FACE_SEL) ? 4 : 3));
}
BLI_edgehash_free(edgehash, NULL);
MEM_freeN(facesplit);
MEM_freeN(vertpa);
BKE_mesh_calc_edges_tessface(split_m);
BKE_mesh_convert_mfaces_to_mpolys(split_m);
return split_m;
}
static Mesh *explodeMesh(
ExplodeModifierData *emd,
ParticleSystemModifierData *psmd, const ModifierEvalContext *ctx, Scene *scene,
Mesh *to_explode)
{
Mesh *explode, *mesh = to_explode;
MFace *mf = NULL, *mface;
/* ParticleSettings *part=psmd->psys->part; */ /* UNUSED */
ParticleSimulationData sim = {NULL};
ParticleData *pa = NULL, *pars = psmd->psys->particles;
ParticleKey state, birth;
EdgeHash *vertpahash;
EdgeHashIterator *ehi;
float *vertco = NULL, imat[4][4];
float rot[4];
float cfra;
/* float timestep; */
const int *facepa = emd->facepa;
int totdup = 0, totvert = 0, totface = 0, totpart = 0, delface = 0;
int i, v, u;
unsigned int ed_v1, ed_v2, mindex = 0;
MTFace *mtface = NULL, *mtf;
totface = mesh->totface;
totvert = mesh->totvert;
mface = mesh->mface;
totpart = psmd->psys->totpart;
sim.depsgraph = ctx->depsgraph;
sim.scene = scene;
sim.ob = ctx->object;
sim.psys = psmd->psys;
sim.psmd = psmd;
/* timestep = psys_get_timestep(&sim); */
cfra = BKE_scene_frame_get(scene);
/* hash table for vertice <-> particle relations */
vertpahash = BLI_edgehash_new(__func__);
for (i = 0; i < totface; i++) {
if (facepa[i] != totpart) {
pa = pars + facepa[i];
if ((pa->alive == PARS_UNBORN && (emd->flag & eExplodeFlag_Unborn) == 0) ||
(pa->alive == PARS_ALIVE && (emd->flag & eExplodeFlag_Alive) == 0) ||
(pa->alive == PARS_DEAD && (emd->flag & eExplodeFlag_Dead) == 0))
{
delface++;
continue;
}
}
/* do mindex + totvert to ensure the vertex index to be the first
* with BLI_edgehashIterator_getKey */
if (facepa[i] == totpart || cfra < (pars + facepa[i])->time) {
mindex = totvert + totpart;
}
else {
mindex = totvert + facepa[i];
}
mf = &mface[i];
/* set face vertices to exist in particle group */
BLI_edgehash_reinsert(vertpahash, mf->v1, mindex, NULL);
BLI_edgehash_reinsert(vertpahash, mf->v2, mindex, NULL);
BLI_edgehash_reinsert(vertpahash, mf->v3, mindex, NULL);
if (mf->v4) {
BLI_edgehash_reinsert(vertpahash, mf->v4, mindex, NULL);
}
}
/* make new vertice indexes & count total vertices after duplication */
ehi = BLI_edgehashIterator_new(vertpahash);
for (; !BLI_edgehashIterator_isDone(ehi); BLI_edgehashIterator_step(ehi)) {
BLI_edgehashIterator_setValue(ehi, POINTER_FROM_INT(totdup));
totdup++;
}
BLI_edgehashIterator_free(ehi);
/* the final duplicated vertices */
explode = BKE_mesh_new_nomain_from_template(mesh, totdup, 0, totface - delface, 0, 0);
mtface = CustomData_get_layer_named(&explode->fdata, CD_MTFACE, emd->uvname);
/*dupvert = CDDM_get_verts(explode);*/
/* getting back to object space */
invert_m4_m4(imat, ctx->object->obmat);
psmd->psys->lattice_deform_data = psys_create_lattice_deform_data(&sim);
/* duplicate & displace vertices */
ehi = BLI_edgehashIterator_new(vertpahash);
for (; !BLI_edgehashIterator_isDone(ehi); BLI_edgehashIterator_step(ehi)) {
MVert source;
MVert *dest;
/* get particle + vertex from hash */
BLI_edgehashIterator_getKey(ehi, &ed_v1, &ed_v2);
ed_v2 -= totvert;
v = POINTER_AS_INT(BLI_edgehashIterator_getValue(ehi));
source = mesh->mvert[ed_v1];
dest = &explode->mvert[v];
CustomData_copy_data(&mesh->vdata, &explode->vdata, ed_v1, v, 1);
*dest = source;
if (ed_v2 != totpart) {
/* get particle */
pa = pars + ed_v2;
psys_get_birth_coords(&sim, pa, &birth, 0, 0);
state.time = cfra;
psys_get_particle_state(&sim, ed_v2, &state, 1);
vertco = explode->mvert[v].co;
mul_m4_v3(ctx->object->obmat, vertco);
sub_v3_v3(vertco, birth.co);
/* apply rotation, size & location */
sub_qt_qtqt(rot, state.rot, birth.rot);
mul_qt_v3(rot, vertco);
if (emd->flag & eExplodeFlag_PaSize) {
mul_v3_fl(vertco, pa->size);
}
add_v3_v3(vertco, state.co);
mul_m4_v3(imat, vertco);
}
}
BLI_edgehashIterator_free(ehi);
/*map new vertices to faces*/
for (i = 0, u = 0; i < totface; i++) {
MFace source;
int orig_v4;
if (facepa[i] != totpart) {
pa = pars + facepa[i];
if (pa->alive == PARS_UNBORN && (emd->flag & eExplodeFlag_Unborn) == 0) continue;
if (pa->alive == PARS_ALIVE && (emd->flag & eExplodeFlag_Alive) == 0) continue;
if (pa->alive == PARS_DEAD && (emd->flag & eExplodeFlag_Dead) == 0) continue;
}
source = mesh->mface[i];
mf = &explode->mface[u];
orig_v4 = source.v4;
if (facepa[i] != totpart && cfra < pa->time) {
mindex = totvert + totpart;
}
else {
mindex = totvert + facepa[i];
}
source.v1 = edgecut_get(vertpahash, source.v1, mindex);
source.v2 = edgecut_get(vertpahash, source.v2, mindex);
source.v3 = edgecut_get(vertpahash, source.v3, mindex);
if (source.v4) {
source.v4 = edgecut_get(vertpahash, source.v4, mindex);
}
CustomData_copy_data(&mesh->fdata, &explode->fdata, i, u, 1);
*mf = source;
/* override uv channel for particle age */
if (mtface) {
float age = (cfra - pa->time) / pa->lifetime;
/* Clamp to this range to avoid flipping to the other side of the coordinates. */
CLAMP(age, 0.001f, 0.999f);
mtf = mtface + u;
mtf->uv[0][0] = mtf->uv[1][0] = mtf->uv[2][0] = mtf->uv[3][0] = age;
mtf->uv[0][1] = mtf->uv[1][1] = mtf->uv[2][1] = mtf->uv[3][1] = 0.5f;
}
test_index_face(mf, &explode->fdata, u, (orig_v4 ? 4 : 3));
u++;
}
/* cleanup */
BLI_edgehash_free(vertpahash, NULL);
/* finalization */
BKE_mesh_calc_edges_tessface(explode);
BKE_mesh_convert_mfaces_to_mpolys(explode);
explode->runtime.cd_dirty_vert |= CD_MASK_NORMAL;
if (psmd->psys->lattice_deform_data) {
end_latt_deform(psmd->psys->lattice_deform_data);
psmd->psys->lattice_deform_data = NULL;
}
return explode;
}
static ParticleSystemModifierData *findPrecedingParticlesystem(Object *ob, ModifierData *emd)
{
ModifierData *md;
ParticleSystemModifierData *psmd = NULL;
for (md = ob->modifiers.first; emd != md; md = md->next) {
if (md->type == eModifierType_ParticleSystem) {
psmd = (ParticleSystemModifierData *) md;
}
}
return psmd;
}
static Mesh *applyModifier(
ModifierData *md, const ModifierEvalContext *ctx,
Mesh *mesh)
{
ExplodeModifierData *emd = (ExplodeModifierData *) md;
ParticleSystemModifierData *psmd = findPrecedingParticlesystem(ctx->object, md);
if (psmd) {
ParticleSystem *psys = psmd->psys;
if (psys == NULL || psys->totpart == 0) {
return mesh;
}
if (psys->part == NULL || psys->particles == NULL) {
return mesh;
}
if (psmd->mesh_final == NULL) {
return mesh;
}
BKE_mesh_tessface_ensure(mesh); /* BMESH - UNTIL MODIFIER IS UPDATED FOR MPoly */
/* 1. find faces to be exploded if needed */
if (emd->facepa == NULL ||
psmd->flag & eParticleSystemFlag_Pars ||
emd->flag & eExplodeFlag_CalcFaces ||
MEM_allocN_len(emd->facepa) / sizeof(int) != mesh->totface)
{
if (psmd->flag & eParticleSystemFlag_Pars) {
psmd->flag &= ~eParticleSystemFlag_Pars;
}
if (emd->flag & eExplodeFlag_CalcFaces) {
emd->flag &= ~eExplodeFlag_CalcFaces;
}
createFacepa(emd, psmd, mesh);
}
/* 2. create new mesh */
Scene *scene = DEG_get_evaluated_scene(ctx->depsgraph);
if (emd->flag & eExplodeFlag_EdgeCut) {
int *facepa = emd->facepa;
Mesh *split_m = cutEdges(emd, mesh);
Mesh *explode = explodeMesh(emd, psmd, ctx, scene, split_m);
MEM_freeN(emd->facepa);
emd->facepa = facepa;
BKE_id_free(NULL, split_m);
return explode;
}
else {
return explodeMesh(emd, psmd, ctx, scene, mesh);
}
}
return mesh;
}
ModifierTypeInfo modifierType_Explode = {
/* name */ "Explode",
/* structName */ "ExplodeModifierData",
/* structSize */ sizeof(ExplodeModifierData),
/* type */ eModifierTypeType_Constructive,
/* flags */ eModifierTypeFlag_AcceptsMesh,
/* copyData */ copyData,
/* deformVerts_DM */ NULL,
/* deformMatrices_DM */ NULL,
/* deformVertsEM_DM */ NULL,
/* deformMatricesEM_DM*/NULL,
/* applyModifier_DM */ NULL,
/* deformVerts */ NULL,
/* deformMatrices */ NULL,
/* deformVertsEM */ NULL,
/* deformMatricesEM */ NULL,
/* applyModifier */ applyModifier,
/* initData */ initData,
/* requiredDataMask */ requiredDataMask,
/* freeData */ freeData,
/* isDisabled */ NULL,
/* updateDepsgraph */ NULL,
/* dependsOnTime */ dependsOnTime,
/* dependsOnNormals */ NULL,
/* foreachObjectLink */ NULL,
/* foreachIDLink */ NULL,
/* foreachTexLink */ NULL,
};
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