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Fix for [#26133] Explode modifier doesn't care about UVs (Option "split edges")

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* This is basically a total rewrite of the edge split algorithm. The old one didn't handle tris at all and quads were cut wrong in some cases too with the addition of not handling uv coordinates at all.
* This new algorithm uses a flag system to categorize different splits and the identical but rotated cases in a similar way to how marching cubes indexes different cases.
* It cuts quads and tris and creates proper uv's for the new faces too.
* I also renamed the option to "edge cut" to differentiate if from the edge split modifier and added an option to override a uv-channel in the exploded mesh with particle age as x-coordinate so that the shrapnel can be faded out nicely etc.
This commit is contained in:
Janne Karhu 2011-02-23 19:29:59 +00:00
parent 00c05c8404
commit 3bee6abb74
4 changed files with 518 additions and 384 deletions
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4
release/scripts/ui/properties_data_modifier.py
View File

@ -259,9 +259,11 @@ class DATA_PT_modifiers(ModifierButtonsPanel, bpy.types.Panel):
sub = col.column()
sub.active = bool(md.vertex_group)
sub.prop(md, "protect")
col.label(text="Particle UV")
col.prop_search(md, "particle_uv", ob.data, "uv_textures", text="")
col = split.column()
col.prop(md, "use_edge_split")
col.prop(md, "use_edge_cut")
col.prop(md, "show_unborn")
col.prop(md, "show_alive")
col.prop(md, "show_dead")

3
source/blender/makesdna/DNA_modifier_types.h
View File

@ -588,7 +588,7 @@ typedef struct ParticleInstanceModifierData {
typedef enum {
eExplodeFlag_CalcFaces = (1<<0),
eExplodeFlag_PaSize = (1<<1),
eExplodeFlag_EdgeSplit = (1<<2),
eExplodeFlag_EdgeCut = (1<<2),
eExplodeFlag_Unborn = (1<<3),
eExplodeFlag_Alive = (1<<4),
eExplodeFlag_Dead = (1<<5),
@ -599,6 +599,7 @@ typedef struct ExplodeModifierData {
int *facepa;
short flag, vgroup;
float protect;
char uvname[32];
} ExplodeModifierData;
typedef struct MultiresModifierData {

12
source/blender/makesrna/intern/rna_modifier.c
View File

@ -1720,9 +1720,9 @@ static void rna_def_modifier_explode(BlenderRNA *brna)
RNA_def_property_ui_text(prop, "Protect", "Clean vertex group edges");
RNA_def_property_update(prop, 0, "rna_Modifier_update");
prop= RNA_def_property(srna, "use_edge_split", PROP_BOOLEAN, PROP_NONE);
RNA_def_property_boolean_sdna(prop, NULL, "flag", eExplodeFlag_EdgeSplit);
RNA_def_property_ui_text(prop, "Split Edges", "Split face edges for nicer shrapnel");
prop= RNA_def_property(srna, "use_edge_cut", PROP_BOOLEAN, PROP_NONE);
RNA_def_property_boolean_sdna(prop, NULL, "flag", eExplodeFlag_EdgeCut);
RNA_def_property_ui_text(prop, "Cut Edges", "Cut face edges for nicer shrapnel");
RNA_def_property_update(prop, 0, "rna_Modifier_update");
prop= RNA_def_property(srna, "show_unborn", PROP_BOOLEAN, PROP_NONE);
@ -1744,6 +1744,12 @@ static void rna_def_modifier_explode(BlenderRNA *brna)
RNA_def_property_boolean_sdna(prop, NULL, "flag", eExplodeFlag_PaSize);
RNA_def_property_ui_text(prop, "Size", "Use particle size for the shrapnel");
RNA_def_property_update(prop, 0, "rna_Modifier_update");
prop= RNA_def_property(srna, "particle_uv", PROP_STRING, PROP_NONE);
RNA_def_property_string_sdna(prop, NULL, "uvname");
RNA_def_property_string_maxlength(prop, 32);
RNA_def_property_ui_text(prop, "Particle UV", "UV Layer to change with particle age");
RNA_def_property_update(prop, 0, "rna_Modifier_update");
}
static void rna_def_modifier_cloth(BlenderRNA *brna)

863
source/blender/modifiers/intern/MOD_explode.c
View File

@ -180,15 +180,370 @@ static void createFacepa(ExplodeModifierData *emd,
BLI_kdtree_free(tree);
}
static int edgesplit_get(EdgeHash *edgehash, int v1, int v2)
static int edgecut_get(EdgeHash *edgehash, int v1, int v2)
{
return GET_INT_FROM_POINTER(BLI_edgehash_lookup(edgehash, v1, v2));
}
static DerivedMesh * splitEdges(ExplodeModifierData *emd, DerivedMesh *dm){
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
};
MFace *get_dface(DerivedMesh *dm, DerivedMesh *split, int cur, int i, MFace *mf)
{
MFace *df = CDDM_get_face(split, cur);
DM_copy_face_data(dm, split, 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;
#define GET_ES(v1, v2) edgecut_get(eh, v1, v2);
#define INT_UV(uvf, c0, c1) interp_v2_v2v2(uvf, mf->uv[c0], mf->uv[c1], 0.5f);
static void remap_faces_3_6_9_12(DerivedMesh *dm, DerivedMesh *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(dm, split, cur, i, mf);
MFace *df2 = get_dface(dm, split, cur+1, i, mf);
MFace *df3 = get_dface(dm, 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(DerivedMesh *dm, DerivedMesh *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->faceData, CD_MTFACE, l);
df1 = mf+cur;
df2 = df1 + 1;
df3 = df1 + 2;
mf = CustomData_get_layer_n(&dm->faceData, 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(DerivedMesh *dm, DerivedMesh *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(dm, split, cur, i, mf);
MFace *df2 = get_dface(dm, 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(DerivedMesh *dm, DerivedMesh *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->faceData, CD_MTFACE, l);
df1 = mf+cur;
df2 = df1 + 1;
mf = CustomData_get_layer_n(&dm->faceData, 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(DerivedMesh *dm, DerivedMesh *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(dm, split, cur, i, mf);
MFace *df2 = get_dface(dm, split, cur+1, i, mf);
MFace *df3 = get_dface(dm, split, cur+2, i, mf);
MFace *df4 = get_dface(dm, 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(DerivedMesh *dm, DerivedMesh *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->faceData, CD_MTFACE, l);
df1 = mf+cur;
df2 = df1 + 1;
df3 = df1 + 2;
df4 = df1 + 3;
mf = CustomData_get_layer_n(&dm->faceData, 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(DerivedMesh *dm, DerivedMesh *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(dm, split, cur, i, mf);
MFace *df2 = get_dface(dm, split, cur+1, i, mf);
MFace *df3 = get_dface(dm, 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(DerivedMesh *dm, DerivedMesh *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->faceData, CD_MTFACE, l);
df1 = mf+cur;
df2 = df1 + 1;
df3 = df1 + 2;
mf = CustomData_get_layer_n(&dm->faceData, 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(DerivedMesh *dm, DerivedMesh *split, MFace *mf, int *facepa, int *vertpa, int i, EdgeHash *eh, int cur, int v1, int v2, int v3)
{
MFace *df1 = get_dface(dm, split, cur, i, mf);
MFace *df2 = get_dface(dm, 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(DerivedMesh *dm, DerivedMesh *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->faceData, CD_MTFACE, l);
df1 = mf+cur;
df2 = df1 + 1;
mf = CustomData_get_layer_n(&dm->faceData, 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(DerivedMesh *dm, DerivedMesh *split, MFace *mf, int *facepa, int *vertpa, int i, EdgeHash *eh, int cur, int v1, int v2, int v3)
{
MFace *df1 = get_dface(dm, split, cur, i, mf);
MFace *df2 = get_dface(dm, split, cur+1, i, mf);
MFace *df3 = get_dface(dm, 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(DerivedMesh *dm, DerivedMesh *split, int numlayer, int i, int cur, int c0, int c1, int c2)
{
MTFace *mf, *df1, *df2, *df3;
int l;
for(l=0; l<numlayer; l++) {
mf = CustomData_get_layer_n(&split->faceData, CD_MTFACE, l);
df1 = mf+cur;
df2 = df1 + 1;
df3 = df1 + 2;
mf = CustomData_get_layer_n(&dm->faceData, 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 DerivedMesh * cutEdges(ExplodeModifierData *emd, DerivedMesh *dm){
DerivedMesh *splitdm;
MFace *mf=0,*df1=0,*df2=0,*df3=0;
MFace *mf=NULL,*df1=NULL,*df2=NULL,*df3=NULL,*df4=NULL;
MFace *mface=dm->getFaceArray(dm);
MTFace *mtf = NULL, *dtf1=NULL, *dtf2=NULL, *dtf3=NULL, *dtf4=NULL;
MVert *dupve, *mv;
EdgeHash *edgehash;
EdgeHashIterator *ehi;
@ -199,7 +554,8 @@ static DerivedMesh * splitEdges(ExplodeModifierData *emd, DerivedMesh *dm){
int *vertpa = MEM_callocN(sizeof(int)*totvert,"explode_vertpa2");
int *facepa = emd->facepa;
int *fs, totesplit=0,totfsplit=0,totin=0,curdupface=0,curdupin=0;
int i,j,v1,v2,v3,v4,esplit;
int i,j,v1,v2,v3,v4,esplit, v[4], uv[4];
int numlayer;
edgehash= BLI_edgehash_new();
@ -214,52 +570,48 @@ static DerivedMesh * splitEdges(ExplodeModifierData *emd, DerivedMesh *dm){
/* mark edges for splitting and how to split faces */
for (i=0,mf=mface,fs=facesplit; i<totface; i++,mf++,fs++) {
if(mf->v4){
v1=vertpa[mf->v1];
v2=vertpa[mf->v2];
v3=vertpa[mf->v3];
v4=vertpa[mf->v4];
if(v1!=v2){
BLI_edgehash_insert(edgehash, mf->v1, mf->v2, NULL);
(*fs)++;
(*fs) |= 1;
}
if(v2!=v3){
BLI_edgehash_insert(edgehash, mf->v2, mf->v3, NULL);
(*fs)++;
(*fs) |= 2;
}
if(mf->v4){
v4=vertpa[mf->v4];
if(v3!=v4){
BLI_edgehash_insert(edgehash, mf->v3, mf->v4, NULL);
(*fs)++;
(*fs) |= 4;
}
if(v1!=v4){
BLI_edgehash_insert(edgehash, mf->v1, mf->v4, NULL);
(*fs)++;
(*fs) |= 8;
}
if(*fs==2){
if((v1==v2 && v3==v4) || (v1==v4 && v2==v3))
*fs=1;
else if(v1!=v2){
if(v1!=v4)
BLI_edgehash_insert(edgehash, mf->v2, mf->v3, NULL);
else
BLI_edgehash_insert(edgehash, mf->v3, mf->v4, NULL);
/* mark center vertex as a fake edge split */
if(*fs == 15)
BLI_edgehash_insert(edgehash, mf->v1, mf->v3, NULL);
}
else {
if(v1!=v4)
BLI_edgehash_insert(edgehash, mf->v1, mf->v2, NULL);
else
BLI_edgehash_insert(edgehash, mf->v1, mf->v4, NULL);
}
(*fs) |= 16; /* mark face as tri */
if(v1!=v3){
BLI_edgehash_insert(edgehash, mf->v1, mf->v3, NULL);
(*fs) |= 4;
}
}
}
/* count splits & reindex */
/* count splits & create indexes for new verts */
ehi= BLI_edgehashIterator_new(edgehash);
totesplit=totvert;
for(; !BLI_edgehashIterator_isDone(ehi); BLI_edgehashIterator_step(ehi)) {
@ -269,24 +621,11 @@ static DerivedMesh * splitEdges(ExplodeModifierData *emd, DerivedMesh *dm){
BLI_edgehashIterator_free(ehi);
/* count new faces due to splitting */
for(i=0,fs=facesplit; i<totface; i++,fs++){
if(*fs==1)
totfsplit+=1;
else if(*fs==2)
totfsplit+=2;
else if(*fs==3)
totfsplit+=3;
else if(*fs==4){
totfsplit+=3;
for(i=0,fs=facesplit; i<totface; i++,fs++)
totfsplit += add_faces[*fs];
mf=dm->getFaceData(dm,i,CD_MFACE);//CDDM_get_face(dm,i);
if(vertpa[mf->v1]!=vertpa[mf->v2] && vertpa[mf->v2]!=vertpa[mf->v3])
totin++;
}
}
splitdm= CDDM_from_template(dm, totesplit+totin, dm->getNumEdges(dm),totface+totfsplit);
splitdm= CDDM_from_template(dm, totesplit, 0, totface+totfsplit);
numlayer = CustomData_number_of_layers(&splitdm->faceData, CD_MTFACE);
/* copy new faces & verts (is it really this painful with custom data??) */
for(i=0; i<totvert; i++){
@ -298,19 +637,10 @@ static DerivedMesh * splitEdges(ExplodeModifierData *emd, DerivedMesh *dm){
DM_copy_vert_data(dm, splitdm, i, i, 1);
*dest = source;
}
for(i=0; i<totface; i++){
MFace source;
MFace *dest;
dm->getFace(dm, i, &source);
dest = CDDM_get_face(splitdm, i);
DM_copy_face_data(dm, splitdm, i, i, 1);
*dest = source;
}
/* override original facepa (original pointer is saved in caller function) */
facepa= MEM_callocN(sizeof(int)*(totface+totfsplit),"explode_facepa");
memcpy(facepa,emd->facepa,totface*sizeof(int));
//memcpy(facepa,emd->facepa,totface*sizeof(int));
emd->facepa=facepa;
/* create new verts */
@ -333,320 +663,101 @@ static DerivedMesh * splitEdges(ExplodeModifierData *emd, DerivedMesh *dm){
BLI_edgehashIterator_free(ehi);
/* create new faces */
curdupface=totface;
curdupin=totesplit;
curdupface=0;//=totface;
//curdupin=totesplit;
for(i=0,fs=facesplit; i<totface; i++,fs++){
if(*fs){
mf = dm->getFaceData(dm, i, CD_MFACE);
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(dm, splitdm, mf, facepa, vertpa, i, edgehash, curdupface, v[0], v[1], v[2], v[3]);
if(numlayer)
remap_uvs_3_6_9_12(dm, splitdm, numlayer, i, curdupface, uv[0], uv[1], uv[2], uv[3]);
break;
case 5:
case 10:
remap_faces_5_10(dm, splitdm, mf, facepa, vertpa, i, edgehash, curdupface, v[0], v[1], v[2], v[3]);
if(numlayer)
remap_uvs_5_10(dm, splitdm, numlayer, i, curdupface, uv[0], uv[1], uv[2], uv[3]);
break;
case 15:
remap_faces_15(dm, splitdm, mf, facepa, vertpa, i, edgehash, curdupface, v[0], v[1], v[2], v[3]);
if(numlayer)
remap_uvs_15(dm, splitdm, 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(dm, splitdm, mf, facepa, vertpa, i, edgehash, curdupface, v[0], v[1], v[2], v[3]);
if(numlayer)
remap_uvs_7_11_13_14(dm, splitdm, numlayer, i, curdupface, uv[0], uv[1], uv[2], uv[3]);
break;
case 19:
case 21:
case 22:
remap_faces_19_21_22(dm, splitdm, mf, facepa, vertpa, i, edgehash, curdupface, v[0], v[1], v[2]);
if(numlayer)
remap_uvs_19_21_22(dm, splitdm, numlayer, i, curdupface, uv[0], uv[1], uv[2]);
break;
case 23:
remap_faces_23(dm, splitdm, mf, facepa, vertpa, i, edgehash, curdupface, v[0], v[1], v[2]);
if(numlayer)
remap_uvs_23(dm, splitdm, numlayer, i, curdupface, uv[0], uv[1], uv[2]);
break;
case 0:
case 16:
df1 = get_dface(dm, splitdm, 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 = CDDM_get_face(splitdm, i);
v1=vertpa[mf->v1];
v2=vertpa[mf->v2];
v3=vertpa[mf->v3];
v4=vertpa[mf->v4];
/* ouch! creating new faces & remapping them to new verts is no fun */
if(*fs==1){
df1=CDDM_get_face(splitdm,curdupface);
DM_copy_face_data(splitdm,splitdm,i,curdupface,1);
*df1=*mf;
curdupface++;
if(v1==v2){
df1->v1=edgesplit_get(edgehash, mf->v1, mf->v4);
df1->v2=edgesplit_get(edgehash, mf->v2, mf->v3);
mf->v3=df1->v2;
mf->v4=df1->v1;
}
else{
df1->v1=edgesplit_get(edgehash, mf->v1, mf->v2);
df1->v4=edgesplit_get(edgehash, mf->v3, mf->v4);
mf->v2=df1->v1;
mf->v3=df1->v4;
}
facepa[i]=v1;
facepa[curdupface-1]=v3;
test_index_face(df1, &splitdm->faceData, curdupface, (df1->v4 ? 4 : 3));
}
if(*fs==2){
df1=CDDM_get_face(splitdm,curdupface);
DM_copy_face_data(splitdm,splitdm,i,curdupface,1);
*df1=*mf;
curdupface++;
df2=CDDM_get_face(splitdm,curdupface);
DM_copy_face_data(splitdm,splitdm,i,curdupface,1);
*df2=*mf;
curdupface++;
if(v1!=v2){
if(v1!=v4){
df1->v1=edgesplit_get(edgehash, mf->v1, mf->v4);
df1->v2=edgesplit_get(edgehash, mf->v1, mf->v2);
df2->v1=df1->v3=mf->v2;
df2->v3=df1->v4=mf->v4;
df2->v2=mf->v3;
mf->v2=df1->v2;
mf->v3=df1->v1;
df2->v4=mf->v4=0;
facepa[i]=v1;
}
else{
df1->v2=edgesplit_get(edgehash, mf->v1, mf->v2);
df1->v3=edgesplit_get(edgehash, mf->v2, mf->v3);
df1->v4=mf->v3;
df2->v2=mf->v3;
df2->v3=mf->v4;
mf->v1=df1->v2;
mf->v3=df1->v3;
df2->v4=mf->v4=0;
facepa[i]=v2;
}
facepa[curdupface-1]=facepa[curdupface-2]=v3;
}
else{
if(v1!=v4){
df1->v3=edgesplit_get(edgehash, mf->v3, mf->v4);
df1->v4=edgesplit_get(edgehash, mf->v1, mf->v4);
df1->v2=mf->v3;
mf->v1=df1->v4;
mf->v2=df1->v3;
mf->v3=mf->v4;
df2->v4=mf->v4=0;
facepa[i]=v4;
}
else{
df1->v3=edgesplit_get(edgehash, mf->v2, mf->v3);
df1->v4=edgesplit_get(edgehash, mf->v3, mf->v4);
df1->v1=mf->v4;
df1->v2=mf->v2;
df2->v3=mf->v4;
mf->v1=df1->v4;
mf->v2=df1->v3;
df2->v4=mf->v4=0;
facepa[i]=v3;
}
facepa[curdupface-1]=facepa[curdupface-2]=v1;
}
test_index_face(df1, &splitdm->faceData, curdupface-2, (df1->v4 ? 4 : 3));
test_index_face(df1, &splitdm->faceData, curdupface-1, (df1->v4 ? 4 : 3));
}
else if(*fs==3){
df1=CDDM_get_face(splitdm,curdupface);
DM_copy_face_data(splitdm,splitdm,i,curdupface,1);
*df1=*mf;
curdupface++;
df2=CDDM_get_face(splitdm,curdupface);
DM_copy_face_data(splitdm,splitdm,i,curdupface,1);
*df2=*mf;
curdupface++;
df3=CDDM_get_face(splitdm,curdupface);
DM_copy_face_data(splitdm,splitdm,i,curdupface,1);
*df3=*mf;
curdupface++;
if(v1==v2){
df2->v1=df1->v1=edgesplit_get(edgehash, mf->v1, mf->v4);
df3->v1=df1->v2=edgesplit_get(edgehash, mf->v2, mf->v3);
df3->v3=df2->v2=df1->v3=edgesplit_get(edgehash, mf->v3, mf->v4);
df3->v2=mf->v3;
df2->v3=mf->v4;
df1->v4=df2->v4=df3->v4=0;
mf->v3=df1->v2;
mf->v4=df1->v1;
facepa[i]=facepa[curdupface-3]=v1;
facepa[curdupface-1]=v3;
facepa[curdupface-2]=v4;
}
else if(v2==v3){
df3->v1=df2->v3=df1->v1=edgesplit_get(edgehash, mf->v1, mf->v4);
df2->v2=df1->v2=edgesplit_get(edgehash, mf->v1, mf->v2);
df3->v2=df1->v3=edgesplit_get(edgehash, mf->v3, mf->v4);
df3->v3=mf->v4;
df2->v1=mf->v1;
df1->v4=df2->v4=df3->v4=0;
mf->v1=df1->v2;
mf->v4=df1->v3;
facepa[i]=facepa[curdupface-3]=v2;
facepa[curdupface-1]=v4;
facepa[curdupface-2]=v1;
}
else if(v3==v4){
df3->v2=df2->v1=df1->v1=edgesplit_get(edgehash, mf->v1, mf->v2);
df2->v3=df1->v2=edgesplit_get(edgehash, mf->v2, mf->v3);
df3->v3=df1->v3=edgesplit_get(edgehash, mf->v1, mf->v4);
df3->v1=mf->v1;
df2->v2=mf->v2;
df1->v4=df2->v4=df3->v4=0;
mf->v1=df1->v3;
mf->v2=df1->v2;
facepa[i]=facepa[curdupface-3]=v3;
facepa[curdupface-1]=v1;
facepa[curdupface-2]=v2;
}
else{
df3->v1=df1->v1=edgesplit_get(edgehash, mf->v1, mf->v2);
df3->v3=df2->v1=df1->v2=edgesplit_get(edgehash, mf->v2, mf->v3);
df2->v3=df1->v3=edgesplit_get(edgehash, mf->v3, mf->v4);
df3->v2=mf->v2;
df2->v2=mf->v3;
df1->v4=df2->v4=df3->v4=0;
mf->v2=df1->v1;
mf->v3=df1->v3;
facepa[i]=facepa[curdupface-3]=v1;
facepa[curdupface-1]=v2;
facepa[curdupface-2]=v3;
}
test_index_face(df1, &splitdm->faceData, curdupface-3, (df1->v4 ? 4 : 3));
test_index_face(df1, &splitdm->faceData, curdupface-2, (df1->v4 ? 4 : 3));
test_index_face(df1, &splitdm->faceData, curdupface-1, (df1->v4 ? 4 : 3));
}
else if(*fs==4){
if(v1!=v2 && v2!=v3){
/* set new vert to face center */
mv=CDDM_get_vert(splitdm,mf->v1);
dupve=CDDM_get_vert(splitdm,curdupin);
DM_copy_vert_data(splitdm,splitdm,mf->v1,curdupin,1);
*dupve=*mv;
mv=CDDM_get_vert(splitdm,mf->v2);
VECADD(dupve->co,dupve->co,mv->co);
mv=CDDM_get_vert(splitdm,mf->v3);
VECADD(dupve->co,dupve->co,mv->co);
mv=CDDM_get_vert(splitdm,mf->v4);
VECADD(dupve->co,dupve->co,mv->co);
mul_v3_fl(dupve->co,0.25);
df1=CDDM_get_face(splitdm,curdupface);
DM_copy_face_data(splitdm,splitdm,i,curdupface,1);
*df1=*mf;
curdupface++;
df2=CDDM_get_face(splitdm,curdupface);
DM_copy_face_data(splitdm,splitdm,i,curdupface,1);
*df2=*mf;
curdupface++;
df3=CDDM_get_face(splitdm,curdupface);
DM_copy_face_data(splitdm,splitdm,i,curdupface,1);
*df3=*mf;
curdupface++;
df1->v1=edgesplit_get(edgehash, mf->v1, mf->v2);
df3->v2=df1->v3=edgesplit_get(edgehash, mf->v2, mf->v3);
df2->v1=edgesplit_get(edgehash, mf->v1, mf->v4);
df3->v4=df2->v3=edgesplit_get(edgehash, mf->v3, mf->v4);
df3->v1=df2->v2=df1->v4=curdupin;
mf->v2=df1->v1;
mf->v3=curdupin;
mf->v4=df2->v1;
curdupin++;
facepa[i]=v1;
facepa[curdupface-3]=v2;
facepa[curdupface-2]=v3;
facepa[curdupface-1]=v4;
test_index_face(df1, &splitdm->faceData, curdupface-3, (df1->v4 ? 4 : 3));
test_index_face(df1, &splitdm->faceData, curdupface-2, (df1->v4 ? 4 : 3));
test_index_face(df1, &splitdm->faceData, curdupface-1, (df1->v4 ? 4 : 3));
}
else{
df1=CDDM_get_face(splitdm,curdupface);
DM_copy_face_data(splitdm,splitdm,i,curdupface,1);
*df1=*mf;
curdupface++;
df2=CDDM_get_face(splitdm,curdupface);
DM_copy_face_data(splitdm,splitdm,i,curdupface,1);
*df2=*mf;
curdupface++;
df3=CDDM_get_face(splitdm,curdupface);
DM_copy_face_data(splitdm,splitdm,i,curdupface,1);
*df3=*mf;
curdupface++;
if(v2==v3){
df1->v1=edgesplit_get(edgehash, mf->v1, mf->v2);
df3->v1=df1->v2=df1->v3=edgesplit_get(edgehash, mf->v2, mf->v3);
df2->v1=df1->v4=edgesplit_get(edgehash, mf->v1, mf->v4);
df3->v3=df2->v3=edgesplit_get(edgehash, mf->v3, mf->v4);
df3->v2=mf->v3;
df3->v4=0;
mf->v2=df1->v1;
mf->v3=df1->v4;
mf->v4=0;
facepa[i]=v1;
facepa[curdupface-3]=facepa[curdupface-2]=v2;
facepa[curdupface-1]=v3;
}
else{
df3->v1=df2->v1=df1->v2=edgesplit_get(edgehash, mf->v1, mf->v2);
df2->v4=df1->v3=edgesplit_get(edgehash, mf->v3, mf->v4);
df1->v4=edgesplit_get(edgehash, mf->v1, mf->v4);
df3->v3=df2->v2=edgesplit_get(edgehash, mf->v2, mf->v3);
df3->v4=0;
mf->v1=df1->v4;
mf->v2=df1->v3;
mf->v3=mf->v4;
mf->v4=0;
facepa[i]=v4;
facepa[curdupface-3]=facepa[curdupface-2]=v1;
facepa[curdupface-1]=v2;
}
test_index_face(df1, &splitdm->faceData, curdupface-3, (df1->v4 ? 4 : 3));
test_index_face(df1, &splitdm->faceData, curdupface-2, (df1->v4 ? 4 : 3));
test_index_face(df1, &splitdm->faceData, curdupface-1, (df1->v4 ? 4 : 3));
}
}
test_index_face(df1, &splitdm->faceData, i, (df1->v4 ? 4 : 3));
}
test_index_face(mf, &splitdm->faceData, i, (mf->flag & ME_FACE_SEL ? 4 : 3));
}
BLI_edgehash_free(edgehash, NULL);
@ -675,6 +786,7 @@ static DerivedMesh * explodeMesh(ExplodeModifierData *emd,
int *facepa=emd->facepa;
int totdup=0,totvert=0,totface=0,totpart=0;
int i, j, v, mindex=0;
MTFace *mtface = NULL, *mtf;
totface= dm->getNumFaces(dm);
totvert= dm->getNumVerts(dm);
@ -724,6 +836,7 @@ static DerivedMesh * explodeMesh(ExplodeModifierData *emd,
/* the final duplicated vertices */
explode= CDDM_from_template(dm, totdup, 0,totface);
mtface = CustomData_get_layer_named(&explode->faceData, CD_MTFACE, emd->uvname);
/*dupvert= CDDM_get_verts(explode);*/
/* getting back to object space */
@ -800,16 +913,28 @@ static DerivedMesh * explodeMesh(ExplodeModifierData *emd,
else
mindex = totvert+facepa[i];
source.v1 = edgesplit_get(vertpahash, source.v1, mindex);
source.v2 = edgesplit_get(vertpahash, source.v2, mindex);
source.v3 = edgesplit_get(vertpahash, source.v3, mindex);
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 = edgesplit_get(vertpahash, source.v4, mindex);
source.v4 = edgecut_get(vertpahash, source.v4, mindex);
DM_copy_face_data(dm,explode,i,i,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 + i;
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->faceData, i, (orig_v4 ? 4 : 3));
}
@ -870,9 +995,9 @@ static DerivedMesh * applyModifier(ModifierData *md, Object *ob,
createFacepa(emd,psmd,derivedData);
}
/* 2. create new mesh */
if(emd->flag & eExplodeFlag_EdgeSplit){
if(emd->flag & eExplodeFlag_EdgeCut){
int *facepa = emd->facepa;
DerivedMesh *splitdm=splitEdges(emd,dm);
DerivedMesh *splitdm=cutEdges(emd,dm);
DerivedMesh *explode=explodeMesh(emd, psmd, md->scene, ob, splitdm);
MEM_freeN(emd->facepa);