static DerivedMesh *triangulate_dm(DerivedMesh *dm, const int quad_method, const int ngon_method)
{
DerivedMesh *result;
BMesh *bm;
int total_edges, i;
MEdge *me;
bm = DM_to_bmesh(dm, true);
BM_mesh_triangulate(bm, quad_method, ngon_method, false, NULL, NULL);
result = CDDM_from_bmesh(bm, false);
BM_mesh_free(bm);
total_edges = result->getNumEdges(result);
me = CDDM_get_edges(result);
/* force drawing of all edges (seems to be omitted in CDDM_from_bmesh) */
for (i = 0; i < total_edges; i++, me++)
me->flag |= ME_EDGEDRAW | ME_EDGERENDER;
result->dirty |= DM_DIRTY_NORMALS;
return result;
}
static DerivedMesh *WireframeModifier_do(WireframeModifierData *wmd, Object *ob, DerivedMesh *dm)
{
DerivedMesh *result;
BMesh *bm;
const int defgrp_index = defgroup_name_index(ob, wmd->defgrp_name);
bm = DM_to_bmesh(dm, true);
BM_mesh_wireframe(
bm,
wmd->offset, wmd->offset_fac, wmd->offset_fac_vg,
(wmd->flag & MOD_WIREFRAME_REPLACE) != 0,
(wmd->flag & MOD_WIREFRAME_BOUNDARY) != 0,
(wmd->flag & MOD_WIREFRAME_OFS_EVEN) != 0,
(wmd->flag & MOD_WIREFRAME_OFS_RELATIVE) != 0,
(wmd->flag & MOD_WIREFRAME_CREASE) != 0,
wmd->crease_weight,
defgrp_index,
(wmd->flag & MOD_WIREFRAME_INVERT_VGROUP) != 0,
wmd->mat_ofs,
MAX2(ob->totcol - 1, 0),
false);
result = CDDM_from_bmesh(bm, true);
BM_mesh_free(bm);
result->dirty |= DM_DIRTY_NORMALS;
return result;
}
static DerivedMesh *applyModifier(ModifierData *md, Object *ob,
DerivedMesh *derivedData,
ModifierApplyFlag UNUSED(flag))
{
DecimateModifierData *dmd = (DecimateModifierData *) md;
DerivedMesh *dm = derivedData, *result = NULL;
BMesh *bm;
bool calc_face_normal;
float *vweights = NULL;
#ifdef USE_TIMEIT
TIMEIT_START(decim);
#endif
/* set up front so we dont show invalid info in the UI */
dmd->face_count = dm->getNumPolys(dm);
switch (dmd->mode) {
case MOD_DECIM_MODE_COLLAPSE:
if (dmd->percent == 1.0f) {
return dm;
}
calc_face_normal = true;
break;
case MOD_DECIM_MODE_UNSUBDIV:
if (dmd->iter == 0) {
return dm;
}
calc_face_normal = false;
break;
case MOD_DECIM_MODE_DISSOLVE:
if (dmd->angle == 0.0f) {
return dm;
}
calc_face_normal = true;
break;
default:
return dm;
}
if (dmd->face_count <= 3) {
modifier_setError(md, "Modifier requires more than 3 input faces");
return dm;
}
if (dmd->mode == MOD_DECIM_MODE_COLLAPSE) {
if (dmd->defgrp_name[0]) {
MDeformVert *dvert;
int defgrp_index;
modifier_get_vgroup(ob, dm, dmd->defgrp_name, &dvert, &defgrp_index);
if (dvert) {
const unsigned int vert_tot = dm->getNumVerts(dm);
unsigned int i;
vweights = MEM_mallocN(vert_tot * sizeof(float), __func__);
if (dmd->flag & MOD_DECIM_FLAG_INVERT_VGROUP) {
for (i = 0; i < vert_tot; i++) {
const float f = 1.0f - defvert_find_weight(&dvert[i], defgrp_index);
vweights[i] = f > BM_MESH_DECIM_WEIGHT_EPS ? (1.0f / f) : BM_MESH_DECIM_WEIGHT_MAX;
}
}
else {
for (i = 0; i < vert_tot; i++) {
const float f = defvert_find_weight(&dvert[i], defgrp_index);
vweights[i] = f > BM_MESH_DECIM_WEIGHT_EPS ? (1.0f / f) : BM_MESH_DECIM_WEIGHT_MAX;
}
}
}
}
}
bm = DM_to_bmesh(dm, calc_face_normal);
switch (dmd->mode) {
case MOD_DECIM_MODE_COLLAPSE:
{
const int do_triangulate = (dmd->flag & MOD_DECIM_FLAG_TRIANGULATE) != 0;
BM_mesh_decimate_collapse(bm, dmd->percent, vweights, do_triangulate);
break;
}
case MOD_DECIM_MODE_UNSUBDIV:
{
BM_mesh_decimate_unsubdivide(bm, dmd->iter);
break;
}
case MOD_DECIM_MODE_DISSOLVE:
{
const int do_dissolve_boundaries = (dmd->flag & MOD_DECIM_FLAG_ALL_BOUNDARY_VERTS) != 0;
BM_mesh_decimate_dissolve(bm, dmd->angle, do_dissolve_boundaries, (BMO_Delimit)dmd->delimit);
break;
}
}
if (vweights) {
MEM_freeN(vweights);
}
/* update for display only */
dmd->face_count = bm->totface;
result = CDDM_from_bmesh(bm, false);
BLI_assert(bm->vtoolflagpool == NULL &&
bm->etoolflagpool == NULL &&
bm->ftoolflagpool == NULL); /* make sure we never alloc'd these */
BLI_assert(bm->vtable == NULL &&
bm->etable == NULL &&
bm->ftable == NULL);
BM_mesh_free(bm);
#ifdef USE_TIMEIT
TIMEIT_END(decim);
#endif
result->dirty = DM_DIRTY_NORMALS;
return result;
}
