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Fix part 1 of T43239, multisegment vertex bevel on 2-edge vertices.

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Implemented multisegment rounding of vertices with two edges.
Works both with wire edges and edges that have one or two faces
attached.
This commit is contained in:
Howard Trickey
2015-02-12 06:55:30 -05:00
parent 7f47cd9b17
commit dce59530d0
1 changed files with 48 additions and 11 deletions
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59
source/blender/bmesh/tools/bmesh_bevel.c
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@@ -2710,23 +2710,60 @@ static void bevel_build_quadstrip(BevelParams *bp, BMesh *bm, BevVert *bv)
} }
} }
/* Special case: there is no vmesh pattern because this has only two boundary verts, /* Special case: vertex bevel with only two boundary verts.
* and there are no faces in the original mesh at the original vertex. * Want to make a curved edge if seg > 0.
* Since there will be no rebuilt face to make the edge between the boundary verts, * If there are no faces in the original mesh at the original vertex,
* there will be no rebuilt face to make the edge between the boundary verts,
* we have to make it here. */ * we have to make it here. */
static void bevel_build_one_wire(BMesh *bm, BevVert *bv) static void bevel_vert_two_edges(BevelParams *bp, BMesh *bm, BevVert *bv)
{ {
VMesh *vm = bv->vmesh; VMesh *vm = bv->vmesh;
BMVert *v1, *v2; BMVert *v1, *v2;
BMEdge *e_eg; BMEdge *e_eg;
Profile *pro;
float co[3];
BoundVert *bndv;
int ns, k;
BLI_assert(vm->count == 2); BLI_assert(vm->count == 2 && bp->vertex_only);
v1 = mesh_vert(vm, 0, 0, 0)->v; v1 = mesh_vert(vm, 0, 0, 0)->v;
v2 = mesh_vert(vm, 1, 0, 0)->v; v2 = mesh_vert(vm, 1, 0, 0)->v;
e_eg = bv->edges[0].e;
BLI_assert(v1 != NULL && v2 != NULL && e_eg != NULL); ns = vm->seg;
BM_edge_create(bm, v1, v2, e_eg, BM_CREATE_NO_DOUBLE); if (ns > 1) {
/* Set up profile parameters */
bndv = vm->boundstart;
pro = &bndv->profile;
pro->super_r = bp->pro_super_r;
copy_v3_v3(pro->coa, v1->co);
copy_v3_v3(pro->cob, v2->co);
copy_v3_v3(pro->midco, bv->v->co);
/* don't use projection */
zero_v3(pro->plane_co);
zero_v3(pro->plane_no);
zero_v3(pro->proj_dir);
calculate_profile(bp, bndv);
for (k = 1; k < ns; k++) {
get_profile_point(bp, pro, k, ns, co);
copy_v3_v3(mesh_vert(vm, 0, 0, k)->co, co);
create_mesh_bmvert(bm, vm, 0, 0, k, bv->v);
}
copy_v3_v3(mesh_vert(vm, 0, 0, ns)->co, v2->co);
for (k = 1; k < ns; k++)
copy_mesh_vert(vm, 1, 0, ns - k, 0, 0, k);
}
if (BM_vert_face_count(bv->v) == 0) {
e_eg = bv->edges[0].e;
BLI_assert(e_eg != NULL);
for (k = 0; k < ns; k++) {
v1 = mesh_vert(vm, 0, 0, k)->v;
v2 = mesh_vert(vm, 0, 0, k + 1)->v;
BLI_assert(v1 != NULL && v2 != NULL);
BM_edge_create(bm, v1, v2, e_eg, BM_CREATE_NO_DOUBLE);
}
}
} }
/* Given that the boundary is built, now make the actual BMVerts /* Given that the boundary is built, now make the actual BMVerts
@@ -2812,8 +2849,8 @@ static void build_vmesh(BevelParams *bp, BMesh *bm, BevVert *bv)
switch (vm->mesh_kind) { switch (vm->mesh_kind) {
case M_NONE: case M_NONE:
if (n == 2 && BM_vert_face_count(bv->v) == 0) if (n == 2 && bp->vertex_only)
bevel_build_one_wire(bm, bv); bevel_vert_two_edges(bp, bm, bv);
break; break;
case M_POLY: case M_POLY:
bevel_build_poly(bp, bm, bv); bevel_build_poly(bp, bm, bv);
@@ -3170,7 +3207,7 @@ static bool bev_rebuild_polygon(BMesh *bm, BevelParams *bp, BMFace *f)
BLI_array_append(vv_fix, bmv); BLI_array_append(vv_fix, bmv);
} }
} }
else if (vm->mesh_kind == M_ADJ && vm->seg > 1 && !e->is_bev && !eprev->is_bev) { else if ((vm->mesh_kind == M_ADJ || bp->vertex_only) && vm->seg > 1 && !e->is_bev && !eprev->is_bev) {
BLI_assert(v->prev == vend); BLI_assert(v->prev == vend);
i = vend->index; i = vend->index;
for (k = vm->seg - 1; k > 0; k--) { for (k = vm->seg - 1; k > 0; k--) {