int
_ged_scale_rhc(struct ged *gedp, struct rt_rhc_internal *rhc, const char *attribute, fastf_t sf, int rflag)
{
RT_RHC_CK_MAGIC(rhc);
switch (attribute[0]) {
case 'b':
case 'B':
if (!rflag)
sf /= MAGNITUDE(rhc->rhc_B);
VSCALE(rhc->rhc_B, rhc->rhc_B, sf);
break;
case 'h':
case 'H':
if (!rflag)
sf /= MAGNITUDE(rhc->rhc_H);
VSCALE(rhc->rhc_H, rhc->rhc_H, sf);
break;
case 'c':
case 'C':
if (rflag)
rhc->rhc_c *= sf;
else
rhc->rhc_c = sf;
break;
case 'r':
case 'R':
if (rflag)
rhc->rhc_r *= sf;
else
rhc->rhc_r = sf;
break;
default:
bu_vls_printf(gedp->ged_result_str, "bad rhc attribute - %s", attribute);
return GED_ERROR;
}
return GED_OK;
}
/*
* Default keypoint in model space is established in "pt". Returns
* GED_ERROR if unable to determine a keypoint, otherwise returns
* GED_OK.
*/
int
_ged_get_solid_keypoint(struct ged *const gedp,
fastf_t *const pt,
const struct rt_db_internal *const ip,
const fastf_t *const mat)
{
point_t mpt;
RT_CK_DB_INTERNAL(ip);
switch (ip->idb_type) {
case ID_CLINE:
{
struct rt_cline_internal *cli =
(struct rt_cline_internal *)ip->idb_ptr;
RT_CLINE_CK_MAGIC(cli);
VMOVE(mpt, cli->v);
break;
}
case ID_PARTICLE:
{
struct rt_part_internal *part =
(struct rt_part_internal *)ip->idb_ptr;
RT_PART_CK_MAGIC(part);
VMOVE(mpt, part->part_V);
break;
}
case ID_PIPE:
{
struct rt_pipe_internal *pipeip;
struct wdb_pipept *pipe_seg;
pipeip = (struct rt_pipe_internal *)ip->idb_ptr;
RT_PIPE_CK_MAGIC(pipeip);
pipe_seg = BU_LIST_FIRST(wdb_pipept, &pipeip->pipe_segs_head);
VMOVE(mpt, pipe_seg->pp_coord);
break;
}
case ID_METABALL:
{
struct rt_metaball_internal *metaball =
(struct rt_metaball_internal *)ip->idb_ptr;
struct wdb_metaballpt *metaballpt;
RT_METABALL_CK_MAGIC(metaball);
VSETALL(mpt, 0.0);
metaballpt = BU_LIST_FIRST(wdb_metaballpt,
&metaball->metaball_ctrl_head);
VMOVE(mpt, metaballpt->coord);
break;
}
case ID_ARBN:
{
struct rt_arbn_internal *arbn =
(struct rt_arbn_internal *)ip->idb_ptr;
size_t i, j, k;
int good_vert = 0;
RT_ARBN_CK_MAGIC(arbn);
for (i = 0; i < arbn->neqn; i++) {
for (j = i + 1; j < arbn->neqn; j++) {
for (k = j + 1; k < arbn->neqn; k++) {
if (!bn_mkpoint_3planes(mpt, arbn->eqn[i],
arbn->eqn[j],
arbn->eqn[k])) {
size_t l;
good_vert = 1;
for (l = 0; l < arbn->neqn; l++) {
if (l == i || l == j || l == k)
continue;
if (DIST_PT_PLANE(mpt,
arbn->eqn[l]) >
gedp->ged_wdbp->wdb_tol.dist) {
good_vert = 0;
break;
}
}
if (good_vert)
break;
}
}
if (good_vert)
break;
}
if (good_vert)
break;
}
break;
}
case ID_EBM:
{
struct rt_ebm_internal *ebm =
(struct rt_ebm_internal *)ip->idb_ptr;
point_t pnt;
RT_EBM_CK_MAGIC(ebm);
VSETALL(pnt, 0.0);
MAT4X3PNT(mpt, ebm->mat, pnt);
break;
}
case ID_BOT:
{
struct rt_bot_internal *bot =
(struct rt_bot_internal *)ip->idb_ptr;
VMOVE(mpt, bot->vertices);
break;
}
case ID_DSP:
{
struct rt_dsp_internal *dsp =
(struct rt_dsp_internal *)ip->idb_ptr;
point_t pnt;
RT_DSP_CK_MAGIC(dsp);
VSETALL(pnt, 0.0);
MAT4X3PNT(mpt, dsp->dsp_stom, pnt);
break;
}
case ID_HF:
{
struct rt_hf_internal *hf =
(struct rt_hf_internal *)ip->idb_ptr;
RT_HF_CK_MAGIC(hf);
VMOVE(mpt, hf->v);
break;
}
case ID_VOL:
{
struct rt_vol_internal *vol =
(struct rt_vol_internal *)ip->idb_ptr;
point_t pnt;
RT_VOL_CK_MAGIC(vol);
VSETALL(pnt, 0.0);
MAT4X3PNT(mpt, vol->mat, pnt);
break;
}
case ID_HALF:
{
struct rt_half_internal *haf =
(struct rt_half_internal *)ip->idb_ptr;
RT_HALF_CK_MAGIC(haf);
VSCALE(mpt, haf->eqn, haf->eqn[H]);
break;
}
case ID_ARB8:
{
struct rt_arb_internal *arb =
(struct rt_arb_internal *)ip->idb_ptr;
RT_ARB_CK_MAGIC(arb);
VMOVE(mpt, arb->pt[0]);
break;
}
case ID_ELL:
case ID_SPH:
{
struct rt_ell_internal *ell =
(struct rt_ell_internal *)ip->idb_ptr;
RT_ELL_CK_MAGIC(ell);
VMOVE(mpt, ell->v);
break;
}
case ID_SUPERELL:
{
struct rt_superell_internal *superell =
(struct rt_superell_internal *)ip->idb_ptr;
RT_SUPERELL_CK_MAGIC(superell);
VMOVE(mpt, superell->v);
break;
}
case ID_TOR:
{
struct rt_tor_internal *tor =
(struct rt_tor_internal *)ip->idb_ptr;
RT_TOR_CK_MAGIC(tor);
VMOVE(mpt, tor->v);
break;
}
case ID_TGC:
case ID_REC:
{
struct rt_tgc_internal *tgc =
(struct rt_tgc_internal *)ip->idb_ptr;
RT_TGC_CK_MAGIC(tgc);
VMOVE(mpt, tgc->v);
break;
}
case ID_GRIP:
{
struct rt_grip_internal *gip =
(struct rt_grip_internal *)ip->idb_ptr;
RT_GRIP_CK_MAGIC(gip);
VMOVE(mpt, gip->center);
break;
}
case ID_ARS:
{
struct rt_ars_internal *ars =
(struct rt_ars_internal *)ip->idb_ptr;
RT_ARS_CK_MAGIC(ars);
VMOVE(mpt, &ars->curves[0][0]);
break;
}
case ID_RPC:
{
struct rt_rpc_internal *rpc =
(struct rt_rpc_internal *)ip->idb_ptr;
RT_RPC_CK_MAGIC(rpc);
VMOVE(mpt, rpc->rpc_V);
break;
}
case ID_RHC:
{
struct rt_rhc_internal *rhc =
(struct rt_rhc_internal *)ip->idb_ptr;
RT_RHC_CK_MAGIC(rhc);
VMOVE(mpt, rhc->rhc_V);
break;
}
case ID_EPA:
{
struct rt_epa_internal *epa =
(struct rt_epa_internal *)ip->idb_ptr;
RT_EPA_CK_MAGIC(epa);
VMOVE(mpt, epa->epa_V);
break;
}
case ID_EHY:
{
struct rt_ehy_internal *ehy =
(struct rt_ehy_internal *)ip->idb_ptr;
RT_EHY_CK_MAGIC(ehy);
VMOVE(mpt, ehy->ehy_V);
break;
}
case ID_HYP:
{
struct rt_hyp_internal *hyp =
(struct rt_hyp_internal *)ip->idb_ptr;
RT_HYP_CK_MAGIC(hyp);
VMOVE(mpt, hyp->hyp_Vi);
break;
}
case ID_ETO:
{
struct rt_eto_internal *eto =
(struct rt_eto_internal *)ip->idb_ptr;
RT_ETO_CK_MAGIC(eto);
VMOVE(mpt, eto->eto_V);
break;
}
case ID_POLY:
{
struct rt_pg_face_internal *_poly;
struct rt_pg_internal *pg =
(struct rt_pg_internal *)ip->idb_ptr;
RT_PG_CK_MAGIC(pg);
_poly = pg->poly;
VMOVE(mpt, _poly->verts);
break;
}
case ID_SKETCH:
{
struct rt_sketch_internal *skt =
(struct rt_sketch_internal *)ip->idb_ptr;
RT_SKETCH_CK_MAGIC(skt);
VMOVE(mpt, skt->V);
break;
}
case ID_EXTRUDE:
{
struct rt_extrude_internal *extr =
(struct rt_extrude_internal *)ip->idb_ptr;
RT_EXTRUDE_CK_MAGIC(extr);
if (extr->skt && extr->skt->verts) {
VJOIN2(mpt, extr->V, extr->skt->verts[0][0], extr->u_vec,
extr->skt->verts[0][1], extr->v_vec);
} else {
VMOVE(mpt, extr->V);
}
break;
}
case ID_NMG:
{
struct vertex *v;
struct vertexuse *vu;
struct edgeuse *eu;
struct loopuse *lu;
struct faceuse *fu;
struct shell *s;
struct nmgregion *r;
struct model *m =
(struct model *) ip->idb_ptr;
NMG_CK_MODEL(m);
/* set default first */
VSETALL(mpt, 0.0);
if (BU_LIST_IS_EMPTY(&m->r_hd))
break;
r = BU_LIST_FIRST(nmgregion, &m->r_hd);
if (!r)
break;
NMG_CK_REGION(r);
if (BU_LIST_IS_EMPTY(&r->s_hd))
break;
s = BU_LIST_FIRST(shell, &r->s_hd);
if (!s)
break;
NMG_CK_SHELL(s);
if (BU_LIST_IS_EMPTY(&s->fu_hd))
fu = (struct faceuse *)NULL;
else
fu = BU_LIST_FIRST(faceuse, &s->fu_hd);
if (fu) {
NMG_CK_FACEUSE(fu);
lu = BU_LIST_FIRST(loopuse, &fu->lu_hd);
NMG_CK_LOOPUSE(lu);
if (BU_LIST_FIRST_MAGIC(&lu->down_hd) == NMG_EDGEUSE_MAGIC) {
eu = BU_LIST_FIRST(edgeuse, &lu->down_hd);
NMG_CK_EDGEUSE(eu);
NMG_CK_VERTEXUSE(eu->vu_p);
v = eu->vu_p->v_p;
} else {
vu = BU_LIST_FIRST(vertexuse, &lu->down_hd);
NMG_CK_VERTEXUSE(vu);
v = vu->v_p;
}
NMG_CK_VERTEX(v);
if (!v->vg_p)
break;
VMOVE(mpt, v->vg_p->coord);
break;
}
if (BU_LIST_IS_EMPTY(&s->lu_hd))
lu = (struct loopuse *)NULL;
else
lu = BU_LIST_FIRST(loopuse, &s->lu_hd);
if (lu) {
NMG_CK_LOOPUSE(lu);
if (BU_LIST_FIRST_MAGIC(&lu->down_hd) == NMG_EDGEUSE_MAGIC) {
eu = BU_LIST_FIRST(edgeuse, &lu->down_hd);
NMG_CK_EDGEUSE(eu);
NMG_CK_VERTEXUSE(eu->vu_p);
v = eu->vu_p->v_p;
} else {
vu = BU_LIST_FIRST(vertexuse, &lu->down_hd);
NMG_CK_VERTEXUSE(vu);
v = vu->v_p;
}
NMG_CK_VERTEX(v);
if (!v->vg_p)
break;
VMOVE(mpt, v->vg_p->coord);
break;
}
if (BU_LIST_IS_EMPTY(&s->eu_hd))
eu = (struct edgeuse *)NULL;
else
eu = BU_LIST_FIRST(edgeuse, &s->eu_hd);
if (eu) {
NMG_CK_EDGEUSE(eu);
NMG_CK_VERTEXUSE(eu->vu_p);
v = eu->vu_p->v_p;
NMG_CK_VERTEX(v);
if (!v->vg_p)
break;
VMOVE(mpt, v->vg_p->coord);
break;
}
vu = s->vu_p;
if (vu) {
NMG_CK_VERTEXUSE(vu);
v = vu->v_p;
NMG_CK_VERTEX(v);
if (!v->vg_p)
break;
VMOVE(mpt, v->vg_p->coord);
break;
}
}
default:
VSETALL(mpt, 0.0);
bu_vls_printf(gedp->ged_result_str,
"get_solid_keypoint: unrecognized solid type");
return GED_ERROR;
}
MAT4X3PNT(pt, mat, mpt);
return GED_OK;
}
