static ON_Surface* CreatePlanarSurface( 
                             const ON_3dPoint& SW, const ON_3dPoint& SE,
                             const ON_3dPoint& NE, const ON_3dPoint& NW
                             )
{
  ON_NurbsSurface* pNurbsSurface = new ON_NurbsSurface(
                                        3,     // dimension (>= 1)
                                        FALSE, // not rational
                                        2,     // "u" order (>= 2)
                                        2,     // "v" order (>= 2)
                                        2,     // number of control vertices in "u" dir (>= order)
                                        2      // number of control vertices in "v" dir (>= order)
                                        );
  // corner CVs in counter clockwise order starting in the south west
  pNurbsSurface->SetCV( 0,0, SW );
  pNurbsSurface->SetCV( 1,0, SE );
  pNurbsSurface->SetCV( 1,1, NE );
  pNurbsSurface->SetCV( 0,1, NW );
  // "u" knots
  pNurbsSurface->SetKnot( 0,0, 0.0 );
  pNurbsSurface->SetKnot( 0,1, 1.0 );
  // "v" knots
  pNurbsSurface->SetKnot( 1,0, 0.0 );
  pNurbsSurface->SetKnot( 1,1, 1.0 );

  return pNurbsSurface;
}
static ON_Surface* TwistedCubeSideSurface( 
                             const ON_3dPoint& SW, const ON_3dPoint& SE,
                             const ON_3dPoint& NE, const ON_3dPoint& NW
                             )
{
  ON_NurbsSurface* pNurbsSurface = new ON_NurbsSurface(
                                        3,     // dimension
                                        false, // not rational
                                        2,     // "u" order
                                        2,     // "v" order
                                        2,     // number of control vertices in "u" dir
                                        2      // number of control vertices in "v" dir
                                        );
  // corner CVs in counter clockwise order starting in the south west
  pNurbsSurface->SetCV( 0,0, SW );
  pNurbsSurface->SetCV( 1,0, SE );
  pNurbsSurface->SetCV( 1,1, NE );
  pNurbsSurface->SetCV( 0,1, NW );
  // "u" knots
  pNurbsSurface->SetKnot( 0,0, 0.0 );
  pNurbsSurface->SetKnot( 0,1, 1.0 );
  // "v" knots
  pNurbsSurface->SetKnot( 1,0, 0.0 );
  pNurbsSurface->SetKnot( 1,1, 1.0 );

  return pNurbsSurface;
}
Esempio n. 3
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extern "C" void
rt_nurb_brep(ON_Brep **b, const struct rt_db_internal *ip, const struct bn_tol *)
{
    int i, j, k;
    struct rt_nurb_internal *nip;

    RT_CK_DB_INTERNAL(ip);
    nip = (struct rt_nurb_internal *)ip->idb_ptr;
    RT_NURB_CK_MAGIC(nip);

    ON_TextLog log(stderr);

    for (i = 0; i < nip->nsrf; i++) {
	struct face_g_snurb *surface = nip->srfs[i];
	NMG_CK_SNURB(surface);

	ON_NurbsSurface *nurb = ON_NurbsSurface::New(3, true, surface->order[0], surface->order[1], surface->s_size[0], surface->s_size[1]);

	/* set 'u' knots */
	/* skip first and last (duplicates?) */
	for (j = 1; j < surface->u.k_size - 1; j++) {
	    nurb->SetKnot(0, j-1, surface->u.knots[j]);
	    /* bu_log("u knot %d is %f\n", j-1, surface->u.knots[j]); */
	}
	/* set 'v' knots */
	/* skip first and last (duplicates?) */
	for (j = 1; j < surface->v.k_size - 1; j++) {
	    nurb->SetKnot(1, j-1, surface->v.knots[j]);
	    /* bu_log("v knot %d is %f\n", j-1, surface->u.knots[j]); */
	}

	/* set control points */
	for (j = 0; j < surface->s_size[0]; j++) {
	    for (k = 0; k < surface->s_size[1]; k++) {
		ON_3dPoint point = &RT_NURB_GET_CONTROL_POINT(surface, j, k);
		nurb->SetCV(k, j, point);
	    }
	}

	/* nurb->Dump(log); */
	bu_log("NURBS surface %d %s valid\n", i, nurb->IsValid(&log) ? "is" : "is not");

	(*b)->m_S.Append(nurb);
	int sindex = (*b)->m_S.Count();
	(*b)->NewFace(sindex - 1);
	int findex = (*b)->m_F.Count();
	(*b)->NewOuterLoop(findex - 1);
    }

    bu_log("BREP object %s a single surface\n", (*b)->IsSurface() ? "is" : "is not");
    bu_log("BREP object %s valid\n", (*b)->IsValid(&log) ? "is" : "is not");
    bu_log("BREP object %s valid topology\n", (*b)->IsValidTopology(&log) ? "is" : "is not");
    bu_log("BREP object %s valid geometry\n", (*b)->IsValidGeometry(&log) ? "is" : "is not");
    bu_log("BREP object %s solid\n", (*b)->IsSolid() ? "is" : "is not");
    bu_log("BREP object %s manifold\n", (*b)->IsManifold() ? "is" : "is not");
}
Esempio n. 4
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HIDDEN ON_Surface*
sideSurface(const ON_3dPoint& SW, const ON_3dPoint& SE, const ON_3dPoint& NE, const ON_3dPoint& NW)
{
    ON_NurbsSurface *surf = ON_NurbsSurface::New(3, 0, 2, 2, 2, 2);
    surf->SetCV(0, 0, SW);
    surf->SetCV(1, 0, SE);
    surf->SetCV(1, 1, NE);
    surf->SetCV(0, 1, NW);
    surf->SetKnot(0, 0, 0.0);
    surf->SetKnot(0, 1, 1.0);
    surf->SetKnot(1, 0, 0.0);
    surf->SetKnot(1, 1, 1.0);
    return surf;
}
Esempio n. 5
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ON_Surface*
TwistedCubeSideSurface(const ON_3dPoint& SW, const ON_3dPoint& SE, const ON_3dPoint& NE, const ON_3dPoint& NW)
{
    ON_NurbsSurface* pNurbsSurface = new ON_NurbsSurface(3, // dimension
							 FALSE, // not rational
							 2, // u order
							 2, // v order,
							 2, // number of control vertices in u
							 2 // number of control verts in v
	);
    pNurbsSurface->SetCV(0, 0, SW);
    pNurbsSurface->SetCV(1, 0, SE);
    pNurbsSurface->SetCV(1, 1, NE);
    pNurbsSurface->SetCV(0, 1, NW);
    // u knots
    pNurbsSurface->SetKnot(0, 0, 0.0);
    pNurbsSurface->SetKnot(0, 1, 1.0);
    // v knots
    pNurbsSurface->SetKnot(1, 0, 0.0);
    pNurbsSurface->SetKnot(1, 1, 1.0);

    return pNurbsSurface;
}