netgen/libsrc/csg/edgeflw.cpp

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#include <mystdlib.h>
#include <meshing.hpp>
#include <csg.hpp>
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// #undef DEVELOP
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// #define DEVELOP
namespace netgen
{
EdgeCalculation ::
EdgeCalculation (const CSGeometry & ageometry,
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NgArray<SpecialPoint> & aspecpoints,
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MeshingParameters & amparam)
: geometry(ageometry), specpoints(aspecpoints), mparam(amparam)
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{
Box<3> bbox = geometry.BoundingBox();
searchtree = new Point3dTree (bbox.PMin(), bbox.PMax());
meshpoint_tree = new Point3dTree (bbox.PMin(), bbox.PMax());
for (int i = 0; i < specpoints.Size(); i++)
searchtree->Insert (specpoints[i].p, i);
ideps = 1e-9;
}
EdgeCalculation :: ~EdgeCalculation()
{
delete searchtree;
delete meshpoint_tree;
}
void EdgeCalculation :: Calc(double h, Mesh & mesh)
{
static int timer = NgProfiler::CreateTimer ("CSG: mesh edges");
NgProfiler::RegionTimer reg (timer);
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PrintMessage (1, "Find edges");
PushStatus ("Find edges");
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for (PointIndex pi : mesh.Points().Range())
meshpoint_tree->Insert (mesh[pi], pi);
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// add all special points before edge points (important for periodic identification)
// JS, Jan 2007
const double di=1e-7*geometry.MaxSize();
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NgArray<int> locsearch;
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for (int i = 0; i < specpoints.Size(); i++)
if (specpoints[i].unconditional)
{
Point<3> p = specpoints[i].p;
meshpoint_tree -> GetIntersecting (p-Vec<3> (di,di,di),
p+Vec<3> (di,di,di), locsearch);
if (locsearch.Size() == 0)
{
PointIndex pi = mesh.AddPoint (p, specpoints[i].GetLayer(), FIXEDPOINT);
meshpoint_tree -> Insert (p, pi);
}
}
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/*
// slow version
for (int i = 0; i < specpoints.Size(); i++)
if (specpoints[i].unconditional)
{
Point<3> p = specpoints[i].p;
bool found = false;
for (int j = 1; j <= mesh.GetNP(); j++)
if (Dist (p, mesh.Point(j)) < 1e-8)
found = true;
if (!found)
mesh.AddPoint (p, specpoints[i].GetLayer(), FIXEDPOINT);
}
*/
CalcEdges1 (h, mesh);
SplitEqualOneSegEdges (mesh);
FindClosedSurfaces (h, mesh);
PrintMessage (3, cntedge, " edges found");
PopStatus ();
}
void EdgeCalculation :: CalcEdges1 (double h, Mesh & mesh)
{
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NgArray<int> hsp(specpoints.Size());
NgArray<int> glob2hsp(specpoints.Size());
NgArray<int> startpoints, endpoints;
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int pos, ep;
int layer;
Point<3> p, np;
int pi1, s1, s2, s1_orig, s2_orig;
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NgArray<Point<3> > edgepoints;
NgArray<double> curvelength;
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int copyedge = 0, copyfromedge = -1, copyedgeidentification = -1;
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NgArray<int> locsurfind, locind;
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int checkedcopy = 0;
// double size = geometry.MaxSize();
// double epspointdist2 = sqr (size) * 1e-12;
// copy special points to work with
for (int i = 0; i < specpoints.Size(); i++)
{
hsp[i] = i;
glob2hsp[i] = i;
}
//for(int i=0; i<hsp.Size(); i++)
// (*testout) << "hsp["<<i<<"] ... " << specpoints[hsp[i]].p << endl;
cntedge = 0;
INDEX_2_HASHTABLE<int> identification_used(100); // identification i already used for startpoint j
mesh.GetIdentifications().Delete();
TABLE<int> specpoint2surface(specpoints.Size());
if (geometry.identifications.Size())
{
for (int i = 0; i < specpoints.Size(); i++)
for (int j = 0; j < geometry.GetNSurf(); j++)
if (geometry.GetSurface(j)->PointOnSurface (specpoints[i].p))
specpoint2surface.Add (i, j);
}
TABLE<int> specpoint2tlo(specpoints.Size());
if (geometry.identifications.Size())
{
for (int i = 0; i < specpoints.Size(); i++)
for (int j = 0; j < geometry.GetNTopLevelObjects(); j++)
{
const TopLevelObject * tlo = geometry.GetTopLevelObject (j);
if (tlo->GetSolid() && tlo->GetSolid()->VectorIn (specpoints[i].p,specpoints[i].v))
//if (tlo->GetSolid() && tlo->GetSolid()->IsIn (specpoints[i].p))
{
#ifdef DEVELOP
(*testout) << "point " << specpoints[i].p << " v " <<specpoints[i].v <<" is in " << tlo->GetSolid()->Name() << endl;
#endif
specpoint2tlo.Add (i, j);
}
}
}
for (int i = 0; i < specpoints.Size(); i++)
specpoints[i].nr = i;
while (hsp.Size())
{
SetThreadPercent(100 - 100 * double (hsp.Size()) / specpoints.Size());
#ifdef DEVELOP
(*testout) << "hsp.Size() " << hsp.Size() << " specpoints.Size() " << specpoints.Size() << endl;
(*testout) << endl << "edge nr " << cntedge+1 << endl;
#endif
edgepoints.SetSize (0);
curvelength.SetSize (0);
pi1 = 0;
copyedge = 0;
// identifyable point available ?
for (int i = 0; i < geometry.identifications.Size() && !pi1; i++)
for (int j = checkedcopy; j < startpoints.Size() && !pi1; j++)
{
#ifdef DEVELOP
(*testout) << "checking point " << specpoints[startpoints[j]].p
<< ", v = " << specpoints[startpoints[j]].v
<< " for copying (i,j = " << i << ", " << j << ")" << endl;
#endif
if (geometry.identifications[i]->IdentifyableCandidate (specpoints[startpoints[j]]) &&
geometry.identifications[i]->IdentifyableCandidate (specpoints[endpoints[j]]))
{
int pi1cand = 0;
double mindist = 1e10;
for (int k = 0; k < hsp.Size() && !pi1; k++)
{
//(*testout) << " ? identifyable with " << specpoints[hsp[k]].p
//<< ", v = " << specpoints[hsp[k]].v
// << endl;
if (identification_used.Used (INDEX_2(i, startpoints[j])) ||
identification_used.Used (INDEX_2(i, hsp[k])))
{
//(*testout) << "failed at pos0" << endl;
continue;
}
if (geometry.identifications[i]
->Identifyable(specpoints[startpoints[j]], specpoints[hsp[k]], specpoint2tlo, specpoint2surface) ||
geometry.identifications[i]
->Identifyable(specpoints[hsp[k]], specpoints[startpoints[j]], specpoint2tlo, specpoint2surface))
{
#ifdef DEVELOP
(*testout) << "identifyable: " << specpoints[hsp[k]].p << ", v = " << specpoints[hsp[k]].v
<< " and " << specpoints[startpoints[j]].p << ", v = " << specpoints[startpoints[j]].v
<< " (identification " << i+1 << ")" << endl;
#endif
if (Dist (specpoints[startpoints[j]].p, specpoints[hsp[k]].p) < mindist)
{
mindist = Dist (specpoints[startpoints[j]].p, specpoints[hsp[k]].p);
pi1cand = k+1;
}
}
}
if (pi1cand)
{
pi1 = pi1cand;
copyedge = 1;
copyfromedge = j+1;
copyedgeidentification = i+1;
identification_used.Set (INDEX_2(i, startpoints[j]), 1);
identification_used.Set (INDEX_2(i, hsp.Get(pi1)), 1);
}
}
}
// cannot copy from other ege ?
if (!pi1)
checkedcopy = startpoints.Size();
// unconditional special point available ?
if (!pi1)
for (int i = 1; i <= hsp.Size(); i++)
if (specpoints[hsp.Get(i)].unconditional == 1)
{
pi1 = i;
break;
}
if (!pi1)
{
// no unconditional points available, choose first conitional
pi1 = 1;
}
layer = specpoints[hsp.Get(pi1)].GetLayer();
if (!specpoints[hsp.Get(pi1)].unconditional)
{
specpoints[hsp.Elem(pi1)].unconditional = 1;
for (int i = 1; i <= hsp.Size(); i++)
if (i != pi1 &&
Dist (specpoints[hsp.Get(pi1)].p, specpoints[hsp.Get(i)].p) < 1e-8*geometry.MaxSize() &&
(specpoints[hsp.Get(pi1)].v + specpoints[hsp.Get(i)].v).Length() < 1e-4)
{
// opposite direction
specpoints[hsp.Elem(i)].unconditional = 1;
}
}
cntedge++;
startpoints.Append (hsp.Get(pi1));
#ifdef DEVELOP
(*testout) << "start followedge: p1 = " << specpoints[hsp.Get(pi1)].p
<< ", v = " << specpoints[hsp.Get(pi1)].v << endl;
#endif
FollowEdge (pi1, ep, pos, hsp, h, mesh,
edgepoints, curvelength);
if (multithread.terminate)
return;
if (!ep)
{
// ignore starting point
hsp.DeleteElement (pi1);
cout << "yes, this happens" << endl;
continue;
}
endpoints.Append (hsp.Get(ep));
double elen = 0;
for (int i = 1; i <= edgepoints.Size()-1; i++)
elen += Dist (edgepoints.Get(i), edgepoints.Get(i+1));
int shortedge = 0;
for (int i = 1; i <= geometry.identifications.Size(); i++)
if (geometry.identifications.Get(i)->ShortEdge(specpoints[hsp.Get(pi1)], specpoints[hsp.Get(ep)]))
shortedge = 1;
// (*testout) << "shortedge = " << shortedge << endl;
if (!shortedge)
{
mesh.RestrictLocalHLine (Point3d (specpoints[hsp.Get(pi1)].p),
Point3d (specpoints[hsp.Get(ep)].p),
elen / mparam.segmentsperedge);
}
s1 = specpoints[hsp.Get(pi1)].s1;
s2 = specpoints[hsp.Get(pi1)].s2;
s1_orig = specpoints[hsp.Get(pi1)].s1_orig;
s2_orig = specpoints[hsp.Get(pi1)].s2_orig;
// delete initial, terminal and conditional points
#ifdef DEVELOP
(*testout) << "terminal point: p = " << specpoints[hsp.Get(ep)].p
<< ", v = " << specpoints[hsp.Get(ep)].v << endl;
#endif
searchtree -> DeleteElement (hsp.Get(ep));
searchtree -> DeleteElement (hsp.Get(pi1));
if (ep > pi1)
{
glob2hsp[hsp[ep-1]] = -1;
glob2hsp[hsp.Last()] = ep-1;
hsp.DeleteElement (ep);
glob2hsp[hsp[pi1-1]] = -1;
glob2hsp[hsp.Last()] = pi1-1;
hsp.DeleteElement (pi1);
}
else
{
glob2hsp[hsp[pi1-1]] = -1;
glob2hsp[hsp.Last()] = pi1-1;
hsp.DeleteElement (pi1);
glob2hsp[hsp[ep-1]] = -1;
glob2hsp[hsp.Last()] = ep-1;
hsp.DeleteElement (ep);
}
for (int j = 1; j <= edgepoints.Size()-1; j++)
{
p = edgepoints.Get(j);
np = Center (p, edgepoints.Get(j+1));
double hd = Dist (p, np);
Box<3> boxp (np - (1.2 * hd) * Vec<3> (1, 1, 1),
np + (1.2 * hd) * Vec<3> (1, 1, 1));
searchtree -> GetIntersecting (boxp.PMin(), boxp.PMax(), locind);
for (int i = 0; i < locind.Size(); i++)
{
if ( specpoints[locind[i]].HasSurfaces (s1, s2) &&
specpoints[locind[i]].unconditional == 0)
{
searchtree -> DeleteElement (locind[i]);
int li = glob2hsp[locind[i]];
glob2hsp[locind[i]] = -1;
glob2hsp[hsp.Last()] = li;
hsp.Delete (li);
}
}
/*
for (int i = 1; i <= hsp.Size(); i++)
if ( specpoints[hsp.Get(i)].HasSurfaces (s1, s2) &&
specpoints[hsp.Get(i)].unconditional == 0 &&
Dist2 (np, specpoints[hsp.Get(i)].p) < 1.2 * hd)
{
searchtree -> DeleteElement (hsp.Get(i)+1);
hsp.DeleteElement (i);
i--;
}
*/
}
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NgArray<Segment> refedges;
NgArray<bool> refedgesinv;
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AnalyzeEdge (s1_orig, s2_orig, s1, s2, pos, layer,
edgepoints,
refedges, refedgesinv);
for (int i = 0; i < refedges.Size(); i++)
refedges[i].edgenr = cntedge;
#ifdef DEVELOP
(*testout) << "edge " << cntedge << endl
<< "startp: " << specpoints[startpoints.Last()].p
<< ", v = " << specpoints[startpoints.Last()].v << endl
<< "copy = " << copyedge << endl
<< refedges.Size() << " refedges: ";
for (int i = 1; i <= refedges.Size(); i++)
(*testout) << " " << refedges.Get(i).si;
(*testout) << endl;
if (refedgesinv.Size())
(*testout) << "inv[1] = " << refedgesinv.Get(1) << endl;
#endif
if (refedges.Size() == 0)
throw NgException ("Problem in edge detection");
if (!copyedge)
{
// (*testout) << "store edge" << endl;
// int oldnseg = mesh.GetNSeg();
if (!shortedge)
StoreEdge (refedges, refedgesinv,
edgepoints, curvelength, layer, mesh);
else
StoreShortEdge (refedges, refedgesinv,
edgepoints, curvelength, layer, mesh);
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for(int i = 0; i < refedges.Size(); i++)
{
refedges[i].surfnr1 = geometry.GetSurfaceClassRepresentant(refedges[i].surfnr1);
refedges[i].surfnr2 = geometry.GetSurfaceClassRepresentant(refedges[i].surfnr2);
}
/*
for (int i = oldnseg+1; i <= mesh.GetNSeg(); i++)
for (int j = 1; j <= oldnseg; j++)
{
const Point<3> & l1p1 = mesh.Point (mesh.LineSegment(i).p1);
const Point<3> & l1p2 = mesh.Point (mesh.LineSegment(i).p2);
const Point<3> & l2p1 = mesh.Point (mesh.LineSegment(j).p1);
const Point<3> & l2p2 = mesh.Point (mesh.LineSegment(j).p2);
Vec<3> vl1(l1p1, l1p2);
for (double lamk = 0; lamk <= 1; lamk += 0.1)
{
Point<3> l2p = l1p1 + lamk * vl1;
double dist = sqrt (MinDistLP2 (l2p1, l2p2, l2p));
if (dist > 1e-12)
mesh.RestrictLocalH (l2p, 3*dist);
}
}
*/
}
else
{
CopyEdge (refedges, refedgesinv,
copyfromedge,
specpoints[startpoints.Get(copyfromedge)].p,
specpoints[endpoints.Get(copyfromedge)].p,
edgepoints.Get(1), edgepoints.Last(),
copyedgeidentification,
layer,
mesh);
}
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{
// named edge ?
// cout << "check edge name, size = " << geometry.named_edges.size() << endl;
// for (auto pair : geometry.named_edges)
// cout << "key = " << get<0> (pair.first) << "-" << get<1> (pair.first) << ", val = " << pair.second << endl;
Surface * sp1 = const_cast<Surface*> (geometry.GetSurface(s1));
Surface * sp2 = const_cast<Surface*> (geometry.GetSurface(s2));
// cout << "sp1 = " << sp1 << ", sp2 = " << sp2 << endl;
auto ptr = geometry.named_edges.find(tuple(sp1, sp2));
if (ptr != geometry.named_edges.end())
for (int i = 0; i < refedges.Size(); i++)
mesh.SetCD2Name(refedges[i].edgenr, ptr->second);
ptr = geometry.named_edges.find(tuple(sp2, sp1));
if (ptr != geometry.named_edges.end())
for (int i = 0; i < refedges.Size(); i++)
mesh.SetCD2Name(refedges[i].edgenr, ptr->second);
}
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for(int i=0; i<refedges.Size(); i++)
{
auto splinesurface = dynamic_cast<const SplineSurface*>(geometry.GetSurface(refedges[i].surfnr1));
if(splinesurface)
{
auto name = splinesurface->GetBCNameOf(specpoints[startpoints.Get(refedges[i].edgenr)].p,specpoints[endpoints.Get(refedges[i].edgenr)].p);
mesh.SetCD2Name(refedges[i].edgenr,name);
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}
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else
{
auto splinesurface2 = dynamic_cast<const SplineSurface*>(geometry.GetSurface(refedges[i].surfnr2));
if(splinesurface2)
{
auto name = splinesurface2->GetBCNameOf(specpoints[startpoints.Get(refedges[i].edgenr)].p,specpoints[endpoints.Get(refedges[i].edgenr)].p);
mesh.SetCD2Name(refedges[i].edgenr,name);
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}
}
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}
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/*
// not available ...
for (int i = 0; i < refedges.Size(); i++)
{
EdgeDescriptor ed;
ed.SetSurfNr(0, refedges[i].surfnr1);
ed.SetSurfNr(1, refedges[i].surfnr2);
int hnr = mesh.AddEdgeDescriptor(ed);
if (hnr != refedges[i].edgenr)
{
cerr << "edgedescriptor index wrong: new : " << hnr << " old = " << refedges[i].edgenr << endl;
}
}
*/
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// for(int i=0; i<hsp.Size(); i++)
// {
// (*testout) << "pos2 hsp["<<i<<"] ... " << specpoints[hsp[i]].p << endl;
// }
}
}
/*
If two or more edges share the same initial and end-points,
then they need at least two segments
*/
void EdgeCalculation ::
SplitEqualOneSegEdges (Mesh & mesh)
{
// int i, j;
SegmentIndex si;
PointIndex pi;
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NgArray<int> osedges(cntedge);
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INDEX_2_HASHTABLE<int> osedgesht (cntedge+1);
osedges = 2;
// count segments on edges
for (si = 0; si < mesh.GetNSeg(); si++)
{
const Segment & seg = mesh[si];
if (seg.seginfo && seg.edgenr >= 1 && seg.edgenr <= cntedge)
osedges.Elem(seg.edgenr)--;
}
// flag one segment edges
for (int i = 0; i < cntedge; i++)
osedges[i] = (osedges[i] > 0) ? 1 : 0;
for (si = 0; si < mesh.GetNSeg(); si++)
{
const Segment & seg = mesh[si];
if (seg.seginfo && seg.edgenr >= 1 && seg.edgenr <= cntedge)
{
if (osedges.Get(seg.edgenr))
{
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INDEX_2 i2(seg[0], seg[1]);
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i2.Sort ();
if (osedgesht.Used (i2))
osedgesht.Set (i2, 2);
else
osedgesht.Set (i2, 1);
}
}
}
// one edge 1 segment, other 2 segments
// yes, it happens !
point_on_edge_problem = 0;
for (int i = 1; i <= osedgesht.GetNBags(); i++)
for (int j = 1; j <= osedgesht.GetBagSize(i); j++)
{
INDEX_2 i2;
int val;
osedgesht.GetData (i, j, i2, val);
const Point<3> & p1 = mesh[PointIndex(i2.I1())];
const Point<3> & p2 = mesh[PointIndex(i2.I2())];
Vec<3> v = p2 - p1;
double vlen = v.Length();
v /= vlen;
for (pi = PointIndex::BASE;
pi < mesh.GetNP()+PointIndex::BASE; pi++)
if (pi != i2.I1() && pi != i2.I2())
{
const Point<3> & p = mesh[pi];
Vec<3> v2 = p - p1;
double lam = (v2 * v);
if (lam > 0 && lam < vlen)
{
Point<3> hp = p1 + lam * v;
if (Dist (p, hp) < 1e-4 * vlen)
{
PrintWarning ("Point on edge !!!");
cout << "seg: " << i2 << ", p = " << pi << endl;
osedgesht.Set (i2, 2);
point_on_edge_problem = 1;
(*testout) << "Point on edge" << endl
<< "seg = " << i2 << ", p = " << pi << endl
<< "pos = " << p << ", projected = " << hp << endl
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<< "seg is = "
<< mesh.Point(PointIndex(i2.I1())) << " - "
<< mesh.Point(PointIndex(i2.I2())) << endl;
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}
}
}
}
// insert new points
osedges = -1;
int nseg = mesh.GetNSeg();
for (si = 0; si < nseg; si++)
{
const Segment & seg = mesh[si];
if (seg.seginfo && seg.edgenr >= 1 && seg.edgenr <= cntedge)
{
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INDEX_2 i2(seg[0], seg[1]);
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i2.Sort ();
if (osedgesht.Used (i2) &&
osedgesht.Get (i2) == 2 &&
osedges.Elem(seg.edgenr) == -1)
{
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Point<3> newp = Center (mesh[PointIndex(seg[0])],
mesh[PointIndex(seg[1])]);
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ProjectToEdge (geometry.GetSurface(seg.surfnr1),
geometry.GetSurface(seg.surfnr2),
newp);
osedges.Elem(seg.edgenr) =
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mesh.AddPoint (newp, mesh[PointIndex(seg[0])].GetLayer(), EDGEPOINT);
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meshpoint_tree -> Insert (newp, osedges.Elem(seg.edgenr));
}
}
}
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// for (int i = 1; i <= nseg; i++)
for (Segment & seg : mesh.LineSegments())
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{
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// Segment & seg = mesh.LineSegment (i);
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if (seg.edgenr >= 1 && seg.edgenr <= cntedge)
{
if (osedges.Get(seg.edgenr) != -1)
{
Segment newseg = seg;
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newseg[0] = osedges.Get(seg.edgenr);
seg[1] = osedges.Get(seg.edgenr);
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mesh.AddSegment (newseg);
}
}
}
}
void EdgeCalculation ::
FollowEdge (int pi1, int & ep, int & pos,
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const NgArray<int> & hsp,
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double h, const Mesh & mesh,
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NgArray<Point<3> > & edgepoints,
NgArray<double> & curvelength)
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{
int s1, s2, s1_rep, s2_rep;
double len, steplen, cursteplen, loch;
Point<3> p, np, pnp;
Vec<3> a1, a2, t;
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NgArray<int> locind;
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double size = geometry.MaxSize();
double epspointdist2 = size * 1e-6;
epspointdist2 = sqr (epspointdist2);
int uselocalh = mparam.uselocalh;
s1_rep = specpoints[hsp.Get(pi1)].s1;
s2_rep = specpoints[hsp.Get(pi1)].s2;
s1 = specpoints[hsp.Get(pi1)].s1_orig;
s2 = specpoints[hsp.Get(pi1)].s2_orig;
p = specpoints[hsp.Get(pi1)].p;
//ProjectToEdge (geometry.GetSurface(s1),
// geometry.GetSurface(s2), p);
geometry.GetSurface(s1) -> CalcGradient (p, a1);
geometry.GetSurface(s2) -> CalcGradient (p, a2);
t = Cross (a1, a2);
t.Normalize();
pos = (specpoints[hsp.Get(pi1)].v * t) > 0;
if (!pos) t *= -1;
edgepoints.Append (p);
curvelength.Append (0);
len = 0;
// (*testout) << "geometry.GetSurface(s1) -> LocH (p, 3, 1, h) " << geometry.GetSurface(s1) -> LocH (p, 3, 1, h)
// << " geometry.GetSurface(s2) -> LocH (p, 3, 1, h) " << geometry.GetSurface(s2) -> LocH (p, 3, 1, h) << endl;
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loch = min2 (geometry.GetSurface(s1) -> LocH (p, 3, 1, mparam, h),
geometry.GetSurface(s2) -> LocH (p, 3, 1, mparam, h));
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if (uselocalh)
{
double lh = mesh.GetH(p);
// (*testout) << "lh " << lh << endl;
if (lh < loch)
loch = lh;
}
steplen = 0.1 * loch;
do
{
if (multithread.terminate)
return;
if (fabs (p(0)) + fabs (p(1)) + fabs (p(2)) > 100000*size)
{
ep = 0;
PrintWarning ("Give up line");
break;
}
if (steplen > 0.1 * loch) steplen = 0.1 * loch;
steplen *= 2;
do
{
steplen *= 0.5;
np = p + steplen * t;
pnp = np;
ProjectToEdge (geometry.GetSurface(s1),
geometry.GetSurface(s2), pnp);
}
while (Dist (np, pnp) > 0.1 * steplen);
cursteplen = steplen;
if (Dist (np, pnp) < 0.01 * steplen) steplen *= 2;
np = pnp;
ep = 0;
double hvtmin = 1.5 * cursteplen;
Box<3> boxp (p - (2 * cursteplen) * Vec<3> (1, 1, 1),
p + (2 * cursteplen) * Vec<3> (1, 1, 1));
searchtree -> GetIntersecting (boxp.PMin(), boxp.PMax(), locind);
for (int i = 0; i < locind.Size(); i++)
{
Vec<3> hv = specpoints[locind[i]].p - p;
if (hv.Length2() > 9 * cursteplen * cursteplen)
continue;
double hvt = hv * t;
hv -= hvt * t;
if (hv.Length() < 0.2 * cursteplen &&
hvt > 0 &&
// hvt < 1.5 * cursteplen &&
hvt < hvtmin &&
specpoints[locind[i]].unconditional == 1 &&
(specpoints[locind[i]].v + t).Length() < 0.4 )
{
Point<3> hep = specpoints[locind[i]].p;
ProjectToEdge (geometry.GetSurface(s1),
geometry.GetSurface(s2), hep);
if (Dist2 (hep, specpoints[locind[i]].p) < epspointdist2 )
{
geometry.GetSurface(s1) -> CalcGradient (hep, a1);
geometry.GetSurface(s2) -> CalcGradient (hep, a2);
Vec<3> ept = Cross (a1, a2);
ept /= ept.Length();
if (!pos) ept *= -1;
if ( (specpoints[locind[i]].v + ept).Length() < 1e-4 )
{
np = specpoints[locind[i]].p;
for (int jj = 0; jj < hsp.Size(); jj++)
if (hsp[jj] == locind[i])
ep = jj+1;
if (!ep)
cerr << "endpoint not found" << endl;
// ep = i;
hvtmin = hvt;
// break;
}
}
}
}
/*
for (int i = 1; i <= hsp.Size(); i++)
{
if (!boxp.IsIn (specpoints[hsp.Get(i)].p))
continue;
Vec<3> hv = specpoints[hsp.Get(i)].p - p;
if (hv.Length2() > 9 * cursteplen * cursteplen)
continue;
double hvt = hv * t;
hv -= hvt * t;
if (hv.Length() < 0.2 * cursteplen &&
hvt > 0 &&
// hvt < 1.5 * cursteplen &&
hvt < hvtmin &&
specpoints[hsp.Get(i)].unconditional == 1 &&
(specpoints[hsp.Get(i)].v + t).Length() < 0.4 )
{
Point<3> hep = specpoints[hsp.Get(i)].p;
ProjectToEdge (geometry.GetSurface(s1),
geometry.GetSurface(s2), hep);
if (Dist2 (hep, specpoints[hsp.Get(i)].p) < epspointdist2 )
{
geometry.GetSurface(s1) -> CalcGradient (hep, a1);
geometry.GetSurface(s2) -> CalcGradient (hep, a2);
Vec<3> ept = Cross (a1, a2);
ept /= ept.Length();
if (!pos) ept *= -1;
if ( (specpoints[hsp.Get(i)].v + ept).Length() < 1e-4 )
{
np = specpoints[hsp.Get(i)].p;
ep = i;
hvtmin = hvt;
// break;
}
}
}
}
*/
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loch = min2 (geometry.GetSurface(s1_rep) -> LocH (np, 3, 1, mparam, h),
geometry.GetSurface(s2_rep) -> LocH (np, 3, 1, mparam, h));
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loch = max2 (loch, mparam.minh);
if (uselocalh)
{
double lh = mesh.GetH(np);
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if (lh < loch) loch = lh;
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}
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len += Dist (p, np) / loch;
edgepoints.Append (np);
curvelength.Append (len);
p = np;
geometry.GetSurface(s1) -> CalcGradient (p, a1);
geometry.GetSurface(s2) -> CalcGradient (p, a2);
t = Cross (a1, a2);
t.Normalize();
if (!pos) t *= -1;
}
while (! ep);
}
void EdgeCalculation ::
AnalyzeEdge (int s1, int s2, int s1_rep, int s2_rep, int pos, int layer,
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const NgArray<Point<3> > & edgepoints,
NgArray<Segment> & refedges,
NgArray<bool> & refedgesinv)
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{
Segment seg;
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NgArray<int> locsurfind, locsurfind2;
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NgArray<int> edges_priority;
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double size = geometry.MaxSize();
bool debug = 0;
#ifdef DEVELOP
debug = 1;
#endif
if (debug)
{
(*testout) << "debug edge !!!" << endl;
(*testout) << "edgepoints = " << edgepoints << endl;
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(*testout) << "s1, s2 = " << s1 << " - " << s2 << endl;
(*testout) << "s1_rep, s2_rep = " << s1_rep << " - " << s2_rep << endl;
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}
refedges.SetSize(0);
refedgesinv.SetSize(0);
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Point<3> hp = Center (edgepoints[0], edgepoints[1]);
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ProjectToEdge (geometry.GetSurface(s1), geometry.GetSurface(s2), hp);
if (debug)
*testout << "hp = " << hp << endl;
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Vec<3> t, a1, a2;
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geometry.GetSurface(s1) -> CalcGradient (hp, a1);
geometry.GetSurface(s2) -> CalcGradient (hp, a2);
t = Cross (a1, a2);
t.Normalize();
if (!pos) t *= -1;
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for (int i = 0; i < geometry.GetNTopLevelObjects(); i++)
{
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Solid * locsol;
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if (geometry.GetTopLevelObject(i)->GetLayer() != layer)
continue;
const Solid * sol = geometry.GetTopLevelObject(i)->GetSolid();
const Surface * surf = geometry.GetTopLevelObject(i)->GetSurface();
sol -> TangentialSolid (hp, locsol, locsurfind, size*ideps);
//*testout << "hp = " << hp << endl;
//(*testout) << "locsol: " << endl;
//if (locsol) locsol->Print(*testout);
//(*testout) << endl;
if (!locsol) continue;
BoxSphere<3> boxp (hp, hp);
boxp.Increase (1e-8*size);
boxp.CalcDiamCenter();
ReducePrimitiveIterator rpi(boxp);
UnReducePrimitiveIterator urpi;
((Solid*)locsol) -> IterateSolid (rpi);
locsol -> CalcSurfaceInverse ();
if (!surf)
{
locsol -> GetTangentialSurfaceIndices (hp,locsurfind,ideps*size);
}
else
{
/*
if (fabs (surf->CalcFunctionValue (hp)) < 1e-6)
continue;
*/
locsurfind.SetSize(1);
locsurfind[0] = -1;
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for (int j = 0; j < geometry.GetNSurf(); j++)
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if (geometry.GetSurface(j) == surf)
{
locsurfind[0] = j;
// geometry.GetSurfaceClassRepresentant(j);
break;
}
}
((Solid*)locsol) -> IterateSolid (urpi);
if (debug)
(*testout) << "edge of tlo " << i << ", has " << locsurfind.Size() << " faces." << endl;
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for (int j = locsurfind.Size()-1; j >= 0; j--)
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if (fabs (geometry.GetSurface(locsurfind[j])
->CalcFunctionValue (hp) ) > ideps*size)
locsurfind.Delete(j);
if (debug)
(*testout) << locsurfind.Size() << " faces on hp" << endl;
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for (int j = 0; j < locsurfind.Size(); j++)
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{
int lsi = locsurfind[j];
int rlsi = geometry.GetSurfaceClassRepresentant(lsi);
// n is outer normal to solid
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Vec<3> n = geometry.GetSurface(lsi) -> GetNormalVector (hp);
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if (debug)
*testout << "n1 = " << n << endl;
if (geometry.GetSurface (lsi)->Inverse())
n *= -1;
if (fabs (t * n) > 1e-4) continue;
if (debug)
{
(*testout) << "face " << locsurfind[j] << ", rep = " << rlsi
<< " has (t*n) = " << (t*n) << endl;
(*testout) << "n = " << n << endl;
}
// rn is normal to class representant
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Vec<3> rn = geometry.GetSurface(rlsi) -> GetNormalVector (hp);
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if (debug)
{
(*testout) << "rn = " << rn << endl;
}
//if( n*rn < 0)
// rn *= -1;
bool sameasref = ((n * rn) > 0);
//m = Cross (t, rn);
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Vec<3> m = Cross (t, n);
if(!sameasref) m*=-1.;
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m.Normalize();
if (debug)
(*testout) << "m = " << m << endl;
//bool founddirection = false;
//int k;
double eps = 1e-8*size;
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NgArray<bool> pre_ok(2);
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do
{
eps *= 0.5;
pre_ok[0] = (locsol -> VectorIn2 (hp, m, n, eps) == IS_OUTSIDE &&
locsol -> VectorIn2 (hp, m, -1. * n, eps) == IS_INSIDE);
pre_ok[1] = (locsol -> VectorIn2 (hp, -1.*m, n, eps) == IS_OUTSIDE &&
locsol -> VectorIn2 (hp, -1.*m, -1. * n, eps) == IS_INSIDE);
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if (debug)
{
*testout << "eps = " << eps << endl;
*testout << "in,1 = " << locsol -> VectorIn2 (hp, m, n, eps) << endl;
*testout << "in,1 = " << locsol -> VectorIn2 (hp, m, -1. * n, eps) << endl;
*testout << "in,1 = " << locsol -> VectorIn2 (hp, -1.*m, n, eps) << endl;
*testout << "in,1 = " << locsol -> VectorIn2 (hp, -1.*m, -1. * n, eps) << endl;
}
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}
while(pre_ok[0] && pre_ok[1] && eps > 1e-16*size);
if (debug)
{
*testout << "eps = " << eps << ", size = " << size << endl;
*testout << "pre_ok[0,1] = " << pre_ok[0] << "," << pre_ok[1] << endl;
}
eps = 1e-8*size;
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for (int k = 1; k <= 2; k ++)
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{
bool edgeinv = (k == 2);
if (debug)
{
(*testout) << "onface(" << hp << ", " << m << ")= " << flush;
(*testout) << locsol->OnFace (hp, m, eps) << flush;
(*testout) << " n " << n << flush;
(*testout) << " vec2in = "
<< locsol -> VectorIn2 (hp, m, n, eps) << " and "
<< locsol -> VectorIn2 (hp, m, -1 * n, eps) << endl;
}
// if (locsol -> OnFace (hp, m))
// one side must be inside, the other must be outside
bool ok = (pre_ok[k-1] ||
(locsol -> VectorIn2 (hp, m, n, eps) == IS_OUTSIDE &&
locsol -> VectorIn2 (hp, m, -1 * n, eps) == IS_INSIDE));
if (debug)
(*testout) << "ok (before) " << ok << endl;
// compute second order approximation
// curve = hp + t m + t*t/2 m2
Vec<3> grad, m2;
Mat<3> hesse;
geometry.GetSurface(lsi) -> CalcGradient (hp, grad);
geometry.GetSurface(lsi) -> CalcHesse (hp, hesse);
double fac = -(m * (hesse * m)) / (grad * grad);
m2 = fac * grad;
// (*testout) << "hp = " << hp << ", m = " << m << ", m2 = " << m2 << endl;
Solid * locsol2;
locsol -> TangentialSolid3 (hp, m, m2, locsol2, locsurfind2, ideps*size);
if (!locsol2) ok = 0;
delete locsol2;
if (ok)
{
if (debug)
(*testout) << "is true" << endl;
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int hi = 0;
for (int l = 1; !hi && l <= refedges.Size(); l++)
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{
if (refedges.Get(l).si == rlsi && // JS sept 2006
// if (refedges.Get(l).si == lsi &&
refedgesinv.Get(l) == edgeinv)
{
hi = l;
}
}
if (!hi)
{
seg.si = rlsi; // JS Sept 2006
// seg.si = lsi;
seg.domin = -1;
seg.domout = -1;
seg.tlosurf = -1;
//seg.surfnr1 = s1_rep;
//seg.surfnr2 = s2_rep;
seg.surfnr1 = s1;
seg.surfnr2 = s2;
refedges.Append (seg);
hi = refedges.Size();
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refedgesinv.Append (edgeinv);
edges_priority.Append((pre_ok[k-1]) ? 1 : 0);
}
else
{
if(edges_priority[hi-1] / 10 == -i-1)
edges_priority[hi-1] = 10*(i+1);
else
edges_priority[hi-1] = -10*(i+1);
}
if (!surf)
{
if (sameasref)
refedges.Elem(hi).domin = i;
else
refedges.Elem(hi).domout = i;
}
else
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{
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refedges.Elem(hi).tlosurf = i;
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for(int kk = 0; kk < geometry.GetNTopLevelObjects(); kk++)
{
auto othersolid = geometry.GetTopLevelObject(kk)->GetSolid();
auto othersurf = geometry.GetTopLevelObject(kk)->GetSurface();
if(!othersurf && dynamic_cast<SplineSurface*>(othersurf))
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{
if(othersolid->IsIn(edgepoints[0]) &&
othersolid->IsIn(edgepoints[edgepoints.Size()-1]))
{
refedges.Elem(hi).domin = kk;
refedges.Elem(hi).domout = kk;
}
}
}
}
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if(pre_ok[k-1])
edges_priority[hi-1] = 1;
if (debug)
(*testout) << "add ref seg:"
<< "si = " << refedges.Get(hi).si
<< ", domin = " << refedges.Get(hi).domin
<< ", domout = " << refedges.Get(hi).domout
<< ", surfnr1/2 = " << refedges.Get(hi).surfnr1
<< ", " << refedges.Get(hi).surfnr2
<< ", inv = " << refedgesinv.Get(hi)
<< ", refedgenr = " << hi
<< ", priority = " << edges_priority[hi-1]
<< ", hi = " << hi
<< endl;
}
else
{
if (debug)
(*testout) << "is false" << endl;
}
m *= -1;
}
}
delete locsol;
}
if (debug)
{
*testout << "Refsegments, before delete: " << endl << refedges << endl;
*testout << "inv: " << endl << refedgesinv << endl;
}
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if(refedges.Size() == 0)
throw Exception("No edges found, something wrong.");
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NgBitArray todelete(refedges.Size());
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todelete.Clear();
for(int i=0; i<refedges.Size()-1; i++)
{
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for(int j=i+1; !todelete.Test(i) && j<refedges.Size(); j++)
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{
if(todelete.Test(j))
continue;
if(refedges[i].si == refedges[j].si &&
refedges[i].domin == refedges[j].domin &&
refedges[i].domout == refedges[j].domout &&
geometry.GetSurfaceClassRepresentant(refedges[i].surfnr1) == geometry.GetSurfaceClassRepresentant(refedges[j].surfnr1) &&
geometry.GetSurfaceClassRepresentant(refedges[i].surfnr2) == geometry.GetSurfaceClassRepresentant(refedges[j].surfnr2)
// && refedgesinv[i] == refedgesinv[j] // JS, 20060802
)
{
if(debug)
(*testout) << "equal segments: " << refedges[i] << " pri " << edges_priority[i]
<< " tlosurf " << refedges[i].tlosurf
<< "\n and " << refedges[j] << " pri " << edges_priority[j]
<< " tlosurf " << refedges[i].tlosurf << endl;
if(edges_priority[i] < 10 && edges_priority[i] < edges_priority[j])
{
todelete.Set(i);
}
else if (edges_priority[j] < 10 && edges_priority[i] > edges_priority[j])
{
todelete.Set(j);
}
}
}
}
int num = refedges.Size();
for(int i=refedges.Size()-1; num>2 && i>=0; i--)
if(todelete.Test(i))
{
refedges.Delete(i);
refedgesinv.Delete(i);
num--;
}
if (debug)
{
*testout << "Refsegments: " << endl << refedges << endl;
}
}
void EdgeCalculation ::
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StoreEdge (const NgArray<Segment> & refedges,
const NgArray<bool> & refedgesinv,
const NgArray<Point<3> > & edgepoints,
const NgArray<double> & curvelength,
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int layer,
Mesh & mesh)
{
// Calculate optimal element-length
int i, j, k;
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// PointIndex pi;
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int ne;
double len, corr, lam;
PointIndex thispi, lastpi;
Point<3> p, np;
Segment seg;
const Surface * surf1 = geometry.GetSurface (refedges.Get(1).surfnr1);
const Surface * surf2 = geometry.GetSurface (refedges.Get(1).surfnr2);
(*testout) << "s1 " << refedges.Get(1).surfnr1 << " s2 " << refedges.Get(1).surfnr2
<< " rs1 " << geometry.GetSurfaceClassRepresentant(refedges.Get(1).surfnr1)
<< " rs2 " << geometry.GetSurfaceClassRepresentant(refedges.Get(1).surfnr2) << endl;
len = curvelength.Last();
ne = int (len + 0.5);
if (ne == 0) ne = 1;
if (Dist (edgepoints.Get(1), edgepoints.Last()) < 1e-8*geometry.MaxSize() &&
ne <= 6)
ne = 6;
corr = len / ne;
// generate initial point
p = edgepoints.Get(1);
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lastpi = PointIndex::INVALID;
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/*
for (pi = PointIndex::BASE;
pi < mesh.GetNP()+PointIndex::BASE; pi++)
if (Dist (mesh[pi], p) < 1e-6)
{
lastpi = pi;
break;
}
*/
const double di=1e-7*geometry.MaxSize();
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NgArray<int> locsearch;
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meshpoint_tree -> GetIntersecting (p-Vec<3> (di,di,di),
p+Vec<3> (di,di,di), locsearch);
if (locsearch.Size())
lastpi = locsearch[0];
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if (!lastpi.IsValid())
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{
lastpi = mesh.AddPoint (p, layer, FIXEDPOINT);
meshpoint_tree -> Insert (p, lastpi);
// (*testout) << "test1, store point " << lastpi << ", p = " << p << endl;
}
j = 1;
for (i = 1; i <= ne; i++)
{
while (curvelength.Get(j) < i * corr && j < curvelength.Size()) j++;
lam = (i * corr - curvelength.Get(j-1)) /
(curvelength.Get(j) - curvelength.Get(j-1));
np(0) = (1-lam) * edgepoints.Get(j-1)(0) + lam * edgepoints.Get(j)(0);
np(1) = (1-lam) * edgepoints.Get(j-1)(1) + lam * edgepoints.Get(j)(1);
np(2) = (1-lam) * edgepoints.Get(j-1)(2) + lam * edgepoints.Get(j)(2);
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thispi = PointIndex::INVALID;
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if (i == ne)
{
/*
for (pi = PointIndex::BASE;
pi < mesh.GetNP()+PointIndex::BASE; pi++)
if (Dist(mesh[pi], np) < 1e-6)
thispi = pi;
*/
meshpoint_tree -> GetIntersecting (np-Vec<3> (di,di,di),
np+Vec<3> (di,di,di), locsearch);
if (locsearch.Size())
thispi = locsearch[0];
}
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if (!thispi.IsValid())
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{
ProjectToEdge (surf1, surf2, np);
thispi = mesh.AddPoint (np, layer, (i==ne) ? FIXEDPOINT : EDGEPOINT);
meshpoint_tree -> Insert (np, thispi);
// (*testout) << "test2, store point " << thispi << ", p = " << np << endl;
}
for (k = 1; k <= refedges.Size(); k++)
{
if (refedgesinv.Get(k))
{
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seg[0] = lastpi;
seg[1] = thispi;
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}
else
{
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seg[0] = thispi;
seg[1] = lastpi;
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}
seg.si = refedges.Get(k).si;
seg.domin = refedges.Get(k).domin;
seg.domout = refedges.Get(k).domout;
seg.tlosurf = refedges.Get(k).tlosurf;
seg.edgenr = refedges.Get(k).edgenr;
seg.surfnr1 = refedges.Get(k).surfnr1;
seg.surfnr2 = refedges.Get(k).surfnr2;
seg.seginfo = 0;
if (k == 1) seg.seginfo = (refedgesinv.Get(k)) ? 2 : 1;
mesh.AddSegment (seg);
//(*testout) << "add seg " << mesh[seg.p1] << "-" << mesh[seg.p2] << endl;
//(*testout) << "refedge " << k << " surf1 " << seg.surfnr1 << " surf2 " << seg.surfnr2 << " inv " << refedgesinv.Get(k) << endl;
double maxh = min2 (geometry.GetSurface(seg.surfnr1)->GetMaxH(),
geometry.GetSurface(seg.surfnr2)->GetMaxH());
if (seg.domin != -1)
{
const Solid * s1 =
geometry.GetTopLevelObject(seg.domin) -> GetSolid();
maxh = min2 (maxh, s1->GetMaxH());
maxh = min2 (maxh, geometry.GetTopLevelObject(seg.domin)->GetMaxH());
mesh.RestrictLocalH (p, maxh);
mesh.RestrictLocalH (np, maxh);
}
if (seg.domout != -1)
{
const Solid * s1 =
geometry.GetTopLevelObject(seg.domout) -> GetSolid();
maxh = min2 (maxh, s1->GetMaxH());
maxh = min2 (maxh, geometry.GetTopLevelObject(seg.domout)->GetMaxH());
mesh.RestrictLocalH (p, maxh);
mesh.RestrictLocalH (np, maxh);
}
if (seg.tlosurf != -1)
{
double hi = geometry.GetTopLevelObject(seg.tlosurf) -> GetMaxH();
maxh = min2 (maxh, hi);
mesh.RestrictLocalH (p, maxh);
mesh.RestrictLocalH (np, maxh);
}
}
p = np;
lastpi = thispi;
}
#ifdef DEVELOP
(*testout) << " eplast = " << lastpi << " = " << p << endl;
#endif
}
void EdgeCalculation ::
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StoreShortEdge (const NgArray<Segment> & refedges,
const NgArray<bool> & refedgesinv,
const NgArray<Point<3> > & edgepoints,
const NgArray<double> & curvelength,
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int layer,
Mesh & mesh)
{
// Calculate optimal element-length
PointIndex pi;
// int ne;
Segment seg;
/*
double len, corr, lam;
int thispi, lastpi;
Point<3> p, np;
const Surface * surf1 = geometry.GetSurface (refedges.Get(1).surfnr1);
const Surface * surf2 = geometry.GetSurface (refedges.Get(1).surfnr2);
len = curvelength.Last();
ne = int (len + 0.5);
if (ne == 0) ne = 1;
if (Dist2 (edgepoints[1], edgepoints.Last()) < 1e-8 &&
ne <= 6)
ne = 6;
corr = len / ne;
*/
// generate initial point
Point<3> p = edgepoints[0];
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PointIndex pi1 = PointIndex::INVALID;
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for (pi = PointIndex::BASE;
pi < mesh.GetNP()+PointIndex::BASE; pi++)
if (Dist (mesh[pi], p) < 1e-6*geometry.MaxSize())
{
pi1 = pi;
break;
}
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if (!pi1.IsValid())
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{
pi1 = mesh.AddPoint (p, layer, FIXEDPOINT);
meshpoint_tree -> Insert (p, pi1);
// (*testout) << "test3, store point " << pi1 << ", p = " << p << endl;
}
p = edgepoints.Last();
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PointIndex pi2 = PointIndex::INVALID;
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for (pi = PointIndex::BASE;
pi < mesh.GetNP()+PointIndex::BASE; pi++)
if (Dist (mesh[pi], p) < 1e-6*geometry.MaxSize())
{
pi2 = pi;
break;
}
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if (!pi2.IsValid())
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{
pi2 = mesh.AddPoint (p, layer, FIXEDPOINT);
meshpoint_tree -> Insert (p, pi2);
// (*testout) << "test4, store point " << pi2 << ", p = " << p << endl;
}
/*
j = 1;
for (i = 1; i <= ne; i++)
{
while (curvelength[j] < i * corr && j < curvelength.Size()) j++;
lam = (i * corr - curvelength[j-1]) /
(curvelength[j] - curvelength[j-1]);
np(0) = (1-lam) * edgepoints[j-1](0) + lam * edgepoints[j](0);
np(1) = (1-lam) * edgepoints[j-1](1) + lam * edgepoints[j](1);
np(2) = (1-lam) * edgepoints[j-1](2) + lam * edgepoints[j](2);
thispi = 0;
if (i == ne)
for (j = 1; j <= mesh.GetNP(); j++)
if (Dist(mesh.Point(j), np) < 1e-6)
thispi = j;
if (!thispi)
{
ProjectToEdge (surf1, surf2, np);
thispi = mesh.AddPoint (np);
}
*/
// (*testout) << "short edge " << pi1 << " - " << pi2 << endl;
for (int k = 1; k <= refedges.Size(); k++)
{
if (refedgesinv.Get(k))
{
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seg[0] = pi1;
seg[1] = pi2;
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}
else
{
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seg[0] = pi2;
seg[1] = pi1;
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}
seg.si = refedges.Get(k).si;
seg.domin = refedges.Get(k).domin;
seg.domout = refedges.Get(k).domout;
seg.tlosurf = refedges.Get(k).tlosurf;
seg.edgenr = refedges.Get(k).edgenr;
seg.surfnr1 = refedges.Get(k).surfnr1;
seg.surfnr2 = refedges.Get(k).surfnr2;
seg.seginfo = 0;
if (k == 1) seg.seginfo = (refedgesinv.Get(k)) ? 2 : 1;
mesh.AddSegment (seg);
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// (*testout) << "add seg " << seg[0] << "-" << seg[1] << endl;
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}
}
void EdgeCalculation ::
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CopyEdge (const NgArray<Segment> & refedges,
const NgArray<bool> & refedgesinv,
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int copyfromedge,
const Point<3> & fromstart, const Point<3> & fromend,
const Point<3> & tostart, const Point<3> & toend,
int copyedgeidentification,
int layer,
Mesh & mesh)
{
int k;
PointIndex pi;
double size = geometry.MaxSize();
// copy start and end points
for (int i = 1; i <= 2; i++)
{
Point<3> fromp =
(i == 1) ? fromstart : fromend;
Point<3> top =
(i == 1) ? tostart : toend;
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PointIndex frompi = PointIndex::INVALID;
PointIndex topi = PointIndex::INVALID;
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for (pi = PointIndex::BASE;
pi < mesh.GetNP()+PointIndex::BASE; pi++)
{
if (Dist2 (mesh[pi], fromp) <= 1e-16*size)
frompi = pi;
if (Dist2 (mesh[pi], top) <= 1e-16*size)
topi = pi;
}
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if (!topi.IsValid())
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{
topi = mesh.AddPoint (top, layer, FIXEDPOINT);
meshpoint_tree -> Insert (top, topi);
}
const Identification & csi =
(*geometry.identifications.Get(copyedgeidentification));
if (csi.Identifyable (mesh[frompi], mesh[topi]))
mesh.GetIdentifications().Add(frompi, topi, copyedgeidentification);
else if (csi.Identifyable (mesh[topi], mesh[frompi]))
mesh.GetIdentifications().Add(topi, frompi, copyedgeidentification);
else
{
cerr << "edgeflw.cpp: should identify, but cannot";
exit(1);
}
#ifdef DEVELOP
(*testout) << "adding identification " << mesh[frompi] << "; " << mesh[topi]
<< " (id " << copyedgeidentification <<")" << endl;
#endif
/*
(*testout) << "Add Identification from CopyEdge, p1 = "
<< mesh[PointIndex(frompi)] << ", p2 = "
<< mesh[PointIndex(topi)] << endl;
mesh.GetIdentifications().Add(frompi, topi, copyedgeidentification);
*/
}
int oldns = mesh.GetNSeg();
for (int i = 1; i <= oldns; i++)
{
// real copy, since array might be reallocated !!
const Segment oldseg = mesh.LineSegment(i);
if (oldseg.edgenr != copyfromedge)
continue;
if (oldseg.seginfo == 0)
continue;
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int pi1 = oldseg[0];
int pi2 = oldseg[1];
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int npi1 = geometry.identifications.Get(copyedgeidentification)
-> GetIdentifiedPoint (mesh, pi1);
int npi2 = geometry.identifications.Get(copyedgeidentification)
-> GetIdentifiedPoint (mesh, pi2);
//(*testout) << "copy edge, pts = " << npi1 << " - " << npi2 << endl;
Segment seg;
for (k = 1; k <= refedges.Size(); k++)
{
bool inv = refedgesinv.Get(k);
// other edge is inverse
if (oldseg.seginfo == 1)
inv = !inv;
// (*testout) << "inv, now = " << inv << endl;
if (inv)
{
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seg[0] = npi1;
seg[1] = npi2;
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}
else
{
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seg[0] = npi2;
seg[1] = npi1;
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}
seg.si = refedges.Get(k).si;
seg.domin = refedges.Get(k).domin;
seg.domout = refedges.Get(k).domout;
seg.tlosurf = refedges.Get(k).tlosurf;
seg.edgenr = refedges.Get(k).edgenr;
seg.surfnr1 = refedges.Get(k).surfnr1;
seg.surfnr2 = refedges.Get(k).surfnr2;
seg.seginfo = 0;
if (k == 1) seg.seginfo = refedgesinv.Get(k) ? 2 : 1;
mesh.AddSegment (seg);
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// (*testout) << "copy seg " << seg[0] << "-" << seg[1] << endl;
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#ifdef DEVELOP
(*testout) << "copy seg, face = " << seg.si << ": "
<< " inv = " << inv << ", refinv = " << refedgesinv.Get(k)
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<< mesh.Point(seg[0]) << ", " << mesh.Point(seg[1]) << endl;
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#endif
}
}
}
void EdgeCalculation ::
FindClosedSurfaces (double h, Mesh & mesh)
{
// if there is no special point at a sphere, one has to add a segment pair
int nsurf = geometry.GetNSurf();
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int layer = 0;
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Solid * tansol;
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NgArray<int> tansurfind;
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double size = geometry.MaxSize();
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int nsol = geometry.GetNTopLevelObjects();
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NgBitArray pointatsurface (nsurf);
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pointatsurface.Clear();
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for (int i = 1; i <= mesh.GetNSeg(); i++)
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{
const Segment & seg = mesh.LineSegment(i);
#ifdef DEVELOP
(*testout) << seg.surfnr1 << ", " << seg.surfnr2 << ", si = " << seg.si << endl;
#endif
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int classrep = geometry.GetSurfaceClassRepresentant (seg.si);
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pointatsurface.Set (classrep);
}
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for (int i = 0; i < nsurf; i++)
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{
int classrep = geometry.GetSurfaceClassRepresentant (i);
if (!pointatsurface.Test(classrep))
{
const Surface * s = geometry.GetSurface(i);
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Point<3> p1 = s -> GetSurfacePoint();
Vec<3> nv = s -> GetNormalVector (p1);
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double hloc =
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min2 (s->LocH (p1, 3, 1, mparam, h), mesh.GetH(p1));
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Segment seg1;
seg1.si = i;
seg1.domin = -1;
seg1.domout = -1;
Segment seg2;
seg2.si = i;
seg2.domin = -1;
seg2.domout = -1;
seg1.surfnr1 = i;
seg2.surfnr1 = i;
seg1.surfnr2 = i;
seg2.surfnr2 = i;
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for (int j = 0; j < nsol; j++)
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{
if (geometry.GetTopLevelObject(j)->GetSurface())
continue;
const Solid * sol = geometry.GetTopLevelObject(j)->GetSolid();
sol -> TangentialSolid (p1, tansol, tansurfind, ideps*size);
layer = geometry.GetTopLevelObject(j)->GetLayer();
if (tansol)
{
tansol -> GetSurfaceIndices (tansurfind);
if (tansurfind.Size() == 1 && tansurfind.Get(1) == i)
{
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hloc = min2 (hloc, geometry.GetTopLevelObject(j)->GetMaxH());
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if (!tansol->VectorIn(p1, nv))
{
seg1.domin = j;
seg2.domin = j;
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seg1.tlosurf = -1;
seg2.tlosurf = -1;
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}
else
{
seg1.domout = j;
seg2.domout = j;
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seg1.tlosurf = -1;
seg2.tlosurf = -1;
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}
// seg.s2 = i;
// seg.invs1 = surfaces[i] -> Inverse();
// seg.invs2 = ! (surfaces[i] -> Inverse());
}
delete tansol;
}
}
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Vec<3> tv = nv.GetNormal ();
tv *= (hloc / tv.Length());
Point<3> p2 = p1 + tv;
s->Project (p2);
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if (seg1.domin != -1 || seg1.domout != -1)
{
mesh.AddPoint (p1, layer, EDGEPOINT);
mesh.AddPoint (p2, layer, EDGEPOINT);
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seg1[0] = mesh.GetNP()-1;
seg1[1] = mesh.GetNP();
seg2[1] = mesh.GetNP()-1;
seg2[0] = mesh.GetNP();
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seg1.geominfo[0].trignum = 1;
seg1.geominfo[1].trignum = 1;
seg2.geominfo[0].trignum = 1;
seg2.geominfo[1].trignum = 1;
mesh.AddSegment (seg1);
mesh.AddSegment (seg2);
PrintMessage (5, "Add line segment to smooth surface");
#ifdef DEVELOP
(*testout) << "Add segment at smooth surface " << i;
if (i != classrep) (*testout) << ", classrep = " << classrep;
(*testout) << ": "
<< mesh.Point (mesh.GetNP()-1) << " - "
<< mesh.Point (mesh.GetNP()) << endl;
#endif
}
}
}
}
}