netgen/libsrc/csg/genmesh.cpp

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#include <mystdlib.h>
#include <myadt.hpp>
#include <linalg.hpp>
#include <csg.hpp>
#include <meshing.hpp>
namespace netgen
{
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Array<SpecialPoint> specpoints;
static Array<MeshPoint> spoints;
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#define TCL_OK 0
#define TCL_ERROR 1
static void FindPoints (CSGeometry & geom, Mesh & mesh)
{
PrintMessage (1, "Start Findpoints");
const char * savetask = multithread.task;
multithread.task = "Find points";
for (int i = 0; i < geom.GetNUserPoints(); i++)
{
mesh.AddPoint(geom.GetUserPoint (i));
mesh.Points().Last().Singularity (geom.GetUserPointRefFactor(i));
mesh.AddLockedPoint (PointIndex (i+1));
}
SpecialPointCalculation spc;
spc.SetIdEps(geom.GetIdEps());
if (spoints.Size() == 0)
spc.CalcSpecialPoints (geom, spoints);
PrintMessage (2, "Analyze spec points");
spc.AnalyzeSpecialPoints (geom, spoints, specpoints);
PrintMessage (5, "done");
(*testout) << specpoints.Size() << " special points:" << endl;
for (int i = 0; i < specpoints.Size(); i++)
specpoints[i].Print (*testout);
/*
for (int i = 1; i <= geom.identifications.Size(); i++)
geom.identifications.Elem(i)->IdentifySpecialPoints (specpoints);
*/
multithread.task = savetask;
}
static void FindEdges (CSGeometry & geom, Mesh & mesh, const bool setmeshsize = false)
{
EdgeCalculation ec (geom, specpoints);
ec.SetIdEps(geom.GetIdEps());
ec.Calc (mparam.maxh, mesh);
for (int i = 0; i < geom.singedges.Size(); i++)
{
geom.singedges[i]->FindPointsOnEdge (mesh);
if(setmeshsize)
geom.singedges[i]->SetMeshSize(mesh,10.*geom.BoundingBox().Diam());
}
for (int i = 0; i < geom.singpoints.Size(); i++)
geom.singpoints[i]->FindPoints (mesh);
for (int i = 1; i <= mesh.GetNSeg(); i++)
{
//(*testout) << "segment " << mesh.LineSegment(i) << endl;
int ok = 0;
for (int k = 1; k <= mesh.GetNFD(); k++)
if (mesh.GetFaceDescriptor(k).SegmentFits (mesh.LineSegment(i)))
{
ok = k;
//(*testout) << "fits to " << k << endl;
}
if (!ok)
{
ok = mesh.AddFaceDescriptor (FaceDescriptor (mesh.LineSegment(i)));
//(*testout) << "did not find, now " << ok << endl;
}
//(*testout) << "change from " << mesh.LineSegment(i).si;
mesh.LineSegment(i).si = ok;
//(*testout) << " to " << mesh.LineSegment(i).si << endl;
}
if (geom.identifications.Size())
{
PrintMessage (3, "Find Identifications");
for (int i = 0; i < geom.identifications.Size(); i++)
{
geom.identifications[i]->IdentifyPoints (mesh);
//(*testout) << "identification " << i << " is "
// << *geom.identifications[i] << endl;
}
for (int i = 0; i < geom.identifications.Size(); i++)
geom.identifications[i]->IdentifyFaces (mesh);
}
// find intersecting segments
PrintMessage (3, "Check intersecting edges");
Point3d pmin, pmax;
mesh.GetBox (pmin, pmax);
Box3dTree segtree (pmin, pmax);
for (SegmentIndex si = 0; si < mesh.GetNSeg(); si++)
{
if (mesh[si].seginfo)
{
Box<3> hbox;
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hbox.Set (mesh[mesh[si][0]]);
hbox.Add (mesh[mesh[si][1]]);
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segtree.Insert (hbox.PMin(), hbox.PMax(), si);
}
}
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Array<int> loc;
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if (!ec.point_on_edge_problem)
for (SegmentIndex si = 0; si < mesh.GetNSeg(); si++)
{
if (!mesh[si].seginfo) continue;
Box<3> hbox;
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hbox.Set (mesh[mesh[si][0]]);
hbox.Add (mesh[mesh[si][1]]);
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hbox.Increase (1e-6);
segtree.GetIntersecting (hbox.PMin(), hbox.PMax(), loc);
// for (SegmentIndex sj = 0; sj < si; sj++)
for (int j = 0; j < loc.Size(); j++)
{
SegmentIndex sj = loc[j];
if (sj >= si) continue;
if (!mesh[si].seginfo || !mesh[sj].seginfo) continue;
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if (mesh[mesh[si][0]].GetLayer() != mesh[mesh[sj][1]].GetLayer()) continue;
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Point<3> pi1 = mesh[mesh[si][0]];
Point<3> pi2 = mesh[mesh[si][1]];
Point<3> pj1 = mesh[mesh[sj][0]];
Point<3> pj2 = mesh[mesh[sj][1]];
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Vec<3> vi = pi2 - pi1;
Vec<3> vj = pj2 - pj1;
if (sqr (vi * vj) > (1.-1e-6) * Abs2 (vi) * Abs2 (vj)) continue;
// pi1 + vi t = pj1 + vj s
Mat<3,2> mat;
Vec<3> rhs;
Vec<2> sol;
for (int jj = 0; jj < 3; jj++)
{
mat(jj,0) = vi(jj);
mat(jj,1) = -vj(jj);
rhs(jj) = pj1(jj)-pi1(jj);
}
mat.Solve (rhs, sol);
//(*testout) << "mat " << mat << endl << "rhs " << rhs << endl << "sol " << sol << endl;
if (sol(0) > 1e-6 && sol(0) < 1-1e-6 &&
sol(1) > 1e-6 && sol(1) < 1-1e-6 &&
Abs (rhs - mat*sol) < 1e-6)
{
Point<3> ip = pi1 + sol(0) * vi;
//(*testout) << "ip " << ip << endl;
Point<3> pip = ip;
ProjectToEdge (geom.GetSurface (mesh[si].surfnr1),
geom.GetSurface (mesh[si].surfnr2), pip);
//(*testout) << "Dist (ip, pip_si) " << Dist (ip, pip) << endl;
if (Dist (ip, pip) > 1e-6*geom.MaxSize()) continue;
pip = ip;
ProjectToEdge (geom.GetSurface (mesh[sj].surfnr1),
geom.GetSurface (mesh[sj].surfnr2), pip);
//(*testout) << "Dist (ip, pip_sj) " << Dist (ip, pip) << endl;
if (Dist (ip, pip) > 1e-6*geom.MaxSize()) continue;
cout << "Intersection at " << ip << endl;
geom.AddUserPoint (ip);
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spoints.Append (MeshPoint (ip, mesh[mesh[si][0]].GetLayer()));
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mesh.AddPoint (ip);
(*testout) << "found intersection at " << ip << endl;
(*testout) << "sol = " << sol << endl;
(*testout) << "res = " << (rhs - mat*sol) << endl;
(*testout) << "segs = " << pi1 << " - " << pi2 << endl;
(*testout) << "and = " << pj1 << " - " << pj2 << endl << endl;
}
}
}
}
static void MeshSurface (CSGeometry & geom, Mesh & mesh)
{
const char * savetask = multithread.task;
multithread.task = "Surface meshing";
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Array<Segment> segments;
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int noldp = mesh.GetNP();
double starttime = GetTime();
// find master faces from identified
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Array<int> masterface(mesh.GetNFD());
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for (int i = 1; i <= mesh.GetNFD(); i++)
masterface.Elem(i) = i;
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Array<INDEX_2> fpairs;
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bool changed;
do
{
changed = 0;
for (int i = 0; i < geom.identifications.Size(); i++)
{
geom.identifications[i]->GetIdentifiedFaces (fpairs);
for (int j = 0; j < fpairs.Size(); j++)
{
if (masterface.Get(fpairs[j].I1()) <
masterface.Get(fpairs[j].I2()))
{
changed = 1;
masterface.Elem(fpairs[j].I2()) =
masterface.Elem(fpairs[j].I1());
}
if (masterface.Get(fpairs[j].I2()) <
masterface.Get(fpairs[j].I1()))
{
changed = 1;
masterface.Elem(fpairs[j].I1()) =
masterface.Elem(fpairs[j].I2());
}
}
}
}
while (changed);
int bccnt=0;
for (int k = 0; k < geom.GetNSurf(); k++)
bccnt = max2 (bccnt, geom.GetSurface(k)->GetBCProperty());
for (int k = 1; k <= mesh.GetNFD(); k++)
{
bool increased = false;
FaceDescriptor & fd = mesh.GetFaceDescriptor(k);
const Surface * surf = geom.GetSurface(fd.SurfNr());
if (fd.TLOSurface() &&
geom.GetTopLevelObject(fd.TLOSurface()-1) -> GetBCProp() > 0)
fd.SetBCProperty (geom.GetTopLevelObject(fd.TLOSurface()-1) -> GetBCProp());
else if (surf -> GetBCProperty() != -1)
fd.SetBCProperty (surf->GetBCProperty());
else
{
bccnt++;
fd.SetBCProperty (bccnt);
increased = true;
}
for (int l = 0; l < geom.bcmodifications.Size(); l++)
{
if (geom.GetSurfaceClassRepresentant (fd.SurfNr()) ==
geom.GetSurfaceClassRepresentant (geom.bcmodifications[l].si) &&
(fd.DomainIn() == geom.bcmodifications[l].tlonr+1 ||
fd.DomainOut() == geom.bcmodifications[l].tlonr+1))
{
if(geom.bcmodifications[l].bcname == NULL)
fd.SetBCProperty (geom.bcmodifications[l].bcnr);
else
{
if(!increased)
{
bccnt++;
fd.SetBCProperty (bccnt);
increased = true;
}
}
}
}
}
mesh.SetNBCNames( bccnt );
for (int k = 1; k <= mesh.GetNFD(); k++)
{
FaceDescriptor & fd = mesh.GetFaceDescriptor(k);
const Surface * surf = geom.GetSurface(fd.SurfNr());
if (fd.TLOSurface() )
{
int bcp = fd.BCProperty();
string nextbcname = geom.GetTopLevelObject(fd.TLOSurface()-1) -> GetBCName();
if ( nextbcname != "default" )
mesh.SetBCName ( bcp - 1 , nextbcname );
}
else // if (surf -> GetBCProperty() != -1)
{
int bcp = fd.BCProperty();
string nextbcname = surf->GetBCName();
if ( nextbcname != "default" )
mesh.SetBCName ( bcp - 1, nextbcname );
}
}
for (int k = 1; k <= mesh.GetNFD(); k++)
{
FaceDescriptor & fd = mesh.GetFaceDescriptor(k);
fd.SetBCName ( mesh.GetBCNamePtr ( fd.BCProperty() - 1 ) );
}
//!!
for (int k = 1; k <= mesh.GetNFD(); k++)
{
FaceDescriptor & fd = mesh.GetFaceDescriptor(k);
//const Surface * surf = geom.GetSurface(fd.SurfNr());
for (int l = 0; l < geom.bcmodifications.Size(); l++)
{
if (geom.GetSurfaceClassRepresentant (fd.SurfNr()) ==
geom.GetSurfaceClassRepresentant (geom.bcmodifications[l].si) &&
(fd.DomainIn() == geom.bcmodifications[l].tlonr+1 ||
fd.DomainOut() == geom.bcmodifications[l].tlonr+1) &&
geom.bcmodifications[l].bcname != NULL
)
{
int bcp = fd.BCProperty();
mesh.SetBCName ( bcp - 1, *(geom.bcmodifications[l].bcname) );
fd.SetBCName ( mesh.GetBCNamePtr ( bcp - 1) );
}
}
}
for(int k = 0; k<geom.bcmodifications.Size(); k++)
{
delete geom.bcmodifications[k].bcname;
geom.bcmodifications[k].bcname = NULL;
}
//!!
for (int j = 0; j < geom.singfaces.Size(); j++)
{
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Array<int> surfs;
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geom.GetIndependentSurfaceIndices (geom.singfaces[j]->GetSolid(),
geom.BoundingBox(), surfs);
for (int k = 1; k <= mesh.GetNFD(); k++)
{
FaceDescriptor & fd = mesh.GetFaceDescriptor(k);
for (int l = 0; l < surfs.Size(); l++)
if (surfs[l] == fd.SurfNr())
{
if (geom.singfaces[j]->GetDomainNr() == fd.DomainIn())
fd.domin_singular = 1;
if (geom.singfaces[j]->GetDomainNr() == fd.DomainOut())
fd.domout_singular = 1;
}
}
}
// assemble edge hash-table
mesh.CalcSurfacesOfNode();
for (int k = 1; k <= mesh.GetNFD(); k++)
{
multithread.percent = 100.0 * k / (mesh.GetNFD()+1e-10);
if (masterface.Get(k) != k)
continue;
FaceDescriptor & fd = mesh.GetFaceDescriptor(k);
(*testout) << "Surface " << k << endl;
(*testout) << "Face Descriptor: " << fd << endl;
PrintMessage (1, "Surface ", k, " / ", mesh.GetNFD());
int oldnf = mesh.GetNSE();
const Surface * surf =
geom.GetSurface((mesh.GetFaceDescriptor(k).SurfNr()));
Meshing2Surfaces meshing(*surf, geom.BoundingBox());
meshing.SetStartTime (starttime);
for (PointIndex pi = PointIndex::BASE; pi < noldp+PointIndex::BASE; pi++)
{
//if(surf->PointOnSurface(mesh[pi]))
meshing.AddPoint (mesh[pi], pi, NULL,
(surf->PointOnSurface(mesh[pi])!=0));
}
segments.SetSize (0);
for (SegmentIndex si = 0; si < mesh.GetNSeg(); si++)
if (mesh[si].si == k)
{
segments.Append (mesh[si]);
(*testout) << "appending segment " << mesh[si] << endl;
//<< " from " << mesh[mesh[si][0]]
// << " to " <<mesh[mesh[si][1]]<< endl;
}
(*testout) << "num-segments " << segments.Size() << endl;
for (int i = 1; i <= geom.identifications.Size(); i++)
{
geom.identifications.Get(i)->
BuildSurfaceElements(segments, mesh, surf);
}
for (int si = 0; si < segments.Size(); si++)
{
PointGeomInfo gi;
gi.trignum = k;
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meshing.AddBoundaryElement (segments[si][0] + 1 - PointIndex::BASE,
segments[si][1] + 1 - PointIndex::BASE,
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gi, gi);
}
double maxh = mparam.maxh;
if (fd.DomainIn() != 0)
{
const Solid * s1 =
geom.GetTopLevelObject(fd.DomainIn()-1) -> GetSolid();
if (s1->GetMaxH() < maxh)
maxh = s1->GetMaxH();
maxh = min2(maxh, geom.GetTopLevelObject(fd.DomainIn()-1)->GetMaxH());
}
if (fd.DomainOut() != 0)
{
const Solid * s1 =
geom.GetTopLevelObject(fd.DomainOut()-1) -> GetSolid();
if (s1->GetMaxH() < maxh)
maxh = s1->GetMaxH();
maxh = min2(maxh, geom.GetTopLevelObject(fd.DomainOut()-1)->GetMaxH());
}
if (fd.TLOSurface() != 0)
{
double hi = geom.GetTopLevelObject(fd.TLOSurface()-1) -> GetMaxH();
if (hi < maxh) maxh = hi;
}
(*testout) << "domin = " << fd.DomainIn() << ", domout = " << fd.DomainOut()
<< ", tlo-surf = " << fd.TLOSurface()
<< " mpram.maxh = " << mparam.maxh << ", maxh = " << maxh << endl;
mparam.checkoverlap = 0;
MESHING2_RESULT res =
meshing.GenerateMesh (mesh, maxh, k);
if (res != MESHING2_OK)
{
PrintError ("Problem in Surface mesh generation");
throw NgException ("Problem in Surface mesh generation");
}
if (multithread.terminate) return;
for (int i = oldnf+1; i <= mesh.GetNSE(); i++)
mesh.SurfaceElement(i).SetIndex (k);
// mesh.CalcSurfacesOfNode();
if (segments.Size())
{
// surface was meshed, not copied
PrintMessage (2, "Optimize Surface");
for (int i = 1; i <= mparam.optsteps2d; i++)
{
if (multithread.terminate) return;
{
MeshOptimize2dSurfaces meshopt(geom);
meshopt.SetFaceIndex (k);
meshopt.SetImproveEdges (0);
meshopt.SetMetricWeight (mparam.elsizeweight);
meshopt.SetWriteStatus (0);
meshopt.EdgeSwapping (mesh, (i > mparam.optsteps2d/2));
}
if (multithread.terminate) return;
{
// mesh.CalcSurfacesOfNode();
MeshOptimize2dSurfaces meshopt(geom);
meshopt.SetFaceIndex (k);
meshopt.SetImproveEdges (0);
meshopt.SetMetricWeight (mparam.elsizeweight);
meshopt.SetWriteStatus (0);
meshopt.ImproveMesh (mesh);
}
{
MeshOptimize2dSurfaces meshopt(geom);
meshopt.SetFaceIndex (k);
meshopt.SetImproveEdges (0);
meshopt.SetMetricWeight (mparam.elsizeweight);
meshopt.SetWriteStatus (0);
meshopt.CombineImprove (mesh);
// mesh.CalcSurfacesOfNode();
}
if (multithread.terminate) return;
{
MeshOptimize2dSurfaces meshopt(geom);
meshopt.SetFaceIndex (k);
meshopt.SetImproveEdges (0);
meshopt.SetMetricWeight (mparam.elsizeweight);
meshopt.SetWriteStatus (0);
meshopt.ImproveMesh (mesh);
}
}
}
PrintMessage (3, (mesh.GetNSE() - oldnf), " elements, ", mesh.GetNP(), " points");
extern void Render();
Render();
}
mesh.Compress();
do
{
changed = 0;
for (int k = 1; k <= mesh.GetNFD(); k++)
{
multithread.percent = 100.0 * k / (mesh.GetNFD()+1e-10);
if (masterface.Get(k) == k)
continue;
FaceDescriptor & fd = mesh.GetFaceDescriptor(k);
(*testout) << "Surface " << k << endl;
(*testout) << "Face Descriptor: " << fd << endl;
PrintMessage (2, "Surface ", k);
int oldnf = mesh.GetNSE();
const Surface * surf =
geom.GetSurface((mesh.GetFaceDescriptor(k).SurfNr()));
/*
if (surf -> GetBCProperty() != -1)
fd.SetBCProperty (surf->GetBCProperty());
else
{
bccnt++;
fd.SetBCProperty (bccnt);
}
*/
segments.SetSize (0);
for (int i = 1; i <= mesh.GetNSeg(); i++)
{
Segment * seg = &mesh.LineSegment(i);
if (seg->si == k)
segments.Append (*seg);
}
for (int i = 1; i <= geom.identifications.Size(); i++)
{
geom.identifications.Elem(i)->GetIdentifiedFaces (fpairs);
int found = 0;
for (int j = 1; j <= fpairs.Size(); j++)
if (fpairs.Get(j).I1() == k || fpairs.Get(j).I2() == k)
found = 1;
if (!found)
continue;
geom.identifications.Get(i)->
BuildSurfaceElements(segments, mesh, surf);
if (!segments.Size())
break;
}
if (multithread.terminate) return;
for (int i = oldnf+1; i <= mesh.GetNSE(); i++)
mesh.SurfaceElement(i).SetIndex (k);
if (!segments.Size())
{
masterface.Elem(k) = k;
changed = 1;
}
PrintMessage (3, (mesh.GetNSE() - oldnf), " elements, ", mesh.GetNP(), " points");
}
extern void Render();
Render();
}
while (changed);
mesh.SplitSeparatedFaces();
mesh.CalcSurfacesOfNode();
multithread.task = savetask;
}
int GenerateMesh (CSGeometry & geom,
Mesh *& mesh,
int perfstepsstart, int perfstepsend,
const char * optstr)
{
if (mesh && mesh->GetNSE() &&
!geom.GetNSolids())
{
if (perfstepsstart < MESHCONST_MESHVOLUME)
perfstepsstart = MESHCONST_MESHVOLUME;
}
if (perfstepsstart <= MESHCONST_ANALYSE)
{
if (mesh)
mesh -> DeleteMesh();
else
mesh = new Mesh();
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mesh->SetGlobalH (mparam.maxh);
mesh->SetMinimalH (mparam.minh);
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Array<double> maxhdom(geom.GetNTopLevelObjects());
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for (int i = 0; i < maxhdom.Size(); i++)
maxhdom[i] = geom.GetTopLevelObject(i)->GetMaxH();
mesh->SetMaxHDomain (maxhdom);
if (mparam.uselocalh)
{
double maxsize = geom.MaxSize();
mesh->SetLocalH (Point<3>(-maxsize, -maxsize, -maxsize),
Point<3>(maxsize, maxsize, maxsize),
mparam.grading);
mesh -> LoadLocalMeshSize (mparam.meshsizefilename);
}
spoints.SetSize(0);
FindPoints (geom, *mesh);
PrintMessage (5, "find points done");
#ifdef LOG_STREAM
(*logout) << "Special points found" << endl
<< "time = " << GetTime() << " sec" << endl
<< "points: " << mesh->GetNP() << endl << endl;
#endif
}
if (multithread.terminate || perfstepsend <= MESHCONST_ANALYSE)
return TCL_OK;
if (perfstepsstart <= MESHCONST_MESHEDGES)
{
FindEdges (geom, *mesh, true);
if (multithread.terminate) return TCL_OK;
#ifdef LOG_STREAM
(*logout) << "Edges meshed" << endl
<< "time = " << GetTime() << " sec" << endl
<< "points: " << mesh->GetNP() << endl;
#endif
if (multithread.terminate)
return TCL_OK;
if (mparam.uselocalh)
{
mesh->CalcLocalH();
mesh->DeleteMesh();
FindPoints (geom, *mesh);
if (multithread.terminate) return TCL_OK;
FindEdges (geom, *mesh, true);
if (multithread.terminate) return TCL_OK;
mesh->DeleteMesh();
FindPoints (geom, *mesh);
if (multithread.terminate) return TCL_OK;
FindEdges (geom, *mesh);
if (multithread.terminate) return TCL_OK;
}
}
if (multithread.terminate || perfstepsend <= MESHCONST_MESHEDGES)
return TCL_OK;
if (perfstepsstart <= MESHCONST_MESHSURFACE)
{
MeshSurface (geom, *mesh);
if (multithread.terminate) return TCL_OK;
#ifdef LOG_STREAM
(*logout) << "Surfaces meshed" << endl
<< "time = " << GetTime() << " sec" << endl
<< "points: " << mesh->GetNP() << endl;
#endif
if (mparam.uselocalh && 0)
{
mesh->CalcLocalH();
mesh->DeleteMesh();
FindPoints (geom, *mesh);
if (multithread.terminate) return TCL_OK;
FindEdges (geom, *mesh);
if (multithread.terminate) return TCL_OK;
MeshSurface (geom, *mesh);
if (multithread.terminate) return TCL_OK;
}
#ifdef LOG_STREAM
(*logout) << "Surfaces remeshed" << endl
<< "time = " << GetTime() << " sec" << endl
<< "points: " << mesh->GetNP() << endl;
#endif
#ifdef STAT_STREAM
(*statout) << mesh->GetNSeg() << " & "
<< mesh->GetNSE() << " & - &"
<< GetTime() << " & " << endl;
#endif
MeshQuality2d (*mesh);
mesh->CalcSurfacesOfNode();
}
if (multithread.terminate || perfstepsend <= MESHCONST_OPTSURFACE)
return TCL_OK;
if (perfstepsstart <= MESHCONST_MESHVOLUME)
{
multithread.task = "Volume meshing";
MESHING3_RESULT res =
MeshVolume (mparam, *mesh);
if (res != MESHING3_OK) return TCL_ERROR;
if (multithread.terminate) return TCL_OK;
RemoveIllegalElements (*mesh);
if (multithread.terminate) return TCL_OK;
MeshQuality3d (*mesh);
for (int i = 0; i < geom.GetNTopLevelObjects(); i++)
mesh->SetMaterial (i+1, geom.GetTopLevelObject(i)->GetMaterial().c_str());
#ifdef STAT_STREAM
(*statout) << GetTime() << " & ";
#endif
#ifdef LOG_STREAM
(*logout) << "Volume meshed" << endl
<< "time = " << GetTime() << " sec" << endl
<< "points: " << mesh->GetNP() << endl;
#endif
}
if (multithread.terminate || perfstepsend <= MESHCONST_MESHVOLUME)
return TCL_OK;
if (perfstepsstart <= MESHCONST_OPTVOLUME)
{
multithread.task = "Volume optimization";
OptimizeVolume (mparam, *mesh);
if (multithread.terminate) return TCL_OK;
#ifdef STAT_STREAM
(*statout) << GetTime() << " & "
<< mesh->GetNE() << " & "
<< mesh->GetNP() << " " << '\\' << '\\' << " \\" << "hline" << endl;
#endif
#ifdef LOG_STREAM
(*logout) << "Volume optimized" << endl
<< "time = " << GetTime() << " sec" << endl
<< "points: " << mesh->GetNP() << endl;
#endif
}
return TCL_OK;
}
}