netgen/libsrc/meshing/secondorder.cpp

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#include <mystdlib.h>
#include "meshing.hpp"
namespace netgen
{
void Refinement :: MakeSecondOrder (Mesh & mesh) const
{
const_cast<Refinement&> (*this).MakeSecondOrder(mesh);
}
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void Refinement :: MakeSecondOrder (Mesh & mesh)
{
int nseg, nse, ne;
mesh.ComputeNVertices();
mesh.SetNP(mesh.GetNV());
INDEX_2_HASHTABLE<int> between(mesh.GetNP() + 5);
bool thinlayers = 0;
for (ElementIndex ei = 0; ei < mesh.GetNE(); ei++)
if (mesh[ei].GetType() == PRISM ||
mesh[ei].GetType() == PRISM12)
thinlayers = 1;
nseg = mesh.GetNSeg();
for (SegmentIndex si = 0; si < nseg; si++)
{
Segment & el = mesh.LineSegment(si);
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INDEX_2 i2 = INDEX_2::Sort (el[0], el[1]);
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if (between.Used(i2))
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el[2] = between.Get(i2);
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else
{
Point<3> pb;
EdgePointGeomInfo ngi;
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PointBetween (mesh.Point (el[0]),
mesh.Point (el[1]), 0.5,
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el.surfnr1, el.surfnr2,
el.epgeominfo[0], el.epgeominfo[1],
pb, ngi);
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el[2] = mesh.AddPoint (pb);
between.Set (i2, el[2]);
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}
}
// refine surface elements
nse = mesh.GetNSE();
for (SurfaceElementIndex sei = 0; sei < nse; sei++)
{
int j;
const Element2d & el = mesh.SurfaceElement(sei);
int onp(0);
Element2d newel;
newel.SetIndex (el.GetIndex());
static int betw_trig[3][3] =
{ { 1, 2, 3 },
{ 0, 2, 4 },
{ 0, 1, 5 } };
static int betw_quad6[2][3] =
{ { 0, 1, 4 },
{ 3, 2, 5 } };
static int betw_quad8[4][3] =
{ { 0, 1, 4 },
{ 3, 2, 5 },
{ 0, 3, 6 },
{ 1, 2, 7 } };
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int (*betw)[3] = NULL;
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switch (el.GetType())
{
case TRIG:
case TRIG6:
{
betw = betw_trig;
newel.SetType (TRIG6);
onp = 3;
break;
}
case QUAD:
case QUAD6:
case QUAD8:
{
if (thinlayers)
{
betw = betw_quad6;
newel.SetType (QUAD6);
}
else
{
betw = betw_quad8;
newel.SetType (QUAD8);
}
onp = 4;
break;
}
default:
PrintSysError ("Unhandled element in secondorder:", int(el.GetType()));
}
for (j = 0; j < onp; j++)
newel[j] = el[j];
int nnp = newel.GetNP();
for (j = 0; j < nnp-onp; j++)
{
int pi1 = newel[betw[j][0]];
int pi2 = newel[betw[j][1]];
INDEX_2 i2 = INDEX_2::Sort (pi1, pi2);
if (between.Used(i2))
newel[onp+j] = between.Get(i2);
else
{
Point<3> pb;
PointGeomInfo newgi;
PointBetween (mesh.Point (pi1),
mesh.Point (pi2), 0.5,
mesh.GetFaceDescriptor(el.GetIndex ()).SurfNr(),
el.GeomInfoPi (betw[j][0]+1),
el.GeomInfoPi (betw[j][1]+1),
pb, newgi);
newel[onp+j] = mesh.AddPoint (pb);
between.Set (i2, newel[onp+j]);
}
}
mesh.SurfaceElement(sei) = newel;
}
// int i, j;
// refine volume elements
ne = mesh.GetNE();
for (int i = 1; i <= ne; i++)
{
const Element & el = mesh.VolumeElement(i);
int onp(0);
Element newel;
newel.SetIndex (el.GetIndex());
static int betw_tet[6][3] =
{ { 0, 1, 4 },
{ 0, 2, 5 },
{ 0, 3, 6 },
{ 1, 2, 7 },
{ 1, 3, 8 },
{ 2, 3, 9 } };
static int betw_prism[6][3] =
{
{ 0, 2, 6 },
{ 0, 1, 7 },
{ 1, 2, 8 },
{ 3, 5, 9 },
{ 3, 4, 10 },
{ 4, 5, 11 },
};
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int (*betw)[3] = NULL;
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switch (el.GetType())
{
case TET:
case TET10:
{
betw = betw_tet;
newel.SetType (TET10);
onp = 4;
break;
}
case PRISM:
case PRISM12:
{
betw = betw_prism;
newel.SetType (PRISM12);
onp = 6;
break;
}
default:
PrintSysError ("MakeSecondOrder, illegal vol type ", el.GetType());
}
for (int j = 1; j <= onp; j++)
newel.PNum(j) = el.PNum(j);
int nnp = newel.GetNP();
for (int j = 0; j < nnp-onp; j++)
{
INDEX_2 i2(newel[betw[j][0]],
newel[betw[j][1]]);
i2.Sort();
if (between.Used(i2))
newel.PNum(onp+1+j) = between.Get(i2);
else
{
newel.PNum(onp+1+j) = mesh.AddPoint
(Center (mesh.Point(i2.I1()),
mesh.Point(i2.I2())));
between.Set (i2, newel.PNum(onp+1+j));
}
}
mesh.VolumeElement (i) = newel;
}
// makes problems after linear mesh refinement, since
// 2nd order identifications are not removed
// update identification tables
for (int i = 1; i <= mesh.GetIdentifications().GetMaxNr(); i++)
{
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Array<int,PointIndex::BASE> identmap;
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mesh.GetIdentifications().GetMap (i, identmap);
for (INDEX_2_HASHTABLE<int>::Iterator it = between.Begin();
it != between.End(); it++)
{
INDEX_2 i2;
int newpi;
between.GetData (it, i2, newpi);
INDEX_2 oi2(identmap.Get(i2.I1()),
identmap.Get(i2.I2()));
oi2.Sort();
if (between.Used (oi2))
{
int onewpi = between.Get(oi2);
mesh.GetIdentifications().Add (newpi, onewpi, i);
}
}
/*
for (int j = 1; j <= between.GetNBags(); j++)
for (int k = 1; k <= between.GetBagSize(j); k++)
{
INDEX_2 i2;
int newpi;
between.GetData (j, k, i2, newpi);
INDEX_2 oi2(identmap.Get(i2.I1()),
identmap.Get(i2.I2()));
oi2.Sort();
if (between.Used (oi2))
{
int onewpi = between.Get(oi2);
mesh.GetIdentifications().Add (newpi, onewpi, i);
}
}
*/
}
// mesh.mglevels++;
int oldsize = mesh.mlbetweennodes.Size();
mesh.mlbetweennodes.SetSize(mesh.GetNP());
for (int i = oldsize; i < mesh.GetNP(); i++)
mesh.mlbetweennodes[i] = INDEX_2(0,0);
/*
for (i = 1; i <= between.GetNBags(); i++)
for (j = 1; j <= between.GetBagSize(i); j++)
{
INDEX_2 oldp;
int newp;
between.GetData (i, j, oldp, newp);
mesh.mlbetweennodes.Elem(newp) = oldp;
}
*/
for (INDEX_2_HASHTABLE<int>::Iterator it = between.Begin();
it != between.End(); it++)
{
mesh.mlbetweennodes[between.GetData (it)] = between.GetHash(it);
}
mesh.ComputeNVertices();
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mesh.RebuildSurfaceElementLists();
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// ValidateSecondOrder (mesh);
}
void Refinement :: ValidateSecondOrder (Mesh & mesh)
{
PrintMessage (3, "Validate mesh");
int np = mesh.GetNP();
int ne = mesh.GetNE();
// int i, j;
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Array<INDEX_2> parents(np);
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for (int i = 1; i <= np; i++)
parents.Elem(i) = INDEX_2(0,0);
for (int i = 1; i <= ne; i++)
{
const Element & el = mesh.VolumeElement(i);
if (el.GetType() == TET10)
{
static int betweentab[6][3] =
{ { 1, 2, 5 },
{ 1, 3, 6 },
{ 1, 4, 7 },
{ 2, 3, 8 },
{ 2, 4, 9 },
{ 3, 4, 10 } };
for (int j = 0; j < 6; j++)
{
int f1 = el.PNum (betweentab[j][0]);
int f2 = el.PNum (betweentab[j][1]);
int son = el.PNum (betweentab[j][2]);
parents.Elem(son).I1() = f1;
parents.Elem(son).I2() = f2;
}
}
}
ValidateRefinedMesh (mesh, parents);
}
void Refinement ::
ValidateRefinedMesh (Mesh & mesh,
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Array<INDEX_2> & parents)
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{
// int i, j, k;
// homotopy method
int ne = mesh.GetNE();
int cnttrials = 100;
int wrongels = 0;
for (int i = 1; i <= ne; i++)
if (mesh.VolumeElement(i).CalcJacobianBadness (mesh.Points()) > 1e10)
{
wrongels++;
mesh.VolumeElement(i).flags.badel = 1;
}
else
mesh.VolumeElement(i).flags.badel = 0;
double facok = 0;
double factry;
BitArray illegalels(ne);
illegalels.Clear();
if (wrongels)
{
cout << "WARNING: " << wrongels << " illegal element(s) found" << endl;
int np = mesh.GetNP();
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Array<Point<3> > should(np);
Array<Point<3> > can(np);
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for (int i = 1; i <= np; i++)
{
should.Elem(i) = can.Elem(i) = mesh.Point(i);
}
for (int i = 1; i <= parents.Size(); i++)
{
if (parents.Get(i).I1())
can.Elem(i) = Center (can.Elem(parents.Get(i).I1()),
can.Elem(parents.Get(i).I2()));
}
BitArray boundp(np);
boundp.Clear();
for (int i = 1; i <= mesh.GetNSE(); i++)
{
const Element2d & sel = mesh.SurfaceElement(i);
for (int j = 1; j <= sel.GetNP(); j++)
boundp.Set(sel.PNum(j));
}
(*testout) << "bpoints:" << endl;
for (int i = 1; i <= np; i++)
if (boundp.Test(i))
(*testout) << i << endl;
double lam = 0.5;
while (facok < 1-1e-8 && cnttrials > 0)
{
lam *= 4;
if (lam > 2) lam = 2;
do
{
// cout << "trials: " << cnttrials << endl;
lam *= 0.5;
cnttrials--;
cout << "lam = " << lam << endl;
factry = lam + (1-lam) * facok;
cout << "trying: " << factry << endl;
for (int i = 1; i <= np; i++)
if (boundp.Test(i))
{
for (int j = 0; j < 3; j++)
mesh.Point(i)(j) =
lam * should.Get(i)(j) +
(1-lam) * can.Get(i)(j);
}
else
mesh.Point(i) = Point<3> (can.Get(i));
// (*testout) << "bad els: " << endl;
wrongels = 0;
for (int i = 1; i <= ne; i++)
{
if (!illegalels.Test(i) &&
mesh.VolumeElement(i).
CalcJacobianBadness(mesh.Points()) > 1e10)
{
wrongels++;
Element & el = mesh.VolumeElement(i);
el.flags.badel = 1;
if (lam < 1e-4)
illegalels.Set(i);
/*
(*testout) << i << ": ";
for (j = 1; j <= el.GetNP(); j++)
(*testout) << el.PNum(j) << " ";
(*testout) << endl;
*/
}
else
mesh.VolumeElement(i).flags.badel = 0;
}
cout << "wrongels = " << wrongels << endl;
}
while (wrongels && cnttrials > 0);
mesh.CalcSurfacesOfNode();
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MeshingParameters dummymp;
mesh.ImproveMeshJacobian (dummymp, OPT_WORSTCASE);
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facok = factry;
for (int i = 1; i <= np; i++)
can.Elem(i) = mesh.Point(i);
}
}
for (int i = 1; i <= ne; i++)
{
if (illegalels.Test(i))
{
cout << "illegal element: " << i << endl;
mesh.VolumeElement(i).flags.badel = 1;
}
else
mesh.VolumeElement(i).flags.badel = 0;
}
/*
if (cnttrials <= 0)
{
cerr << "ERROR: Sorry, illegal elements:" << endl;
}
*/
}
}