void AdjustBoundary(TPZGeoMesh *gmesh)
{
int64_t nel = gmesh->NElements();
for (int64_t el = 0; el<nel; el++) {
TPZGeoEl *gel = gmesh->Element(el);
if (gel->Dimension() == 3 || gel->HasSubElement()) {
continue;
}
TPZGeoElSide gelside(gel,gel->NSides()-1);
TPZGeoElSide neighbour = gelside.Neighbour();
bool should_refine = false;
int nsub = -1;
int numneigh = 0;
while (gelside != neighbour) {
nsub = neighbour.Element()->NSideSubElements(neighbour.Side());
if (neighbour.Element()->HasSubElement() && nsub > 1) {
should_refine = true;
}
numneigh++;
neighbour = neighbour.Neighbour();
}
if (should_refine == true) {
TPZAutoPointer<TPZRefPattern> match = TPZRefPatternTools::PerfectMatchRefPattern(gel);
if (!match) {
DebugStop();
}
gel->SetRefPattern(match);
TPZStack<TPZGeoEl *> subels;
gel->Divide(subels);
}
}
}
TPZGeoEl* TPZGeoCloneMesh::InitializeClone(TPZGeoEl *orgel){
TPZManVector<int64_t,27> clonindex(orgel->NNodes(),-1);
int64_t nnod = orgel->NNodes();
for (int64_t i=0; i<nnod; i++){
int64_t nodindex = orgel->NodeIndex(i);
if (!HasNode(nodindex)){
// cout << "Cloning node " << nodindex << " resulting node ";
clonindex[i] = CloneNode(nodindex);
// cout << clonid << endl;
}
else{
clonindex[i] = fMapNodes[nodindex];
}
// el->SetNodeIndex(i,clonid);
}
// the nodeindexes of the new element are equal to the node indexes of the original mesh?
int64_t index;
TPZGeoEl *gel = CreateGeoElement((MElementType)orgel->Type(),clonindex,orgel->MaterialId(),index);
gel->SetRefPattern(orgel->GetRefPattern());
return gel;
// TPZGeoEl1d *el1d = dynamic_cast<TPZGeoEl1d *>(org);
// if (el1d){
// TPZVec<int> ni(2,0);
// for (i=0;i<2;i++){
// ni[i]=el1d->NodeIndex(i);
// }
// TPZGeoEl1d *gel = new TPZGeoEl1d (ni,org->MaterialId(),*this);
// return gel;
// }
// TPZGeoElC3d *elc3d = dynamic_cast<TPZGeoElC3d *>(org);
// if (elc3d) {
// TPZVec<int> ni(8,0);
// for (i=0;i<8;i++){
// ni[i]=elc3d->NodeIndex(i);
// }
// TPZGeoElC3d *gel = new TPZGeoElC3d (ni,org->MaterialId(),*this);
// return gel;
// }
// TPZGeoElPi3d *elpi3d = dynamic_cast<TPZGeoElPi3d *>(org);
// if (elpi3d) {
// TPZVec<int> ni(5,0);
// for (i=0;i<5;i++){
// ni[i]=elpi3d->NodeIndex(i);
// }
// TPZGeoElPi3d *gel = new TPZGeoElPi3d (ni,org->MaterialId(),*this);
// return gel;
// }
// TPZGeoElPoint *elpoint = dynamic_cast<TPZGeoElPoint *>(org);
// if (elpoint) {
// TPZVec<int> ni(1,0);
// for (i=0;i<1;i++){
// ni[i]=elpoint->NodeIndex(i);
// }
// TPZGeoElPoint *gel = new TPZGeoElPoint (ni,org->MaterialId(),*this);
// return gel;
// }
// TPZGeoElPr3d *elpr3d = dynamic_cast<TPZGeoElPr3d *>(org);
// if (elpr3d) {
// TPZVec<int> ni(6,0);
// for (i=0;i<6;i++){
// ni[i]=elpr3d->NodeIndex(i);
// }
// TPZGeoElPr3d *gel = new TPZGeoElPr3d (ni,org->MaterialId(),*this);
// return gel;
// }
// TPZGeoElQ2d *elq2d = dynamic_cast<TPZGeoElQ2d *>(org);
// if (elq2d) {
// TPZVec<int> ni(4,0);
// for (i=0;i<4;i++){
// ni[i]=elq2d->NodeIndex(i);
// }
// TPZGeoElQ2d *gel = new TPZGeoElQ2d (ni,org->MaterialId(),*this);
// return gel;
// }
// TPZGeoElT2d *elt2d = dynamic_cast<TPZGeoElT2d *>(org);
// if (elt2d) {
// TPZVec<int> ni(3,0);
// for (i=0;i<3;i++){
// ni[i]=elt2d->NodeIndex(i);
// }
// TPZGeoElT2d *gel = new TPZGeoElT2d (ni,org->MaterialId(),*this);
// return gel;
// }
// TPZGeoElT3d *elt3d = dynamic_cast<TPZGeoElT3d *>(org);
// if (elt3d) {
// TPZVec<int> ni(4,0);
// for (i=0;i<4;i++){
// ni[i]=elt3d->NodeIndex(i);
// }
// TPZGeoElT3d *gel = new TPZGeoElT3d (ni,org->MaterialId(),*this);
// return gel;
// }
// return 0;
}
