void TPZAnalysisError::ExpandConnected(TPZStack<TPZCompElSide> &singel){
int64_t nelem = singel.NElements();
TPZStack<TPZGeoElSide> gelstack;
TPZStack<TPZCompElSide> celstack;
int64_t iel;
for(iel=0; iel<nelem; iel++) {
TPZCompElSide celside = singel[iel];
TPZGeoElSide gelside;
gelside = celside.Reference();
if(!gelside.Exists()) continue;
gelstack.Resize(0);
cout << "This part needs to be fixed\n";
// gelside.Element()->LowerDimensionSides(gelside.Side(),gelstack);
while(gelstack.NElements()) {
TPZGeoElSide gelsideloc;
gelsideloc = gelstack.Pop();
gelsideloc.EqualLevelCompElementList(celstack,1,0);
while(celstack.NElements()) {
TPZCompElSide celsideloc = celstack.Pop();
if(! celsideloc.Exists()) continue;
int64_t nelsing = singel.NElements();
int64_t smel;
for(smel=0; smel<nelsing; smel++) if(singel[smel].Element() == celsideloc.Element()) break;
if(smel != nelsing) singel.Push(celsideloc);
}
}
}
}
void TPZPrism::LowerDimensionSides(int side,TPZStack<int> &smallsides, int DimTarget)
{
smallsides.Resize(0);
int nsidecon = NContainedSides(side);
for(int is = 0; is < nsidecon - 1; is++) {
if (SideDimension(ContainedSideLocId(side,is)) == DimTarget) smallsides.Push(ContainedSideLocId(side,is));
}
}
void TPZPrism::LowerDimensionSides(int side,TPZStack<int> &smallsides)
{
smallsides.Resize(0);
int nsidecon = NContainedSides(side);
int is;
for(is=0; is<nsidecon-1; is++)
smallsides.Push(ContainedSideLocId(side,is));
}
void TPZRefQuad::GetSubElements(TPZGeoEl *father,int side, TPZStack<TPZGeoElSide> &subel){
subel.Resize(0);
if(side<0 || side>TPZShapeQuad::NSides || !father->HasSubElement()){
PZError << "TPZRefQuad::GetSubelements called with error arguments\n";
return;
}
int nsub = NSideSubElements(side);
for(int i=0;i<nsub;i++)
subel.Push(TPZGeoElSide(father->SubElement(subeldata[side][i][0]),subeldata[side][i][1]));
}
TPZMultiphysicsInterfaceElement * TPZMultiphysicsElement::CreateInterface(int side)
{
// LOGPZ_INFO(logger, "Entering CreateInterface");
TPZMultiphysicsInterfaceElement * newcreatedinterface = NULL;
TPZGeoEl *ref = Reference();
if(!ref) {
LOGPZ_WARN(logger, "Exiting CreateInterface Null reference reached - NULL interface returned");
return newcreatedinterface;
}
TPZCompElSide thisside(this,side);
TPZStack<TPZCompElSide> list;
list.Resize(0);
thisside.EqualLevelElementList(list,0,0);//retorna distinto ao atual ou nulo
int64_t size = list.NElements();
//espera-se ter os elementos computacionais esquerdo e direito
//ja criados antes de criar o elemento interface
// try to create an interface element between myself and an equal sized neighbour
for (int64_t is=0; is<size; is++)
{
//Interface has the same material of the neighbour with lesser dimension.
//It makes the interface have the same material of boundary conditions (TPZCompElDisc with interface dimension)
int matid;
int thisdim = this->Dimension();
int neighbourdim = list[is].Element()->Dimension();
if(thisdim != neighbourdim)
{
if (thisdim < neighbourdim)
{
// return the material id of boundary condition IF the associated material is derived from bndcond
TPZMaterial *mat = this->Material();
TPZBndCond *bnd = dynamic_cast<TPZBndCond *>(mat);
if(bnd)
{
matid = this->Material()->Id();
}
else
{
matid = this->Mesh()->Reference()->InterfaceMaterial(this->Reference()->MaterialId(),list[0].Element()->Reference()->MaterialId());
continue;
}
}
else
{
TPZMaterial *mat = list[is].Element()->Material();
TPZBndCond *bnd = dynamic_cast<TPZBndCond *>(mat);
if (bnd) {
matid = bnd->Id();
}
else {
matid = this->Mesh()->Reference()->InterfaceMaterial(this->Reference()->MaterialId(), list[0].Element()->Reference()->MaterialId());
continue;
}
}
}else
{
matid = this->Mesh()->Reference()->InterfaceMaterial(this->Reference()->MaterialId(), list[0].Element()->Reference()->MaterialId());
if(matid == GMESHNOMATERIAL)
{
continue;
}
}
int64_t index;
TPZGeoEl *gel = ref->CreateBCGeoEl(side,matid); //isto acertou as vizinhanas da interface geometrica com o atual
if(!gel){
DebugStop();
#ifdef LOG4CXX
if (logger->isDebugEnabled())
{
std::stringstream sout;
sout << "CreateBCGeoEl devolveu zero!@@@@";
LOGPZ_DEBUG(logger,sout.str());
}
#endif
}
bool withmem = fMesh->ApproxSpace().NeedsMemory();
if(Dimension() > list[is].Reference().Dimension()) {
//o de volume eh o direito caso um deles seja BC
//a normal aponta para fora do contorno
TPZCompElSide thiscompelside(this, thisside.Side());
TPZCompElSide neighcompelside(list[is]);
if (!withmem) {
newcreatedinterface = new TPZMultiphysicsInterfaceElement(*fMesh,gel,index,thiscompelside,neighcompelside);
}
else
{
newcreatedinterface = new TPZCompElWithMem<TPZMultiphysicsInterfaceElement>(*fMesh,gel,index,thiscompelside,neighcompelside);
}
} else {
//caso contrario ou caso ambos sejam de volume
TPZCompElSide thiscompelside(this, thisside.Side());
TPZCompElSide neighcompelside(list[is]);
if (!withmem) {
newcreatedinterface = new TPZMultiphysicsInterfaceElement(*fMesh,gel,index,neighcompelside,thiscompelside);
}
else
{
newcreatedinterface = new TPZCompElWithMem<TPZMultiphysicsInterfaceElement>(*fMesh,gel,index,neighcompelside,thiscompelside);
}
}
return newcreatedinterface;
}
//If there is no equal or lower level element, we try the lower elements.
//Higher elements will not be considered by this method. In that case the interface must be created by the neighbour.
TPZCompElSide lower = thisside.LowerLevelElementList(0);
if(lower.Exists()){
//Interface has the same material of the neighbour with lesser dimension.
//It makes the interface has the same material of boundary conditions (TPZCompElDisc with interface dimension)
int matid = GMESHNOMATERIAL;
int thisdim = this->Dimension();
int neighbourdim = lower.Element()->Dimension();
matid = this->Mesh()->Reference()->InterfaceMaterial(this->Material()->Id(), lower.Element()->Material()->Id() );
if (matid == GMESHNOMATERIAL && thisdim == neighbourdim){
// matid = this->Material()->Id();
//break;
}
else if(matid == GMESHNOMATERIAL && thisdim != neighbourdim)
{
if (thisdim < neighbourdim)
{
// return the material id of boundary condition IF the associated material is derived from bndcond
TPZMaterial *mat = this->Material();
TPZBndCond *bnd = dynamic_cast<TPZBndCond *>(mat);
if(bnd)
{
matid = this->Material()->Id();
}
else {
//continue;
}
}
else
{
TPZMaterial *mat = lower.Element()->Material();
TPZBndCond *bnd = dynamic_cast<TPZBndCond *>(mat);
if (bnd) {
matid = bnd->Id();
}
else {
//continue;
}
}
}
// return zero
if(matid == GMESHNOMATERIAL)
{
return newcreatedinterface;
}
TPZCompEl *lowcel = lower.Element();
//int lowside = lower.Side();
//existem esquerdo e direito: this e lower
TPZGeoEl *gel = ref->CreateBCGeoEl(side,matid);
int64_t index;
bool withmem = fMesh->ApproxSpace().NeedsMemory();
if(Dimension() > lowcel->Dimension()){
//para que o elemento esquerdo seja de volume
TPZCompElSide thiscompelside(this, thisside.Side());
TPZCompElSide lowcelcompelside(lower);
if (!withmem) {
newcreatedinterface = new TPZMultiphysicsInterfaceElement(*fMesh,gel,index,thiscompelside,lowcelcompelside);
}
else
{
newcreatedinterface = new TPZCompElWithMem<TPZMultiphysicsInterfaceElement>(*fMesh,gel,index,thiscompelside,lowcelcompelside);
}
} else {
TPZCompElSide thiscompelside(this, thisside.Side());
TPZCompElSide lowcelcompelside(lower);
#ifdef LOG4CXX_KEEP
if (logger->isDebugEnabled())
{
std::stringstream sout;
sout << __PRETTY_FUNCTION__ << " left element";
sout << lowcelcompelside << thiscompelside;
sout << "Left Element ";
lowcelcompelside.Element()->Print(sout);
sout << "Right Element ";
thiscompelside.Element()->Print(sout);
LOGPZ_DEBUG(logger,sout.str())
}
#endif
if (!withmem)
{
newcreatedinterface = new TPZMultiphysicsInterfaceElement(*fMesh,gel,index,lowcelcompelside,thiscompelside);
}
else
{
newcreatedinterface = new TPZCompElWithMem<TPZMultiphysicsInterfaceElement>(*fMesh,gel,index,lowcelcompelside,thiscompelside);
}
}
