Beispiel #1
0
void TPZGeoCloneMesh::Read(TPZStream &buf, void *context)
{
    TPZGeoMesh::Read(buf,context);
	try
	{
		
        fGeoReference = dynamic_cast<TPZGeoMesh *>(TPZPersistenceManager::GetInstance(&buf));
        
        buf.Read<int64_t>(fMapNodes);
        
        std::map<int64_t,int64_t> MappingElements;
        
        TPZGeoEl *gelorig, *gelcloned;
        buf.Read<int64_t>(MappingElements);
        std::map<int64_t,int64_t>::iterator it = MappingElements.begin();
        while(it != MappingElements.end()) {
            gelorig = fGeoReference->ElementVec()[it->first];
            gelcloned = ElementVec()[it->second];
            fMapElements.insert(std::make_pair(gelorig,gelcloned));
            it++;
        }
        
        // Writing index of the elements in fReferenceElement
        TPZStack<int64_t> RefElements;
        buf.Read(RefElements);
        for(int64_t ii=0;ii<RefElements.size();ii++) {
            fReferenceElement.push_back(fGeoReference->ElementVec()[RefElements[ii]]);
        }

        // Reading index of the elements in fPatchElement
        std::set<int> PatchElements;
        buf.Read(PatchElements);
        std::set<int>::iterator itpatch = PatchElements.begin();
        while(itpatch != PatchElements.end()) {
            fPatchElements.insert(fGeoReference->ElementVec()[*itpatch]);
            itpatch++;
        }
        
        int64_t indexroot;
        buf.Read(&indexroot);
        fGeoRoot = ElementVec()[indexroot];

	}
	catch(const exception& e)
	{
		cout << "Exception catched! " << e.what() << std::endl;
		cout.flush();
	}
}
Beispiel #2
0
void RefinamentoSingular(TPZAutoPointer<TPZGeoMesh> gmesh,int nref)
{
    int64_t nnodes = gmesh->NNodes();
    int64_t in;
    for (in=0; in<nnodes; in++) {
        TPZGeoNode *gno = &gmesh->NodeVec()[in];
        if (abs(gno->Coord(0))< 1.e-6 && abs(gno->Coord(1)) < 1.e-6) {
            break;
        }
    }
    if (in == nnodes) {
        DebugStop();
    }
    TPZGeoElSide gelside;
    int64_t nelem = gmesh->NElements();
    for (int64_t el = 0; el<nelem; el++) {
        TPZGeoEl *gel = gmesh->ElementVec()[el];
        int ncorner = gel->NCornerNodes();
        for (int ic=0; ic<ncorner; ic++) {
            int64_t nodeindex = gel->NodeIndex(ic);
            if (nodeindex == in) {
                gelside = TPZGeoElSide(gel, ic);
                break;
            }
        }
        if (gelside.Element()) {
            break;
        }
    }
    if (!gelside.Element()) {
        DebugStop();
    }
    for (int iref = 0; iref <nref; iref++) {
        TPZStack<TPZGeoElSide> gelstack;
        gelstack.Push(gelside);
        TPZGeoElSide neighbour = gelside.Neighbour();
        while (neighbour != gelside) {
            gelstack.Push(neighbour);
            neighbour = neighbour.Neighbour();
        }
        int64_t nstack = gelstack.size();
        for (int64_t ist=0; ist < nstack; ist++) {
            if (!gelstack[ist].Element()->HasSubElement()) {
                TPZVec<TPZGeoEl *> subel;
                gelstack[ist].Element()->Divide(subel);
            }
        }
    }
}
Beispiel #3
0
TPZCompMesh *TPZAdaptMesh::CreateCompMesh (TPZCompMesh *mesh,                                          //malha a refinar
                                           TPZVec<TPZGeoEl *> &gelstack,   //
                                           TPZVec<int> &porders) {
    
    //Cria um ponteiro para a malha geom�trica de mesh
    TPZGeoMesh *gmesh = mesh->Reference();
    if(!gmesh) {
        cout << "TPZAdaptMesh::CreateCompMesh encountered no geometric mesh\n";
        return 0;
    }
    
    //Reseta as refer�ncias do ponteiro para a malha geom�trica criada
    //e cria uma nova malha computacional baseada nesta malha geom�trica
    gmesh->ResetReference();
    TPZCompMesh *cmesh = new TPZCompMesh(gmesh);
//    int nmat = mesh->MaterialVec().size();
  //  int m;
    
    //Cria um clone do vetor de materiais da malha mesh
    mesh->CopyMaterials(*cmesh);
    /*  for(m=0; m<nmat; m++) {
     TPZMaterial * mat = mesh->MaterialVec()[m];
     if(!mat) continue;
     mat->Clone(cmesh->MaterialVec());
     }
     */
    //Idenifica o vetor de elementos computacionais de mesh
    //  TPZAdmChunkVector<TPZCompEl *> &elementvec = mesh->ElementVec();
    
    int el,nelem = gelstack.NElements();
    //  cmesh->SetName("Antes PRefine");
    //  cmesh->Print(cout);
    for(el=0; el<nelem; el++) {
        
        //identifica os elementos geom�tricos passados em gelstack
        TPZGeoEl *gel = gelstack[el];
        if(!gel) {
            cout << "TPZAdaptMesh::CreateCompMesh encountered an null element\n";
            continue;
        }
        long celindex;
        
        //Cria um TPZIntel baseado no gel identificado
        TPZInterpolatedElement *csint;
        csint = dynamic_cast<TPZInterpolatedElement *> (cmesh->CreateCompEl(gel,celindex));
        if(!csint) continue;
        
        //Refina em p o elemento criado
        //	cmesh->SetName("depois criar elemento");
        //	cmesh->Print(cout);
        
        csint->PRefine(porders[el]);
        //	cmesh->SetName("depois prefine no elemento");
        //	cmesh->Print(cout);
    }
#ifndef CLONEBCTOO
    nelem = gmesh->NElements();
    for (el=0; el<nelem; el++) {
        TPZGeoEl *gel = gmesh->ElementVec()[el];
        if (!gel || gel->Reference()) {
            continue;
        }
        int matid = gel->MaterialId();
        if (matid < 0) {
            TPZStack<TPZCompElSide> celstack;
            int ns = gel->NSides();
            TPZGeoElSide gelside(gel,ns-1);
            gelside.HigherLevelCompElementList2(celstack, 1, 1);
            if (celstack.size()) {
                TPZStack<TPZGeoEl *> subels;
                gel->Divide(subels);
            }
        }
    }
    nelem = gmesh->NElements();
    for (el=0; el<nelem; el++) {
        TPZGeoEl *gel = gmesh->ElementVec()[el];
        if (!gel || gel->Reference()) {
            continue;
        }
        int matid = gel->MaterialId();
        if (matid < 0) {
            TPZStack<TPZCompElSide> celstack;
            int ns = gel->NSides();
            TPZGeoElSide gelside(gel,ns-1);
            gelside.EqualLevelCompElementList(celstack, 1, 0);
            if (celstack.size()) {
                long index;
                cmesh->CreateCompEl(gel, index);
            }
        }
    }
#endif
    //Mais einh!!
    //	cmesh->SetName("Antes Adjust");
    //	cmesh->Print(cout);
    cmesh->AdjustBoundaryElements();
    //  cmesh->SetName("Depois");
    //  cmesh->Print(cout);
    return cmesh;
    
}