*/
int SMDS_UnstructuredGrid::getOrderedNodesOfFace(int vtkVolId, int& dim, std::vector<vtkIdType>& orderedNodes)
{
- int vtkType = this->GetCellType(vtkVolId);
- dim = SMDS_Downward::getCellDimension(vtkType);
+ int vtkType = this->GetCellType( vtkVolId );
+ dim = SMDS_Downward::getCellDimension( vtkType );
if (dim == 3)
- {
- SMDS_Down3D *downvol = static_cast<SMDS_Down3D*> (_downArray[vtkType]);
- int downVolId = this->_cellIdToDownId[vtkVolId];
- downvol->getOrderedNodesOfFace(downVolId, orderedNodes);
- }
+ {
+ SMDS_Down3D *downvol = static_cast<SMDS_Down3D*> (_downArray[vtkType]);
+ int downVolId = this->_cellIdToDownId[ vtkVolId ];
+ downvol->getOrderedNodesOfFace(downVolId, orderedNodes);
+ }
// else nothing to do;
return orderedNodes.size();
}
break;
default:
isQuadratic = false;
- break;
+ break;
}
if (isQuadratic)
+ {
+ long dom1 = domain1;
+ long dom2 = domain2;
+ long dom1_2; // for nodeQuadDomains
+ if (domain1 < domain2)
+ dom1_2 = dom1 + INT_MAX * dom2;
+ else
+ dom1_2 = dom2 + INT_MAX * dom1;
+ //cerr << "dom1=" << dom1 << " dom2=" << dom2 << " dom1_2=" << dom1_2 << endl;
+ int ima = orderedOriginals.size();
+ int mid = orderedOriginals.size() / 2;
+ //cerr << "ima=" << ima << " mid=" << mid << endl;
+ for (int i = 0; i < mid; i++)
+ orderedNodes.push_back(nodeDomains[orderedOriginals[i]][domain1]);
+ for (int i = 0; i < mid; i++)
+ orderedNodes.push_back(nodeDomains[orderedOriginals[i]][domain2]);
+ for (int i = mid; i < ima; i++)
+ orderedNodes.push_back(nodeDomains[orderedOriginals[i]][domain1]);
+ for (int i = mid; i < ima; i++)
+ orderedNodes.push_back(nodeDomains[orderedOriginals[i]][domain2]);
+ for (int i = 0; i < mid; i++)
{
- long dom1 = domain1;
- long dom2 = domain2;
- long dom1_2; // for nodeQuadDomains
- if (domain1 < domain2)
- dom1_2 = dom1 + INT_MAX * dom2;
+ int oldId = orderedOriginals[i];
+ int newId;
+ if (nodeQuadDomains.count(oldId) && nodeQuadDomains[oldId].count(dom1_2))
+ newId = nodeQuadDomains[oldId][dom1_2];
else
- dom1_2 = dom2 + INT_MAX * dom1;
- //cerr << "dom1=" << dom1 << " dom2=" << dom2 << " dom1_2=" << dom1_2 << endl;
- int ima = orderedOriginals.size();
- int mid = orderedOriginals.size() / 2;
- //cerr << "ima=" << ima << " mid=" << mid << endl;
- for (int i = 0; i < mid; i++)
- orderedNodes.push_back(nodeDomains[orderedOriginals[i]][domain1]);
- for (int i = 0; i < mid; i++)
- orderedNodes.push_back(nodeDomains[orderedOriginals[i]][domain2]);
- for (int i = mid; i < ima; i++)
- orderedNodes.push_back(nodeDomains[orderedOriginals[i]][domain1]);
- for (int i = mid; i < ima; i++)
- orderedNodes.push_back(nodeDomains[orderedOriginals[i]][domain2]);
- for (int i = 0; i < mid; i++)
+ {
+ double *coords = this->GetPoint(oldId);
+ SMDS_MeshNode *newNode = _mesh->AddNode(coords[0], coords[1], coords[2]);
+ newId = newNode->GetVtkID();
+ if (! nodeQuadDomains.count(oldId))
{
- int oldId = orderedOriginals[i];
- int newId;
- if (nodeQuadDomains.count(oldId) && nodeQuadDomains[oldId].count(dom1_2))
- newId = nodeQuadDomains[oldId][dom1_2];
- else
- {
- double *coords = this->GetPoint(oldId);
- SMDS_MeshNode *newNode = _mesh->AddNode(coords[0], coords[1], coords[2]);
- newId = newNode->GetVtkID();
- if (! nodeQuadDomains.count(oldId))
- {
- std::map<long, int> emptyMap;
- nodeQuadDomains[oldId] = emptyMap;
- }
- nodeQuadDomains[oldId][dom1_2] = newId;
- }
- orderedNodes.push_back(newId);
+ std::map<long, int> emptyMap;
+ nodeQuadDomains[oldId] = emptyMap;
}
+ nodeQuadDomains[oldId][dom1_2] = newId;
+ }
+ orderedNodes.push_back(newId);
}
+ }
else
- {
+ {
+ for (int i = 0; i < nbNodes; i++)
+ orderedNodes.push_back(nodeDomains[orderedOriginals[i]][domain1]);
+ if (dim == 3)
for (int i = 0; i < nbNodes; i++)
- orderedNodes.push_back(nodeDomains[orderedOriginals[i]][domain1]);
- if (dim == 3)
- for (int i = 0; i < nbNodes; i++)
- orderedNodes.push_back(nodeDomains[orderedOriginals[i]][domain2]);
- else
- for (int i = nbNodes-1; i >= 0; i--)
- orderedNodes.push_back(nodeDomains[orderedOriginals[i]][domain2]);
+ orderedNodes.push_back(nodeDomains[orderedOriginals[i]][domain2]);
+ else
+ for (int i = nbNodes-1; i >= 0; i--)
+ orderedNodes.push_back(nodeDomains[orderedOriginals[i]][domain2]);
- }
+ }
if (dim == 3)
- {
- SMDS_MeshVolume *vol = _mesh->AddVolumeFromVtkIds(orderedNodes);
- return vol;
- }
+ {
+ SMDS_MeshVolume *vol = _mesh->AddVolumeFromVtkIds(orderedNodes);
+ return vol;
+ }
else if (dim == 2)
+ {
+ // bos #24368
+ // orient face by the original one, as getOrderedNodesOfFace() not implemented for faces
+ const SMDS_MeshElement* origFace = _mesh->FindElementVtk( vtkVolId );
+ int i0 = origFace->GetNodeIndex( _mesh->FindNodeVtk( orderedNodes[0] ));
+ int i1 = origFace->GetNodeIndex( _mesh->FindNodeVtk( orderedNodes[1] ));
+ int diff = i0 - i1;
+ // order of nodes must be reverse in face and origFace
+ bool oriOk = ( diff == 1 ) || ( diff == -3 );
+ if ( !oriOk )
{
- SMDS_MeshFace *face = _mesh->AddFaceFromVtkIds(orderedNodes);
- return face;
+ SMDSAbs_EntityType type = isQuadratic ? SMDSEntity_Quad_Quadrangle : SMDSEntity_Quadrangle;
+ const std::vector<int>& interlace = SMDS_MeshCell::reverseSmdsOrder( type );
+ SMDS_MeshCell::applyInterlace( interlace, orderedNodes );
}
+ SMDS_MeshFace *face = _mesh->AddFaceFromVtkIds(orderedNodes);
+ return face;
+ }
// TODO update sub-shape list of elements and nodes
return 0;
