// map face of volume to it's baricenrtic node
map< TVolumeFaceKey, const SMDS_MeshNode* > volFace2BaryNode;
double bc[3];
+ vector<const SMDS_MeshElement* > splitVols;
TFacetOfElem::const_iterator elem2facet = theElems.begin();
for ( ; elem2facet != theElems.end(); ++elem2facet )
}
// make new volumes
- vector<const SMDS_MeshElement* > splitVols( splitMethod._nbSplits ); // splits of a volume
+ splitVols.resize( splitMethod._nbSplits ); // splits of a volume
const int* volConn = splitMethod._connectivity;
if ( splitMethod._nbCorners == 4 ) // tetra
for ( int i = 0; i < splitMethod._nbSplits; ++i, volConn += splitMethod._nbCorners )
startHex = curHex;
- // find a facet of startHex to split
+ // find a facet of startHex to split
set<const SMDS_MeshNode*> lateralNodes;
vTool.GetFaceNodes( lateralFacet, lateralNodes );
throw SALOME_Exception( THIS_METHOD "facet of a new startHex not found");
}
} // while ( startHex )
+
+ return;
+}
+
+namespace
+{
+ //================================================================================
+ /*!
+ * \brief Selects nodes of several elements according to a given interlace
+ * \param [in] srcNodes - nodes to select from
+ * \param [out] tgtNodesVec - array of nodes of several elements to fill in
+ * \param [in] interlace - indices of nodes for all elements
+ * \param [in] nbElems - nb of elements
+ * \param [in] nbNodes - nb of nodes in each element
+ * \param [in] mesh - the mesh
+ * \param [out] elemQueue - a list to push elements found by the selected nodes
+ * \param [in] type - type of elements to look for
+ */
+ //================================================================================
+
+ void selectNodes( const vector< const SMDS_MeshNode* >& srcNodes,
+ vector< const SMDS_MeshNode* >* tgtNodesVec,
+ const int* interlace,
+ const int nbElems,
+ const int nbNodes,
+ SMESHDS_Mesh* mesh = 0,
+ list< const SMDS_MeshElement* >* elemQueue=0,
+ SMDSAbs_ElementType type=SMDSAbs_All)
+ {
+ for ( int iE = 0; iE < nbElems; ++iE )
+ {
+ vector< const SMDS_MeshNode* >& elemNodes = tgtNodesVec[iE];
+ const int* select = & interlace[iE*nbNodes];
+ elemNodes.resize( nbNodes );
+ for ( int iN = 0; iN < nbNodes; ++iN )
+ elemNodes[iN] = srcNodes[ select[ iN ]];
+ }
+ const SMDS_MeshElement* e;
+ if ( elemQueue )
+ for ( int iE = 0; iE < nbElems; ++iE )
+ if (( e = mesh->FindElement( tgtNodesVec[iE], type, /*noMedium=*/false)))
+ elemQueue->push_back( e );
+ }
+}
+
+//=======================================================================
+/*
+ * Split bi-quadratic elements into linear ones without creation of additional nodes
+ * - bi-quadratic triangle will be split into 3 linear quadrangles;
+ * - bi-quadratic quadrangle will be split into 4 linear quadrangles;
+ * - tri-quadratic hexahedron will be split into 8 linear hexahedra;
+ * Quadratic elements of lower dimension adjacent to the split bi-quadratic element
+ * will be split in order to keep the mesh conformal.
+ * \param elems - elements to split
+ */
+//=======================================================================
+
+void SMESH_MeshEditor::SplitBiQuadraticIntoLinear(TIDSortedElemSet& theElems)
+{
+ vector< const SMDS_MeshNode* > elemNodes(27), subNodes[12], splitNodes[8];
+ vector<const SMDS_MeshElement* > splitElems;
+ list< const SMDS_MeshElement* > elemQueue;
+ list< const SMDS_MeshElement* >::iterator elemIt;
+
+ SMESHDS_Mesh * mesh = GetMeshDS();
+ ElemFeatures *elemType, hexaType(SMDSAbs_Volume), quadType(SMDSAbs_Face), segType(SMDSAbs_Edge);
+ int nbElems, nbNodes;
+
+ TIDSortedElemSet::iterator elemSetIt = theElems.begin();
+ for ( ; elemSetIt != theElems.end(); ++elemSetIt )
+ {
+ elemQueue.clear();
+ elemQueue.push_back( *elemSetIt );
+ for ( elemIt = elemQueue.begin(); elemIt != elemQueue.end(); ++elemIt )
+ {
+ const SMDS_MeshElement* elem = *elemIt;
+ switch( elem->GetEntityType() )
+ {
+ case SMDSEntity_TriQuad_Hexa: // HEX27
+ {
+ elemNodes.assign( elem->begin_nodes(), elem->end_nodes() );
+ nbElems = nbNodes = 8;
+ elemType = & hexaType;
+
+ // get nodes for new elements
+ static int vInd[8][8] = {{ 0,8,20,11, 16,21,26,24 },
+ { 1,9,20,8, 17,22,26,21 },
+ { 2,10,20,9, 18,23,26,22 },
+ { 3,11,20,10, 19,24,26,23 },
+ { 16,21,26,24, 4,12,25,15 },
+ { 17,22,26,21, 5,13,25,12 },
+ { 18,23,26,22, 6,14,25,13 },
+ { 19,24,26,23, 7,15,25,14 }};
+ selectNodes( elemNodes, & splitNodes[0], &vInd[0][0], nbElems, nbNodes );
+
+ // add boundary faces to elemQueue
+ static int fInd[6][9] = {{ 0,1,2,3, 8,9,10,11, 20 },
+ { 4,5,6,7, 12,13,14,15, 25 },
+ { 0,1,5,4, 8,17,12,16, 21 },
+ { 1,2,6,5, 9,18,13,17, 22 },
+ { 2,3,7,6, 10,19,14,18, 23 },
+ { 3,0,4,7, 11,16,15,19, 24 }};
+ selectNodes( elemNodes, & subNodes[0], &fInd[0][0], 6,9, mesh, &elemQueue, SMDSAbs_Face );
+
+ // add boundary segments to elemQueue
+ static int eInd[12][3] = {{ 0,1,8 }, { 1,2,9 }, { 2,3,10 }, { 3,0,11 },
+ { 4,5,12}, { 5,6,13}, { 6,7,14 }, { 7,4,15 },
+ { 0,4,16}, { 1,5,17}, { 2,6,18 }, { 3,7,19 }};
+ selectNodes( elemNodes, & subNodes[0], &eInd[0][0], 12,3, mesh, &elemQueue, SMDSAbs_Edge );
+ break;
+ }
+ case SMDSEntity_BiQuad_Triangle: // TRIA7
+ {
+ elemNodes.assign( elem->begin_nodes(), elem->end_nodes() );
+ nbElems = 3;
+ nbNodes = 4;
+ elemType = & quadType;
+
+ // get nodes for new elements
+ static int fInd[3][4] = {{ 0,3,6,5 }, { 1,4,6,3 }, { 2,5,6,4 }};
+ selectNodes( elemNodes, & splitNodes[0], &fInd[0][0], nbElems, nbNodes );
+
+ // add boundary segments to elemQueue
+ static int eInd[3][3] = {{ 0,1,3 }, { 1,2,4 }, { 2,0,5 }};
+ selectNodes( elemNodes, & subNodes[0], &eInd[0][0], 3,3, mesh, &elemQueue, SMDSAbs_Edge );
+ break;
+ }
+ case SMDSEntity_BiQuad_Quadrangle: // QUAD9
+ {
+ elemNodes.assign( elem->begin_nodes(), elem->end_nodes() );
+ nbElems = 4;
+ nbNodes = 4;
+ elemType = & quadType;
+
+ // get nodes for new elements
+ static int fInd[4][4] = {{ 0,4,8,7 }, { 1,5,8,4 }, { 2,6,8,5 }, { 3,7,8,6 }};
+ selectNodes( elemNodes, & splitNodes[0], &fInd[0][0], nbElems, nbNodes );
+
+ // add boundary segments to elemQueue
+ static int eInd[4][3] = {{ 0,1,4 }, { 1,2,5 }, { 2,3,6 }, { 3,0,7 }};
+ selectNodes( elemNodes, & subNodes[0], &eInd[0][0], 4,3, mesh, &elemQueue, SMDSAbs_Edge );
+ break;
+ }
+ case SMDSEntity_Quad_Edge:
+ {
+ if ( elemIt == elemQueue.begin() )
+ continue; // an elem is in theElems
+ elemNodes.assign( elem->begin_nodes(), elem->end_nodes() );
+ nbElems = 2;
+ nbNodes = 2;
+ elemType = & segType;
+
+ // get nodes for new elements
+ static int eInd[2][2] = {{ 0,2 }, { 2,1 }};
+ selectNodes( elemNodes, & splitNodes[0], &eInd[0][0], nbElems, nbNodes );
+ break;
+ }
+ default: continue;
+ } // switch( elem->GetEntityType() )
+
+ // Create new elements
+
+ SMESHDS_SubMesh* subMesh = mesh->MeshElements( elem->getshapeId() );
+
+ splitElems.clear();
+
+ //elemType->SetID( elem->GetID() ); // create an elem with the same ID as a removed one
+ mesh->RemoveFreeElement( elem, subMesh, /*fromGroups=*/false );
+ //splitElems.push_back( AddElement( splitNodes[ 0 ], *elemType ));
+ //elemType->SetID( -1 );
+
+ for ( int iE = 0; iE < nbElems; ++iE )
+ splitElems.push_back( AddElement( splitNodes[ iE ], *elemType ));
+
+
+ ReplaceElemInGroups( elem, splitElems, mesh );
+
+ if ( subMesh )
+ for ( size_t i = 0; i < splitElems.size(); ++i )
+ subMesh->AddElement( splitElems[i] );
+ }
+ }
}
//=======================================================================
SMDS_MeshCell::interlacedSmdsOrder( elem->GetEntityType(), nbn );
SMDS_MeshCell::applyInterlaceRev( interlace, nodeVec );
- if ( const SMDS_MeshElement* face = AddElement( nodeVec, anyFace.Init( elem )))
- myLastCreatedElems.Append( face );
+ AddElement( nodeVec, anyFace.Init( elem ));
while ( srcElements.Length() < myLastCreatedElems.Length() )
srcElements.Append( elem );
// Fill nodeNodeMap and elems
TListOfListOfNodes::iterator grIt = theGroupsOfNodes.begin();
- for ( ; grIt != theGroupsOfNodes.end(); grIt++ ) {
+ for ( ; grIt != theGroupsOfNodes.end(); grIt++ )
+ {
list<const SMDS_MeshNode*>& nodes = *grIt;
list<const SMDS_MeshNode*>::iterator nIt = nodes.begin();
const SMDS_MeshNode* nToKeep = *nIt;
- //MESSAGE("node to keep " << nToKeep->GetID());
- for ( ++nIt; nIt != nodes.end(); nIt++ ) {
+ for ( ++nIt; nIt != nodes.end(); nIt++ )
+ {
const SMDS_MeshNode* nToRemove = *nIt;
- nodeNodeMap.insert( TNodeNodeMap::value_type( nToRemove, nToKeep ));
- if ( nToRemove != nToKeep ) {
- //MESSAGE(" node to remove " << nToRemove->GetID());
+ nodeNodeMap.insert( make_pair( nToRemove, nToKeep ));
+ if ( nToRemove != nToKeep )
+ {
rmNodeIds.push_back( nToRemove->GetID() );
AddToSameGroups( nToKeep, nToRemove, aMesh );
// set _alwaysComputed to a sub-mesh of VERTEX to enable mesh computing
if ( SMESH_subMesh* sm = myMesh->GetSubMeshContaining( nToRemove->getshapeId() ))
sm->SetIsAlwaysComputed( true );
}
-
SMDS_ElemIteratorPtr invElemIt = nToRemove->GetInverseElementIterator();
while ( invElemIt->more() ) {
const SMDS_MeshElement* elem = invElemIt->next();
typedef vector<const SMDS_MeshNode*> TConnectivity;
TConnectivity tgtNodes;
- ElemFeatures elemKind( missType );
+ ElemFeatures elemKind( missType ), elemToCopy;
SMDS_ElemIteratorPtr eIt;
if (elements.empty()) eIt = aMesh->elementsIterator(elemType);
for ( int i = 0; i < nbFaceNodes; i += 1+iQuad)
{
for ( int j = 0; j < nodes.size(); ++j )
- nodes[j] =nn[i+j];
+ nodes[j] = nn[ i+j ];
if ( const SMDS_MeshElement* edge =
- aMesh->FindElement(nodes,SMDSAbs_Edge,/*noMedium=*/false))
+ aMesh->FindElement( nodes, SMDSAbs_Edge, /*noMedium=*/false ))
presentBndElems.push_back( edge );
else
missingBndElems.push_back( nodes );
tgtNodes.resize( e->NbNodes() );
for ( inode = 0; inode < nodes.size(); ++inode )
tgtNodes[inode] = getNodeWithSameID( tgtMeshDS, e->GetNode(inode) );
- presentEditor->AddElement( tgtNodes, elemKind.Init( e ));
+ presentEditor->AddElement( tgtNodes, elemToCopy.Init( e ));
}
else // store present elements to add them to a group
for ( int i = 0 ; i < presentBndElems.size(); ++i )
tgtNodes.resize( elem->NbNodes() );
for ( inode = 0; inode < tgtNodes.size(); ++inode )
tgtNodes[inode] = getNodeWithSameID( tgtMeshDS, elem->GetNode(inode) );
- tgtEditor.AddElement( tgtNodes, elemKind.Init( elem ));
+ tgtEditor.AddElement( tgtNodes, elemToCopy.Init( elem ));
tgtEditor.myLastCreatedElems.Clear();
}