// Read elements
- int iN[28];
+ int iN[28]; // 28 - nb nodes in HEX27 (+ 1 for safety :)
+
+ /* Read extra vertices for quadratic edges */
+ std::vector<int> quadNodesAtEdges;
+ int nbQuadEdges = 0;
+ if ( (nbQuadEdges = GmfStatKwd(meshID, GmfExtraVerticesAtEdges)) )
+ {
+ quadNodesAtEdges.reserve( nbQuadEdges );
+ GmfGotoKwd(meshID, GmfExtraVerticesAtEdges);
+ for ( int i = 1; i <= nbQuadEdges; ++i )
+ {
+ GmfGetLin(meshID, GmfExtraVerticesAtEdges, &iN[0], &iN[1], &iN[2]);
+ quadNodesAtEdges.push_back(iN[2]);
+ }
+ }
/* Read edges */
const int edgeIDShift = myMesh->GetMeshInfo().NbElements();
if ( int nbEdges = GmfStatKwd(meshID, GmfEdges))
{
+ const bool readQuadNodes = ( nbQuadEdges == nbEdges );
GmfGotoKwd(meshID, GmfEdges);
for ( int i = 1; i <= nbEdges; ++i )
{
GmfGetLin(meshID, GmfEdges, &iN[0], &iN[1], &ref);
- if ( !myMesh->AddEdgeWithID( iN[0], iN[1], edgeIDShift + i ))
- status = storeBadNodeIds( "GmfEdges",i, 2, iN[0], iN[1] );
+ if ( readQuadNodes )
+ {
+ const int midN = quadNodesAtEdges[i-1];
+ if ( !myMesh->AddEdgeWithID( iN[0], iN[1], midN, edgeIDShift + i ))
+ status = storeBadNodeIds( "GmfEdges + GmfExtraVerticesAtEdges",i, 3, iN[0],iN[1],midN);
+ }
+ else
+ {
+ if ( !myMesh->AddEdgeWithID( iN[0], iN[1], edgeIDShift + i ))
+ status = storeBadNodeIds( "GmfEdges",i, 2, iN[0], iN[1] );
+ }
}
}
- /* Read quadratic edges */
- const int edge2IDShift = myMesh->GetMeshInfo().NbElements();
- if ( int nbEdges = GmfStatKwd(meshID, GmfEdgesP2))
+
+ /* Read extra vertices for quadratic triangles */
+ std::vector< std::vector<int> > quadNodes;
+ int nbQuadTria = 0;
+ if ( (nbQuadTria = GmfStatKwd(meshID, GmfExtraVerticesAtTriangles)) )
{
- GmfGotoKwd(meshID, GmfEdgesP2);
- for ( int i = 1; i <= nbEdges; ++i )
+ GmfGotoKwd(meshID, GmfExtraVerticesAtTriangles);
+ quadNodes.reserve( nbQuadTria );
+ std::vector<int> nodes(4);
+ for ( int i = 1; i <= nbQuadTria; ++i )
{
- GmfGetLin(meshID, GmfEdgesP2, &iN[0], &iN[1], &iN[2], &ref);
- if ( !myMesh->AddEdgeWithID( iN[0], iN[1], iN[2], edge2IDShift + i ))
- status = storeBadNodeIds( "GmfEdgesP2",i, 3, iN[0], iN[1], iN[2] );
+ GmfGetLin(meshID, GmfExtraVerticesAtTriangles,
+ &iN[0], &iN[1], &iN[2], &iN[3], &iN[4],
+ &iN[5]); // iN[5] - preview TRIA7
+ nodes.clear();
+ nodes.push_back(iN[2]);
+ nodes.push_back(iN[3]);
+ nodes.push_back(iN[4]);
+ nodes.push_back(iN[5]);
+ nodes.resize( iN[1] );
+
+ quadNodes.push_back(nodes);
}
}
+
/* Read triangles */
const int triaIDShift = myMesh->GetMeshInfo().NbElements();
if ( int nbTria = GmfStatKwd(meshID, GmfTriangles))
{
+ const bool readQuadNodes = (nbQuadTria == nbTria);
GmfGotoKwd(meshID, GmfTriangles);
for ( int i = 1; i <= nbTria; ++i )
{
GmfGetLin(meshID, GmfTriangles, &iN[0], &iN[1], &iN[2], &ref);
- if ( !myMesh->AddFaceWithID( iN[0], iN[1], iN[2], triaIDShift + i ))
- status = storeBadNodeIds( "GmfTriangles",i, 3, iN[0], iN[1], iN[2] );
+ if ( readQuadNodes )
+ {
+ const std::vector<int>& midN = quadNodes[ i-1 ];
+ if ( !myMesh->AddFaceWithID( iN[0],iN[1],iN[2], midN[0],midN[1],midN[2], triaIDShift + i ))
+ status = storeBadNodeIds( "GmfTriangles + GmfExtraVerticesAtTriangles",i, 6,
+ iN[0],iN[1],iN[2], midN[0],midN[1],midN[2] );
+ }
+ else
+ {
+ if ( !myMesh->AddFaceWithID( iN[0], iN[1], iN[2], triaIDShift + i ))
+ status = storeBadNodeIds( "GmfTriangles",i, 3, iN[0], iN[1], iN[2] );
+ }
}
}
- /* Read quadratic triangles */
- const int tria2IDShift = myMesh->GetMeshInfo().NbElements();
- if ( int nbTria = GmfStatKwd(meshID, GmfTrianglesP2))
+
+ /* Read extra vertices for quadratic quadrangles */
+ std::vector< std::vector<int> > quadNodesAtQuadrilaterals;
+ int nbQuadQuad = 0;
+ if ( (nbQuadQuad = GmfStatKwd(meshID, GmfExtraVerticesAtQuadrilaterals)) )
{
- GmfGotoKwd(meshID, GmfTrianglesP2);
- for ( int i = 1; i <= nbTria; ++i )
+ GmfGotoKwd(meshID, GmfExtraVerticesAtQuadrilaterals);
+ quadNodesAtQuadrilaterals.reserve( nbQuadQuad );
+ std::vector<int> nodes( 5 );
+ for ( int i = 1; i <= nbQuadQuad; ++i )
{
- GmfGetLin(meshID, GmfTrianglesP2,
- &iN[0], &iN[1], &iN[2], &iN[3], &iN[4], &iN[5], &ref);
- if ( !myMesh->AddFaceWithID( iN[0],iN[1],iN[2],iN[3],iN[4],iN[5],
- tria2IDShift + i ))
- status = storeBadNodeIds( "GmfTrianglesP2",i, 6, iN[0],iN[1],iN[2],iN[3],iN[4],iN[5] );
+ GmfGetLin(meshID, GmfExtraVerticesAtQuadrilaterals,
+ &iN[0], &iN[1], &iN[2], &iN[3], &iN[4], &iN[5], &iN[6]);
+ nodes.clear();
+ nodes.push_back(iN[2]);
+ nodes.push_back(iN[3]);
+ nodes.push_back(iN[4]);
+ nodes.push_back(iN[5]);
+ nodes.push_back(iN[6]);
+ nodes.resize( iN[1] );
+
+ quadNodesAtQuadrilaterals.push_back(nodes);
}
}
- /* Read quadrangles */
+
+ /* Read quadrangles */
const int quadIDShift = myMesh->GetMeshInfo().NbElements();
if ( int nbQuad = GmfStatKwd(meshID, GmfQuadrilaterals))
{
+ const bool readQuadNodes = (nbQuadQuad == nbQuad);
GmfGotoKwd(meshID, GmfQuadrilaterals);
for ( int i = 1; i <= nbQuad; ++i )
{
GmfGetLin(meshID, GmfQuadrilaterals, &iN[0], &iN[1], &iN[2], &iN[3], &ref);
- if ( !myMesh->AddFaceWithID( iN[0], iN[1], iN[2], iN[3], quadIDShift + i ))
- status = storeBadNodeIds( "GmfQuadrilaterals",i, 4, iN[0], iN[1],iN[2], iN[3] );
- }
- }
- /* Read bi-quadratic quadrangles */
- const int quad2IDShift = myMesh->GetMeshInfo().NbElements();
- if ( int nbQuad = GmfStatKwd(meshID, GmfQuadrilateralsQ2))
- {
- GmfGotoKwd(meshID, GmfQuadrilateralsQ2);
- for ( int i = 1; i <= nbQuad; ++i )
- {
- GmfGetLin(meshID, GmfQuadrilateralsQ2,
- &iN[0], &iN[1], &iN[2], &iN[3], &iN[4], &iN[5], &iN[6], &iN[7], &iN[8], &ref);
- if ( !myMesh->AddFaceWithID( iN[0],iN[1],iN[2],iN[3],iN[4],iN[5],iN[6],iN[7],iN[8],
- quad2IDShift + i ))
- status = storeBadNodeIds( "GmfQuadrilateralsQ2",i,
- 9, iN[0],iN[1],iN[2],iN[3],iN[4],iN[5],iN[6],iN[7],iN[8] );
+ if ( readQuadNodes )
+ {
+ const std::vector<int>& midN = quadNodesAtQuadrilaterals[ i-1 ];
+ if ( midN.size() == 4 )
+ {
+ if ( !myMesh->AddFaceWithID( iN[0], iN[1], iN[2], iN[3],
+ midN[0], midN[1], midN[2], midN[3],
+ quadIDShift + i ))
+ status = storeBadNodeIds( "GmfQuadrilaterals + GmfExtraVerticesAtQuadrilaterals",i, 8,
+ iN[0], iN[1],iN[2], iN[3],
+ midN[0], midN[1], midN[2], midN[3]);
+ }
+ else
+ {
+ if ( !myMesh->AddFaceWithID( iN[0], iN[1], iN[2], iN[3],
+ midN[0], midN[1], midN[2], midN[3], midN[4],
+ quadIDShift + i ))
+ status = storeBadNodeIds( "GmfQuadrilaterals + GmfExtraVerticesAtQuadrilaterals",i, 9,
+ iN[0], iN[1],iN[2], iN[3],
+ midN[0], midN[1], midN[2], midN[3], midN[4]);
+ }
+ }
+ else
+ {
+ if ( !myMesh->AddFaceWithID( iN[0], iN[1], iN[2], iN[3], quadIDShift + i ))
+ status = storeBadNodeIds( "GmfQuadrilaterals",i, 4, iN[0], iN[1],iN[2], iN[3] );
+ }
}
}
+
/* Read terahedra */
const int tetIDShift = myMesh->GetMeshInfo().NbElements();
if ( int nbTet = GmfStatKwd(meshID, GmfTetrahedra))
const SMDS_MeshElement* elem = elemIt->next(); \
GmfSetLin(meshID, GmfKwd,
+#define BEGIN_EXTRA_VERTICES_WRITE( SMDSEntity, GmfKwd, elem, nbVertices ) \
+ elemIt = myMesh->elementEntityIterator( SMDSEntity ); \
+ if ( elemIt->more() ) \
+ { \
+ GmfSetKwd(meshID, GmfKwd, myMesh->GetMeshInfo().NbEntities( SMDSEntity )); \
+ for ( int gmfID = 1; elemIt->more(); ++gmfID ) \
+ { \
+ const SMDS_MeshElement* elem = elemIt->next(); \
+ GmfSetLin(meshID, GmfKwd, gmfID, nbVertices,
+
#define END_ELEM_WRITE( elem ) \
elem->getshapeId() ); \
}} \
e2id.insert( e2id.end(), make_pair( elem, gmfID )); \
}} \
+#define END_EXTRA_VERTICES_WRITE() \
+ ); \
+ }} \
+
DriverGMF_Write::DriverGMF_Write():
Driver_SMESHDS_Mesh(), _exportRequiredGroups( true )
{
}
+//================================================================================
+/*!
+ * \brief Reads a GMF file
+ */
+//================================================================================
+
Driver_Mesh::Status DriverGMF_Write::Perform()
{
Kernel_Utils::Localizer loc;
node2IdMap[ edge->GetNode( 0 )],
node2IdMap[ edge->GetNode( 1 )],
END_ELEM_WRITE_ADD_TO_MAP( edge, edge2IDMap );
-
+
// quadratic edges
- BEGIN_ELEM_WRITE( SMDSEntity_Quad_Edge, GmfEdgesP2, edge )
+ BEGIN_ELEM_WRITE( SMDSEntity_Quad_Edge, GmfEdges, edge )
node2IdMap[ edge->GetNode( 0 )],
node2IdMap[ edge->GetNode( 1 )],
- node2IdMap[ edge->GetNode( 2 )],
END_ELEM_WRITE( edge );
-
+
+ BEGIN_EXTRA_VERTICES_WRITE( SMDSEntity_Quad_Edge, GmfExtraVerticesAtEdges, edge, 1 )
+ node2IdMap[ edge->GetNode( 2 )]
+ END_EXTRA_VERTICES_WRITE();
+
// triangles
TElem2IDMap tria2IDMap;
BEGIN_ELEM_WRITE( SMDSEntity_Triangle, GmfTriangles, tria )
node2IdMap[ tria->GetNode( 1 )],
node2IdMap[ tria->GetNode( 2 )],
END_ELEM_WRITE_ADD_TO_MAP( tria, tria2IDMap );
-
+
// quadratic triangles
- BEGIN_ELEM_WRITE( SMDSEntity_Quad_Triangle, GmfTrianglesP2, tria )
+ BEGIN_ELEM_WRITE( SMDSEntity_Quad_Triangle, GmfTriangles, tria )
node2IdMap[ tria->GetNode( 0 )],
node2IdMap[ tria->GetNode( 1 )],
node2IdMap[ tria->GetNode( 2 )],
+ END_ELEM_WRITE( tria );
+
+ BEGIN_EXTRA_VERTICES_WRITE( SMDSEntity_Quad_Triangle, GmfExtraVerticesAtTriangles, tria, 3 )
node2IdMap[ tria->GetNode( 3 )],
node2IdMap[ tria->GetNode( 4 )],
- node2IdMap[ tria->GetNode( 5 )],
- END_ELEM_WRITE( tria );
-
+ node2IdMap[ tria->GetNode( 5 )]
+ END_EXTRA_VERTICES_WRITE();
+
// quadrangles
TElem2IDMap quad2IDMap;
BEGIN_ELEM_WRITE( SMDSEntity_Quadrangle, GmfQuadrilaterals, quad )
node2IdMap[ quad->GetNode( 3 )],
END_ELEM_WRITE_ADD_TO_MAP( quad, quad2IDMap );
- // bi-quadratic quadrangles
- BEGIN_ELEM_WRITE( SMDSEntity_BiQuad_Quadrangle, GmfQuadrilateralsQ2, quad )
+ // quadratic quadrangles
+ BEGIN_ELEM_WRITE( SMDSEntity_Quad_Quadrangle, GmfQuadrilaterals, quad )
node2IdMap[ quad->GetNode( 0 )],
- node2IdMap[ quad->GetNode( 3 )],
- node2IdMap[ quad->GetNode( 2 )],
node2IdMap[ quad->GetNode( 1 )],
- node2IdMap[ quad->GetNode( 7 )],
- node2IdMap[ quad->GetNode( 6 )],
- node2IdMap[ quad->GetNode( 5 )],
+ node2IdMap[ quad->GetNode( 2 )],
+ node2IdMap[ quad->GetNode( 3 )],
+ END_ELEM_WRITE( quad );
+
+ BEGIN_EXTRA_VERTICES_WRITE( SMDSEntity_Quad_Quadrangle, GmfExtraVerticesAtQuadrilaterals, quad, 4 )
node2IdMap[ quad->GetNode( 4 )],
- node2IdMap[ quad->GetNode( 8 )],
+ node2IdMap[ quad->GetNode( 5 )],
+ node2IdMap[ quad->GetNode( 6 )],
+ node2IdMap[ quad->GetNode( 7 )]
+ END_EXTRA_VERTICES_WRITE();
+
+ // bi-quadratic quadrangles
+ BEGIN_ELEM_WRITE( SMDSEntity_BiQuad_Quadrangle, GmfQuadrilaterals, quad )
+ node2IdMap[ quad->GetNode( 0 )],
+ node2IdMap[ quad->GetNode( 1 )],
+ node2IdMap[ quad->GetNode( 2 )],
+ node2IdMap[ quad->GetNode( 3 )],
END_ELEM_WRITE( quad );
-
+
+ BEGIN_EXTRA_VERTICES_WRITE( SMDSEntity_BiQuad_Quadrangle, GmfExtraVerticesAtQuadrilaterals, quad, 5 )
+ node2IdMap[ quad->GetNode( 4 )],
+ node2IdMap[ quad->GetNode( 5 )],
+ node2IdMap[ quad->GetNode( 6 )],
+ node2IdMap[ quad->GetNode( 7 )],
+ node2IdMap[ quad->GetNode( 8 )]
+ END_EXTRA_VERTICES_WRITE();
+
// terahedra
BEGIN_ELEM_WRITE( SMDSEntity_Tetra, GmfTetrahedra, tetra )
node2IdMap[ tetra->GetNode( 0 )],
node2IdMap[ tetra->GetNode( 1 )],
node2IdMap[ tetra->GetNode( 3 )],
END_ELEM_WRITE( tetra );
-
+
// quadratic terahedra
BEGIN_ELEM_WRITE( SMDSEntity_Quad_Tetra, GmfTetrahedraP2, tetra )
node2IdMap[ tetra->GetNode( 0 )],
