-
- int nbNodes, nbCells;
- int i;
-
- char *file2Read = (char *)myFile.c_str();
- myFileId = fopen(file2Read, "w+");
- if (myFileId < 0)
- {
- fprintf(stderr, ">> ERREUR : ouverture du fichier %s \n", file2Read);
- exit(EXIT_FAILURE);
- }
- SCRUTE(myMesh);
- /****************************************************************************
- * NOMBRES D'OBJETS *
- ****************************************************************************/
- fprintf(stdout, "\n(****************************)\n");
- fprintf(stdout, "(* INFORMATIONS GENERALES : *)\n");
- fprintf(stdout, "(****************************)\n");
-
- /* Combien de noeuds ? */
- nbNodes = myMesh->NbNodes();
-
- /* Combien de mailles, faces ou aretes ? */
- int nb_of_nodes, nb_of_edges, nb_of_faces, nb_of_volumes;
- nb_of_edges = myMesh->NbEdges();
- nb_of_faces = myMesh->NbFaces();
- nb_of_volumes = myMesh->NbVolumes();
- nbCells = nb_of_edges + nb_of_faces + nb_of_volumes;
- SCRUTE(nb_of_edges);
- SCRUTE(nb_of_faces);
- SCRUTE(nb_of_volumes);
-
- fprintf(stdout, "%d %d\n", nbNodes, nbCells);
-
- /****************************************************************************
- * ECRITURE DES NOEUDS *
- ****************************************************************************/
- fprintf(stdout, "\n(************************)\n");
- fprintf(stdout, "(* NOEUDS DU MAILLAGE : *)\n");
- fprintf(stdout, "(************************)\n");
-
- fprintf(myFileId, "%s\n", sUNV_SEPARATOR);
- fprintf(myFileId, "%s\n", sNODE_UNV_ID);
-
- SMDS_Iterator<const SMDS_MeshNode *> * itNodes=myMesh->nodesIterator();
- while(itNodes->more())
- {
- const SMDS_MeshNode * node = itNodes->next();
-
- fprintf(myFileId, sNODE_UNV_DESCR, node->GetID());
- fprintf(myFileId, "%25.16E%25.16E%25.16E\n", node->X(), node->Y(),
- node->Z());
- }
- delete itNodes;
- fprintf(myFileId, "%s\n", sUNV_SEPARATOR);
-
- /****************************************************************************
- * ECRITURE DES ELEMENTS *
- ****************************************************************************/
- fprintf(stdout, "\n(**************************)\n");
- fprintf(stdout, "(* ELEMENTS DU MAILLAGE : *)\n");
- fprintf(stdout, "(**************************)");
- /* Ecriture des connectivites, noms, numeros des mailles */
-
- fprintf(myFileId, "%s\n", sUNV_SEPARATOR);
- fprintf(myFileId, "%s\n", sELT_UNV_ID);
-
- SMDS_Iterator<const SMDS_MeshEdge *> * itEdges=myMesh->edgesIterator();
- while(itEdges->more())
- {
- const SMDS_MeshElement * elem = itEdges->next();
- SMDS_Iterator<const SMDS_MeshElement*> *itn=elem->nodesIterator();
-
- switch (elem->NbNodes())
- {
- case 2:
- fprintf(myFileId, sELT_BEAM_DESC1, elem->GetID(), 21,
- elem->NbNodes());
- fprintf(myFileId, sELT_BEAM_DESC2);
- fprintf(myFileId, "%10d%10d\n", itn->next()->GetID(),
- itn->next()->GetID());
- break;
-
- case 3:
- fprintf(myFileId, sELT_BEAM_DESC1, elem->GetID(), 24,
- elem->NbNodes());
- fprintf(myFileId, sELT_BEAM_DESC2);
- fprintf(myFileId, "%10d%10d%10d\n", itn->next()->GetID(),
- itn->next()->GetID(), itn->next()->GetID());
-
- break;
- }
- delete itn;
- }
- delete itEdges;
-
- SMDS_Iterator<const SMDS_MeshFace*> * itFaces=myMesh->facesIterator();
- while(itFaces->more())
- {
- const SMDS_MeshElement * elem = itFaces->next();
-
- switch (elem->NbNodes())
- {
- case 3:
- // linear triangle
- fprintf(myFileId, sELT_SURF_DESC, elem->GetID(), 74,
- elem->NbNodes());
- break;
- case 4:
- // linear quadrilateral
- fprintf(myFileId, sELT_SURF_DESC, elem->GetID(), 71,
- elem->NbNodes());
- break;
- case 6:
- // parabolic triangle
- fprintf(myFileId, sELT_SURF_DESC, elem->GetID(), 72,
- elem->NbNodes());
- break;
- case 8:
- // parabolic quadrilateral
- fprintf(myFileId, sELT_SURF_DESC, elem->GetID(), 75,
- elem->NbNodes());
- break;
- default:
- fprintf(myFileId, "element not registered\n");
- }
-
- SMDS_Iterator<const SMDS_MeshElement*> *itn=elem->nodesIterator();
- while(itn->more()) fprintf(myFileId, "%10d", itn->next()->GetID());
- delete itn;
-
- fprintf(myFileId, "\n");
- }
- delete itFaces;
-
- SMDS_Iterator<const SMDS_MeshVolume*> * itVolumes=myMesh->volumesIterator();
- while(itVolumes->more())
- {
- const SMDS_MeshElement * elem = itVolumes->next();
-
- switch (elem->NbNodes())
- {
- case 4:
- // linear tetrahedron
- fprintf(myFileId, sELT_SURF_DESC, elem->GetID(), 111,
- elem->NbNodes());
- break;
- case 6:
- // linear tetrahedron
- fprintf(myFileId, sELT_SURF_DESC, elem->GetID(), 112,
- elem->NbNodes());
- break;
- case 8:
- // linear brick
- fprintf(myFileId, sELT_SURF_DESC, elem->GetID(), 115,
- elem->NbNodes());
- break;
- }
-
- SMDS_Iterator<const SMDS_MeshElement*> *itn=elem->nodesIterator();
- while(itn->more()) fprintf(myFileId, "%10d", itn->next()->GetID());
- delete itn;
-
- fprintf(myFileId, "\n");
- }
- delete itVolumes;
-
- fprintf(myFileId, "%s\n", sUNV_SEPARATOR);
-
- fclose(myFileId);
+ Kernel_Utils::Localizer loc;
+ Status aResult = DRS_OK;
+
+ if ( Driver_Mesh::IsMeshTooLarge< int >( myMesh, /*checkIDs =*/ false))
+ return DRS_TOO_LARGE_MESH;
+
+#if defined(WIN32) && defined(UNICODE)
+ std::wstring aFile = Kernel_Utils::utf8_decode_s(myFile);
+ std::ofstream out_stream(aFile.c_str());
+#else
+ std::ofstream out_stream(myFile.c_str());
+#endif
+ try
+ {
+ UNV164::Write( out_stream ); // unit system
+ UNV2420::Write( out_stream, myMeshName ); // Coordinate system
+
+ std::vector< size_t > nodeLabelByID;
+ if ( myMesh->HasNumerationHoles() && myRenumber )
+ nodeLabelByID.resize( myMesh->MaxNodeID() + 1 );
+
+ {
+ using namespace UNV2411;
+ TDataSet aDataSet2411;
+ // -----------------------------------
+ // Storing SMDS nodes to the UNV file
+ // -----------------------------------
+ SMDS_NodeIteratorPtr aNodesIter = myMesh->nodesIterator();
+ TRecord aRec;
+ for ( aRec.label = 1; aNodesIter->more(); ++aRec.label )
+ {
+ const SMDS_MeshNode* aNode = aNodesIter->next();
+ if ( !myRenumber )
+ aRec.label = aNode->GetID(); //-- IPAL54452
+ if ( !nodeLabelByID.empty() )
+ nodeLabelByID[ aNode->GetID() ] = aRec.label;
+ aRec.coord[0] = aNode->X();
+ aRec.coord[1] = aNode->Y();
+ aRec.coord[2] = aNode->Z();
+ aDataSet2411.push_back( aRec );
+ }
+ UNV2411::Write(out_stream,aDataSet2411);
+ }
+
+ std::vector< size_t > elemLabelByID;
+ if ( !myGroups.empty() )
+ elemLabelByID.resize( myMesh->MaxElementID() + 1 );
+
+ {
+ using namespace UNV2412;
+ TDataSet aDataSet2412;
+ TRecord aRec;
+ aRec.label = 0;
+
+ // -------------------
+ // Storing SMDS Edges
+ // -------------------
+ if ( myMesh->NbEdges() )
+ {
+ SMDS_EdgeIteratorPtr anIter = myMesh->edgesIterator();
+ while ( anIter->more() )
+ {
+ const SMDS_MeshEdge* anElem = anIter->next();
+ if ( myRenumber ) // -- IPAL54452
+ ++aRec.label;
+ else
+ aRec.label = anElem->GetID();
+ if ( !elemLabelByID.empty() )
+ elemLabelByID[ anElem->GetID() ] = aRec.label;
+
+ aRec.fe_descriptor_id = anElem->IsQuadratic() ? 22 : 11;
+
+ SMDS_NodeIteratorPtr aNodesIter = anElem->nodesIteratorToUNV();
+ for ( aRec.node_labels.clear(); aNodesIter->more(); )
+ {
+ const SMDS_MeshNode* aNode = aNodesIter->next();
+ if ( nodeLabelByID.empty() )
+ aRec.node_labels.push_back( FromSmIdType<int>(aNode->GetID()) );
+ else
+ aRec.node_labels.push_back( nodeLabelByID[ aNode->GetID() ]);
+ }
+
+ aDataSet2412.push_back(aRec);
+ }
+ }
+
+ // -------------------
+ // Storing SMDS Faces
+ // -------------------
+ if ( myMesh->NbFaces() )
+ {
+ SMDS_FaceIteratorPtr anIter = myMesh->facesIterator();
+ while ( anIter->more() )
+ {
+ const SMDS_MeshFace* anElem = anIter->next();
+ if ( anElem->IsPoly() ) continue;
+
+ SMDS_NodeIteratorPtr aNodesIter = anElem->nodesIteratorToUNV();
+ for ( aRec.node_labels.clear(); aNodesIter->more(); )
+ {
+ const SMDS_MeshNode* aNode = aNodesIter->next();
+ if ( nodeLabelByID.empty() )
+ aRec.node_labels.push_back( FromSmIdType<int>(aNode->GetID()) );
+ else
+ aRec.node_labels.push_back( nodeLabelByID[ aNode->GetID() ]);
+ }
+ switch ( anElem->NbNodes() ) {
+ case 3: aRec.fe_descriptor_id = 41; break;
+ case 4: aRec.fe_descriptor_id = 44; break;
+ case 6: aRec.fe_descriptor_id = 42; break;
+ case 7: aRec.fe_descriptor_id = 42; break;
+ case 8: aRec.fe_descriptor_id = 45; break;
+ case 9: aRec.fe_descriptor_id = 45; aRec.node_labels.resize( 8 ); break;
+ default:
+ continue;
+ }
+ if ( myRenumber )
+ ++aRec.label;
+ else
+ aRec.label = anElem->GetID(); // -- IPAL54452
+ if ( !elemLabelByID.empty() )
+ elemLabelByID[ anElem->GetID() ] = aRec.label;
+
+ aDataSet2412.push_back(aRec);
+ }
+ }
+
+ // ---------------------
+ // Storing SMDS Volumes
+ // ---------------------
+ if ( myMesh->NbVolumes() )
+ {
+ SMDS_VolumeIteratorPtr anIter = myMesh->volumesIterator();
+ while ( anIter->more() )
+ {
+ const SMDS_MeshVolume* anElem = anIter->next();
+ if ( anElem->IsPoly() )
+ continue;
+ size_t aNbNodes = anElem->NbNodes();
+ switch( aNbNodes ) {
+ case 4: aRec.fe_descriptor_id = 111; break;
+ case 6: aRec.fe_descriptor_id = 112; break;
+ case 8: aRec.fe_descriptor_id = 115; break;
+ case 10: aRec.fe_descriptor_id = 118; break;
+ case 13: aRec.fe_descriptor_id = 114; break;
+ case 15: aRec.fe_descriptor_id = 113; break;
+ case 20:
+ case 27: aRec.fe_descriptor_id = 116; aNbNodes = 20; break;
+ default:
+ continue;
+ }
+ if ( myRenumber )
+ ++aRec.label; // -- IPAL54452
+ else
+ aRec.label = anElem->GetID();
+ if ( !elemLabelByID.empty() )
+ elemLabelByID[ anElem->GetID() ] = aRec.label;
+
+ aRec.node_labels.clear();
+ SMDS_NodeIteratorPtr aNodesIter = anElem->nodesIteratorToUNV();
+ while ( aNodesIter->more() && aRec.node_labels.size() < aNbNodes )
+ {
+ const SMDS_MeshElement* aNode = aNodesIter->next();
+ if ( nodeLabelByID.empty() )
+ aRec.node_labels.push_back( FromSmIdType<int>(aNode->GetID()) );
+ else
+ aRec.node_labels.push_back( nodeLabelByID[ aNode->GetID() ]);
+ }
+ aDataSet2412.push_back(aRec);
+ }
+ }
+ UNV2412::Write(out_stream,aDataSet2412);
+ }
+
+ // --------------------
+ // Storing SMDS Groups
+ // --------------------
+ {
+ using namespace UNV2417;
+ if ( myGroups.size() > 0 )
+ {
+ TRecord aRec;
+ TDataSet aDataSet2417;
+ TGroupList::const_iterator aIter = myGroups.begin();
+ for ( ; aIter != myGroups.end(); aIter++ )
+ {
+ SMESHDS_GroupBase* aGroupDS = *aIter;
+ aRec.GroupName = aGroupDS->GetStoreName();
+ aRec.NodeList.clear();
+ aRec.ElementList.clear();
+
+ SMDS_ElemIteratorPtr aIter = aGroupDS->GetElements();
+ if ( aGroupDS->GetType() == SMDSAbs_Node ) {
+ while ( aIter->more() ) {
+ const SMDS_MeshElement* aNode = aIter->next();
+ if ( nodeLabelByID.empty() )
+ aRec.NodeList.push_back( FromSmIdType<int>( aNode->GetID()) );
+ else
+ aRec.NodeList.push_back( nodeLabelByID[ aNode->GetID() ]);
+ }
+ }
+ else
+ {
+ while ( aIter->more() ) {
+ const SMDS_MeshElement* aElem = aIter->next();
+ if ( elemLabelByID.empty() )
+ aRec.ElementList.push_back( FromSmIdType<int>(aElem->GetID()) );
+ else
+ aRec.ElementList.push_back( elemLabelByID[ aElem->GetID() ]);
+ }
+ }
+ // 0019936: EDF 794 SMESH : Export UNV : Node color and group id
+ //aDataSet2417.insert(TDataSet::value_type(aGroupDS->GetID(), aRec));
+ aDataSet2417.insert(TDataSet::value_type(aGroupDS->GetID()+1, aRec));
+ }
+ UNV2417::Write(out_stream,aDataSet2417);
+ myGroups.clear();
+ }
+ }
+
+ out_stream.flush();
+ out_stream.close();
+ if (!check_file(myFile))
+ EXCEPTION(runtime_error,"ERROR: Output file not good.");
+ }
+ catch(const std::exception& exc){
+ INFOS("Follow exception was caught:\n\t"<<exc.what());
+ throw;
+ }
+ catch(...){
+ INFOS("Unknown exception was caught !!!");
+ throw;
+ }
+ return aResult;