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591 lines
20 KiB
C++
591 lines
20 KiB
C++
// Copyright (C) 2007-2013 CEA/DEN, EDF R&D, OPEN CASCADE
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//
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// Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
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// CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
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//
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// This library is free software; you can redistribute it and/or
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// modify it under the terms of the GNU Lesser General Public
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// License as published by the Free Software Foundation; either
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// version 2.1 of the License.
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//
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// This library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public
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// License along with this library; if not, write to the Free Software
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// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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//
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// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
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//
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// File : DriverCGNS_Write.cxx
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// Created : Fri Aug 5 17:43:54 2011
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// Author : Edward AGAPOV (eap)
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#include "DriverCGNS_Write.hxx"
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#include "SMDS_MeshNode.hxx"
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#include "SMDS_VolumeTool.hxx"
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#include "SMESHDS_GroupBase.hxx"
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#include "SMESHDS_Mesh.hxx"
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#include "SMESH_Comment.hxx"
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#include <limits>
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#include <cgnslib.h>
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#if CGNS_VERSION < 3100
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# define cgsize_t int
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#endif
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using namespace std;
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namespace
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{
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//================================================================================
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/*!
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* \brief Return interlace and type of CGNS element for the given SMDSAbs_EntityType
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*/
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//================================================================================
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const int* getInterlaceAndType( const SMDSAbs_EntityType smType,
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CGNS_ENUMT( ElementType_t ) & cgType )
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{
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static vector< const int* > interlaces;
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static vector< CGNS_ENUMT( ElementType_t )> cgTypes;
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if ( interlaces.empty() )
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{
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interlaces.resize( SMDSEntity_Last, 0 );
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cgTypes.resize( SMDSEntity_Last, CGNS_ENUMV( ElementTypeNull ));
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{
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static int ids[] = {0};
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interlaces[SMDSEntity_0D] = ids;
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cgTypes [SMDSEntity_0D] = CGNS_ENUMV( NODE );
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}
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{
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static int ids[] = { 0, 1 };
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interlaces[SMDSEntity_Edge] = ids;
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cgTypes [SMDSEntity_Edge] = CGNS_ENUMV( BAR_2 );
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}
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{
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static int ids[] = { 0, 1, 2 };
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interlaces[SMDSEntity_Quad_Edge] = ids;
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cgTypes [SMDSEntity_Quad_Edge] = CGNS_ENUMV( BAR_3 );
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}
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{
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static int ids[] = { 0, 2, 1 };
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interlaces[SMDSEntity_Triangle] = ids;
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cgTypes [SMDSEntity_Triangle] = CGNS_ENUMV( TRI_3 );
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}
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{
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static int ids[] = { 0, 2, 1, 5, 4, 3 };
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interlaces[SMDSEntity_Quad_Triangle] = ids;
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cgTypes [SMDSEntity_Quad_Triangle] = CGNS_ENUMV( TRI_6 );
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interlaces[SMDSEntity_BiQuad_Triangle] = ids;
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cgTypes [SMDSEntity_BiQuad_Triangle] = CGNS_ENUMV( TRI_6 );
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}
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{
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static int ids[] = { 0, 3, 2, 1 };
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interlaces[SMDSEntity_Quadrangle] = ids;
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cgTypes [SMDSEntity_Quadrangle] = CGNS_ENUMV( QUAD_4 );
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}
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{
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static int ids[] = { 0,3,2,1,7,6,5,4 };
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interlaces[SMDSEntity_Quad_Quadrangle] = ids;
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cgTypes [SMDSEntity_Quad_Quadrangle] = CGNS_ENUMV( QUAD_8 );
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}
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{
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static int ids[] = { 0,3,2,1,7,6,5,4,8 };
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interlaces[SMDSEntity_BiQuad_Quadrangle] = ids;
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cgTypes [SMDSEntity_BiQuad_Quadrangle] = CGNS_ENUMV( QUAD_9 );
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}
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{
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static int ids[] = { 0, 2, 1, 3 };
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interlaces[SMDSEntity_Tetra] = ids;
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cgTypes [SMDSEntity_Tetra] = CGNS_ENUMV( TETRA_4 );
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}
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{
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static int ids[] = { 0,2,1,3,6,5,4,7,9,8 };
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interlaces[SMDSEntity_Quad_Tetra] = ids;
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cgTypes [SMDSEntity_Quad_Tetra] = CGNS_ENUMV( TETRA_10 );
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}
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{
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static int ids[] = { 0,3,2,1,4 };
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interlaces[SMDSEntity_Pyramid] = ids;
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cgTypes [SMDSEntity_Pyramid] = CGNS_ENUMV( PYRA_5 );
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}
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{
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static int ids[] = { 0,3,2,1,4,8,7,6,5,9,12,11,10 };
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interlaces[SMDSEntity_Quad_Pyramid] = ids;
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cgTypes [SMDSEntity_Quad_Pyramid] = CGNS_ENUMV( PYRA_13 );
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}
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{
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static int ids[] = { 0,2,1,3,5,4 };
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interlaces[SMDSEntity_Penta] = ids;
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cgTypes [SMDSEntity_Penta] = CGNS_ENUMV( PENTA_6 );
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}
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{
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static int ids[] = { 0,2,1,3,5,4,8,7,6,9,11,10,14,13,12 };
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interlaces[SMDSEntity_Quad_Penta] = ids;
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cgTypes [SMDSEntity_Quad_Penta] = CGNS_ENUMV( PENTA_15 );
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}
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{
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static int ids[] = { 0,3,2,1,4,7,6,5 };
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interlaces[SMDSEntity_Hexa] = ids;
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cgTypes [SMDSEntity_Hexa] = CGNS_ENUMV( HEXA_8 );
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}
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{
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static int ids[] = { 0,3,2,1,4,7,6,5,11,10,9,8,12,15,14,13,19,18,17,16 };
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interlaces[SMDSEntity_Quad_Hexa] = ids;
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cgTypes [SMDSEntity_Quad_Hexa] = CGNS_ENUMV( HEXA_20 );
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}
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{
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static int ids[] = { 0,3,2,1,4,7,6,5,11,10,9,8,12,15,14,13,19,18,17,16,
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20, 24,23,22,21, 25, 26};
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interlaces[SMDSEntity_TriQuad_Hexa] = ids;
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cgTypes [SMDSEntity_TriQuad_Hexa] = CGNS_ENUMV( HEXA_27 );
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}
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{
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cgTypes[SMDSEntity_Polygon] = CGNS_ENUMV( NGON_n );
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cgTypes[SMDSEntity_Polyhedra] = CGNS_ENUMV( NFACE_n );
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cgTypes[SMDSEntity_Hexagonal_Prism] = CGNS_ENUMV( NFACE_n );
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}
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}
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cgType = cgTypes[ smType ];
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return interlaces[ smType ];
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}
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//================================================================================
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/*!
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* \brief Cut off type of boundary condition from the group name
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*/
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//================================================================================
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CGNS_ENUMT( BCType_t ) getBCType( string& groupName )
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{
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CGNS_ENUMT( BCType_t ) bcType = CGNS_ENUMV( BCGeneral ); // default type
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// boundary condition type starts from "BC"
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size_t bcBeg = groupName.find("BC");
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if ( bcBeg != string::npos )
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{
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for ( int t = 0; t < NofValidBCTypes; ++t )
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{
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CGNS_ENUMT( BCType_t ) type = CGNS_ENUMT( BCType_t)( t );
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string typeName = cg_BCTypeName( type );
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if ( typeName == &groupName[0] + bcBeg )
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{
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bcType = type;
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while ( bcBeg > 0 && isspace( bcBeg-1 ))
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--bcBeg;
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if ( bcBeg == 0 )
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groupName = "Group";
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else
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groupName = groupName.substr( 0, bcBeg-1 );
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}
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}
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}
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return bcType;
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}
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//================================================================================
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/*!
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* \brief Sortable face of a polyhedron
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*/
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struct TPolyhedFace
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{
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int _id; // id of NGON_n
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vector< int > _nodes; // lowest node IDs used for sorting
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TPolyhedFace( const SMDS_MeshNode** nodes, const int nbNodes, int ID):_id(ID)
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{
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set< int > ids;
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for ( int i = 0; i < nbNodes; ++i )
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ids.insert( nodes[i]->GetID() );
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_nodes.resize( 3 ); // std::min( nbNodes, 4 )); hope 3 nodes is enough
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set< int >::iterator idIt = ids.begin();
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for ( size_t j = 0; j < _nodes.size(); ++j, ++idIt )
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_nodes[j] = *idIt;
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}
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bool operator< (const TPolyhedFace& o ) const
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{
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return _nodes < o._nodes;
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}
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};
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//================================================================================
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/*!
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* \brief Return CGNS id of an element
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*/
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//================================================================================
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cgsize_t cgnsID( const SMDS_MeshElement* elem,
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const map< const SMDS_MeshElement*, cgsize_t >& elem2cgID )
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{
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map< const SMDS_MeshElement*, cgsize_t >::const_iterator e2id = elem2cgID.find( elem );
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return ( e2id == elem2cgID.end() ? elem->GetID() : e2id->second );
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}
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} // namespace
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//================================================================================
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/*!
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* \brief Write the mesh into the CGNS file
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*/
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//================================================================================
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Driver_Mesh::Status DriverCGNS_Write::Perform()
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{
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myErrorMessages.clear();
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if ( !myMesh || myMesh->GetMeshInfo().NbElements() < 1 )
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return addMessage( !myMesh ? "NULL mesh" : "Empty mesh (no elements)", /*fatal = */true );
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// open the file
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if ( cg_open(myFile.c_str(), CG_MODE_MODIFY, &_fn) != CG_OK &&
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cg_open(myFile.c_str(), CG_MODE_WRITE, &_fn) != CG_OK )
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return addMessage( cg_get_error(), /*fatal = */true );
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// create a Base
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// --------------
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const int spaceDim = 3;
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int meshDim = 1;
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if ( myMesh->NbFaces() > 0 ) meshDim = 2;
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if ( myMesh->NbVolumes() > 0 ) meshDim = 3;
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if ( myMeshName.empty() )
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{
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int nbases = 0;
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if ( cg_nbases( _fn, &nbases) == CG_OK)
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myMeshName = ( SMESH_Comment("Base_") << nbases+1 );
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else
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myMeshName = "Base_0";
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}
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int iBase;
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if ( cg_base_write( _fn, myMeshName.c_str(), meshDim, spaceDim, &iBase))
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return addMessage( cg_get_error(), /*fatal = */true );
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// create a Zone
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// --------------
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int nbCells = myMesh->NbEdges();
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if ( meshDim == 3 )
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nbCells = myMesh->NbVolumes();
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else if ( meshDim == 2 )
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nbCells = myMesh->NbFaces();
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cgsize_t size[9] = { myMesh->NbNodes(), nbCells, /*NBoundVertex=*/0, 0,0,0,0,0,0 };
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int iZone;
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if ( cg_zone_write( _fn, iBase, "SMESH_Mesh", size,
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CGNS_ENUMV( Unstructured ), &iZone) != CG_OK )
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return addMessage( cg_get_error(), /*fatal = */true );
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// Map to store only elements whose an SMDS ID differs from a CGNS one
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typedef map< const SMDS_MeshElement*, cgsize_t > TElem2cgIDMap;
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vector< TElem2cgIDMap > elem2cgIDByEntity( SMDSEntity_Last );
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TElem2cgIDMap::iterator elem2cgIDIter;
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TElem2cgIDMap & n2cgID = elem2cgIDByEntity[ SMDSEntity_Node ];
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// Write nodes
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// ------------
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{
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vector< double > coords( myMesh->NbNodes() );
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int iC;
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// X
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SMDS_NodeIteratorPtr nIt = myMesh->nodesIterator( /*idInceasingOrder=*/true );
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for ( int i = 0; nIt->more(); ++i ) coords[i] = nIt->next()->X();
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if ( cg_coord_write( _fn, iBase, iZone, CGNS_ENUMV(RealDouble),
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"CoordinateX", &coords[0], &iC) != CG_OK )
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return addMessage( cg_get_error(), /*fatal = */true );
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// Y
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nIt = myMesh->nodesIterator( /*idInceasingOrder=*/true );
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for ( int i = 0; nIt->more(); ++i ) coords[i] = nIt->next()->Y();
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if ( cg_coord_write( _fn, iBase, iZone, CGNS_ENUMV(RealDouble),
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"CoordinateY", &coords[0], &iC) != CG_OK )
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return addMessage( cg_get_error(), /*fatal = */true );
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// Z
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nIt = myMesh->nodesIterator( /*idInceasingOrder=*/true );
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for ( int i = 0; nIt->more(); ++i ) coords[i] = nIt->next()->Z();
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if ( cg_coord_write( _fn, iBase, iZone, CGNS_ENUMV(RealDouble),
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"CoordinateZ", &coords[0], &iC) != CG_OK )
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return addMessage( cg_get_error(), /*fatal = */true );
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// store CGNS ids of nodes
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nIt = myMesh->nodesIterator( /*idInceasingOrder=*/true );
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for ( int i = 0; nIt->more(); ++i )
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{
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const SMDS_MeshElement* n = nIt->next();
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if ( n->GetID() != i+1 )
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n2cgID.insert( n2cgID.end(), make_pair( n, i+1 ));
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}
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}
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// Write elements
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// ---------------
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cgsize_t cgID = 1, startID;
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// write into a section all successive elements of one geom type
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int iSec;
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vector< cgsize_t > elemData;
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SMDS_ElemIteratorPtr elemIt = myMesh->elementsIterator();
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const SMDS_MeshElement* elem = elemIt->next();
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while ( elem )
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{
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const SMDSAbs_EntityType elemType = elem->GetEntityType();
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CGNS_ENUMT( ElementType_t ) cgType;
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const int* interlace = getInterlaceAndType( elemType, cgType );
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TElem2cgIDMap & elem2cgID = elem2cgIDByEntity[ elemType ];
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elemData.clear();
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startID = cgID;
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if ( interlace ) // STANDARD elements
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{
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int cgnsNbNodes; // get nb nodes by element type, that can be less that elem->NbNodes()
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cg_npe( cgType, &cgnsNbNodes );
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do
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{
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for ( int i = 0; i < cgnsNbNodes; ++i )
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elemData.push_back( cgnsID( elem->GetNode( interlace[i] ), n2cgID ));
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if ( elem->GetID() != cgID )
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elem2cgID.insert( elem2cgID.end(), make_pair( elem, cgID ));
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++cgID;
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elem = elemIt->more() ? elemIt->next() : 0;
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}
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while ( elem && elem->GetEntityType() == elemType );
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}
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else if ( elemType == SMDSEntity_Polygon ) // POLYGONS
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do
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{
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elemData.push_back( elem->NbNodes() );
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for ( int i = 0, nb = elem->NbNodes(); i < nb; ++i )
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elemData.push_back( cgnsID( elem->GetNode(i), n2cgID ));
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if ( elem->GetID() != cgID )
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elem2cgID.insert( elem2cgID.end(), make_pair( elem, cgID ));
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++cgID;
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elem = elemIt->more() ? elemIt->next() : 0;
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}
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while ( elem && elem->GetEntityType() == elemType );
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else if ( elemType == SMDSEntity_Polyhedra ||
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elemType == SMDSEntity_Hexagonal_Prism) // POLYHEDRA
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{
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// to save polyhedrons after all
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const SMDS_MeshInfo& meshInfo = myMesh->GetMeshInfo();
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if ( meshInfo.NbPolyhedrons() == meshInfo.NbElements() - cgID + 1 )
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break; // only polyhedrons remain
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while ( elem && elem->GetEntityType() == elemType )
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elem = elemIt->more() ? elemIt->next() : 0;
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continue;
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}
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SMESH_Comment sectionName( cg_ElementTypeName( cgType ));
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sectionName << " " << startID << " - " << cgID-1;
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if ( cg_section_write(_fn, iBase, iZone, sectionName.c_str(), cgType, startID,
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cgID-1, /*nbndry=*/0, &elemData[0], &iSec) != CG_OK )
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return addMessage( cg_get_error(), /*fatal = */true );
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}
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// Write polyhedral volumes
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// -------------------------
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if ( myMesh->GetMeshInfo().NbElements() > cgID-1 ) // polyhedra or hexagonal prisms remain
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{
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// the polyhedron (NFACE_n) is described as a set of signed face IDs,
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// so first we are to write all polygones (NGON_n) bounding polyhedrons
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vector< cgsize_t > faceData;
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set< TPolyhedFace > faces;
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set< TPolyhedFace >::iterator faceInSet;
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vector<const SMDS_MeshNode *> faceNodesVec;
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int nbPolygones = 0, faceID;
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SMDS_VolumeTool vol;
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elemData.clear();
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int nbPolyhTreated = 0;
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TElem2cgIDMap * elem2cgID = 0;
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TElem2cgIDMap & n2cgID = elem2cgIDByEntity[ SMDSEntity_Node ];
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SMDS_ElemIteratorPtr elemIt = myMesh->elementsIterator();
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while ( elemIt->more() )
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{
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elem = elemIt->next();
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SMDSAbs_EntityType type = elem->GetEntityType();
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if ( type == SMDSEntity_Polyhedra ||
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type == SMDSEntity_Hexagonal_Prism )
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{
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++nbPolyhTreated;
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vol.Set( elem );
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vol.SetExternalNormal();
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const int nbFaces = vol.NbFaces();
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elemData.push_back( nbFaces );
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for ( int iF = 0; iF < nbFaces; ++iF )
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{
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const int nbNodes = vol.NbFaceNodes( iF );
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const SMDS_MeshNode** faceNodes = vol.GetFaceNodes( iF );
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faceNodesVec.assign( faceNodes, faceNodes + nbNodes );
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if (( elem = myMesh->FindElement( faceNodesVec, SMDSAbs_Face, /*noMedium=*/false)))
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{
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// a face of the polyhedron is present in the mesh
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faceID = cgnsID( elem, elem2cgIDByEntity[ elem->GetEntityType() ]);
|
|
}
|
|
else if ( vol.IsFreeFace( iF ))
|
|
{
|
|
// the face is not shared by volumes
|
|
faceID = cgID++;
|
|
++nbPolygones;
|
|
faceData.push_back( nbNodes );
|
|
for ( int i = 0; i < nbNodes; ++i )
|
|
faceData.push_back( cgnsID( faceNodes[i], n2cgID ));
|
|
}
|
|
else
|
|
{
|
|
TPolyhedFace face( faceNodes, nbNodes, cgID );
|
|
faceInSet = faces.insert( faces.end(), face );
|
|
if ( faceInSet->_id == cgID ) // the face encounters for the 1st time
|
|
{
|
|
faceID = cgID++;
|
|
++nbPolygones;
|
|
faceData.push_back( nbNodes );
|
|
for ( int i = 0; i < nbNodes; ++i )
|
|
faceData.push_back( cgnsID( faceNodes[i], n2cgID ));
|
|
}
|
|
else
|
|
{
|
|
// the face encounters for the 2nd time; we hope it won't encounter once more,
|
|
// for that we can erase it from the set of faces
|
|
faceID = -faceInSet->_id;
|
|
faces.erase( faceInSet );
|
|
}
|
|
}
|
|
elemData.push_back( faceID );
|
|
}
|
|
}
|
|
}
|
|
|
|
if ( nbPolygones > 0 )
|
|
{
|
|
if ( cg_section_write(_fn, iBase, iZone, "Faces of Polyhedrons",
|
|
CGNS_ENUMV( NGON_n ), cgID - nbPolygones, cgID-1,
|
|
/*nbndry=*/0, &faceData[0], &iSec) != CG_OK )
|
|
return addMessage( cg_get_error(), /*fatal = */true );
|
|
}
|
|
|
|
if ( cg_section_write(_fn, iBase, iZone, "Polyhedrons",
|
|
CGNS_ENUMV( NFACE_n ), cgID, cgID+nbPolyhTreated-1,
|
|
/*nbndry=*/0, &elemData[0], &iSec) != CG_OK )
|
|
return addMessage( cg_get_error(), /*fatal = */true );
|
|
|
|
if ( !myMesh->GetGroups().empty() )
|
|
{
|
|
// store CGNS ids of polyhedrons
|
|
elem2cgID = &elem2cgIDByEntity[ SMDSEntity_Polyhedra ];
|
|
elemIt = myMesh->elementsIterator();
|
|
while ( elemIt->more() )
|
|
{
|
|
elem = elemIt->next();
|
|
if ( elem->GetEntityType() == SMDSEntity_Polyhedra )
|
|
{
|
|
if ( elem->GetID() != cgID )
|
|
elem2cgID->insert( elem2cgID->end(), make_pair( elem, cgID ));
|
|
++cgID;
|
|
}
|
|
}
|
|
}
|
|
} // write polyhedral volumes
|
|
|
|
|
|
// Write groups as boundary conditions
|
|
// ------------------------------------
|
|
|
|
const set<SMESHDS_GroupBase*>& groups = myMesh->GetGroups();
|
|
set<SMESHDS_GroupBase*>::const_iterator grpIt = groups.begin();
|
|
set< string > groupNames; groupNames.insert(""); // to avoid duplicated and empty names
|
|
for ( ; grpIt != groups.end(); ++grpIt )
|
|
{
|
|
const SMESHDS_GroupBase* group = *grpIt;
|
|
|
|
// write BC location (default is Vertex)
|
|
CGNS_ENUMT( GridLocation_t ) location = CGNS_ENUMV( Vertex );
|
|
if ( group->GetType() != SMDSAbs_Node )
|
|
{
|
|
switch ( meshDim ) {
|
|
case 3:
|
|
switch ( group->GetType() ) {
|
|
case SMDSAbs_Volume: location = CGNS_ENUMV( FaceCenter ); break; // !!!
|
|
case SMDSAbs_Face: location = CGNS_ENUMV( FaceCenter ); break; // OK
|
|
case SMDSAbs_Edge: location = CGNS_ENUMV( EdgeCenter ); break; // OK
|
|
default:;
|
|
}
|
|
break;
|
|
case 2:
|
|
switch ( group->GetType() ) {
|
|
case SMDSAbs_Face: location = CGNS_ENUMV( FaceCenter ); break; // ???
|
|
case SMDSAbs_Edge: location = CGNS_ENUMV( EdgeCenter ); break; // OK
|
|
default:;
|
|
}
|
|
break;
|
|
case 1:
|
|
location = CGNS_ENUMV( EdgeCenter ); break; // ???
|
|
break;
|
|
}
|
|
}
|
|
|
|
// try to extract type of boundary condition from the group name
|
|
string name = group->GetStoreName();
|
|
CGNS_ENUMT( BCType_t ) bcType = getBCType( name );
|
|
while ( !groupNames.insert( name ).second )
|
|
name = (SMESH_Comment( "Group_") << groupNames.size());
|
|
|
|
// write IDs of elements
|
|
vector< cgsize_t > pnts;
|
|
pnts.reserve( group->Extent() );
|
|
SMDS_ElemIteratorPtr elemIt = group->GetElements();
|
|
while ( elemIt->more() )
|
|
{
|
|
const SMDS_MeshElement* elem = elemIt->next();
|
|
pnts.push_back( cgnsID( elem, elem2cgIDByEntity[ elem->GetEntityType() ]));
|
|
}
|
|
int iBC;
|
|
if ( cg_boco_write( _fn, iBase, iZone, name.c_str(), bcType,
|
|
CGNS_ENUMV( PointList ), pnts.size(), &pnts[0], &iBC) != CG_OK )
|
|
return addMessage( cg_get_error(), /*fatal = */true);
|
|
|
|
// write BC location
|
|
if ( location != CGNS_ENUMV( Vertex ))
|
|
{
|
|
if ( cg_boco_gridlocation_write( _fn, iBase, iZone, iBC, location) != CG_OK )
|
|
return addMessage( cg_get_error(), /*fatal = */false);
|
|
}
|
|
}
|
|
return DRS_OK;
|
|
}
|
|
|
|
//================================================================================
|
|
/*!
|
|
* \brief Constructor
|
|
*/
|
|
//================================================================================
|
|
|
|
DriverCGNS_Write::DriverCGNS_Write(): _fn(0)
|
|
{
|
|
}
|
|
|
|
//================================================================================
|
|
/*!
|
|
* \brief Close the cgns file at destruction
|
|
*/
|
|
//================================================================================
|
|
|
|
DriverCGNS_Write::~DriverCGNS_Write()
|
|
{
|
|
if ( _fn > 0 )
|
|
cg_close( _fn );
|
|
}
|