// Copyright (C) 2007-2012 CEA/DEN, EDF R&D, OPEN CASCADE // // Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2.1 of the License. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, Read to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // // See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com // // File : DriverGMF_Read.cxx // Created : Mon Sep 17 17:03:02 2012 // Author : Edward AGAPOV (eap) #include "DriverGMF_Read.hxx" #include "DriverGMF.hxx" #include "SMESHDS_Group.hxx" #include "SMESHDS_Mesh.hxx" #include "SMESH_Comment.hxx" #include extern "C" { #include "libmesh5.h" } #include // -------------------------------------------------------------------------------- DriverGMF_Read::DriverGMF_Read(): Driver_SMESHDS_Mesh(), _makeRequiredGroups( true ) { } // -------------------------------------------------------------------------------- DriverGMF_Read::~DriverGMF_Read() { } //================================================================================ /*! * \brief Read a GMF file */ //================================================================================ Driver_Mesh::Status DriverGMF_Read::Perform() { Kernel_Utils::Localizer loc; Status status = DRS_OK; int dim, version; // open the file int meshID = GmfOpenMesh( myFile.c_str(), GmfRead, &version, &dim ); if ( !meshID ) { if ( DriverGMF::isExtensionCorrect( myFile )) return addMessage( SMESH_Comment("Can't open for reading ") << myFile, /*fatal=*/true ); else return addMessage( SMESH_Comment("Not '.mesh' or '.meshb' extension of file ") << myFile, /*fatal=*/true ); } DriverGMF::MeshCloser aMeshCloser( meshID ); // An object closing GMF mesh at destruction // Read nodes int nbNodes = GmfStatKwd(meshID, GmfVertices); if ( nbNodes < 1 ) return addMessage( "No nodes in the mesh", /*fatal=*/true ); GmfGotoKwd(meshID, GmfVertices); int ref; const int nodeIDShift = myMesh->GetMeshInfo().NbNodes(); if ( version != GmfFloat ) { double x, y, z; for ( int i = 1; i <= nbNodes; ++i ) { GmfGetLin(meshID, GmfVertices, &x, &y, &z, &ref); myMesh->AddNodeWithID( x,y,z, nodeIDShift + i); } } else { float x, y, z; for ( int i = 1; i <= nbNodes; ++i ) { GmfGetLin(meshID, GmfVertices, &x, &y, &z, &ref); myMesh->AddNodeWithID( x,y,z, nodeIDShift + i); } } // Read elements int iN[28]; /* Read edges */ const int edgeIDShift = myMesh->GetMeshInfo().NbElements(); if ( int nbEdges = GmfStatKwd(meshID, GmfEdges)) { 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] ); } } /* Read quadratic edges */ const int edge2IDShift = myMesh->GetMeshInfo().NbElements(); if ( int nbEdges = GmfStatKwd(meshID, GmfEdgesP2)) { GmfGotoKwd(meshID, GmfEdgesP2); for ( int i = 1; i <= nbEdges; ++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] ); } } /* Read triangles */ const int triaIDShift = myMesh->GetMeshInfo().NbElements(); if ( int nbTria = GmfStatKwd(meshID, GmfTriangles)) { 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] ); } } /* Read quadratic triangles */ const int tria2IDShift = myMesh->GetMeshInfo().NbElements(); if ( int nbTria = GmfStatKwd(meshID, GmfTrianglesP2)) { GmfGotoKwd(meshID, GmfTrianglesP2); for ( int i = 1; i <= nbTria; ++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] ); } } /* Read quadrangles */ const int quadIDShift = myMesh->GetMeshInfo().NbElements(); if ( int nbQuad = GmfStatKwd(meshID, GmfQuadrilaterals)) { 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] ); } } /* Read terahedra */ const int tetIDShift = myMesh->GetMeshInfo().NbElements(); if ( int nbTet = GmfStatKwd(meshID, GmfTetrahedra)) { GmfGotoKwd(meshID, GmfTetrahedra); for ( int i = 1; i <= nbTet; ++i ) { GmfGetLin(meshID, GmfTetrahedra, &iN[0], &iN[1], &iN[2], &iN[3], &ref); if ( !myMesh->AddVolumeWithID( iN[0], iN[2], iN[1], iN[3], tetIDShift + i )) status = storeBadNodeIds( "GmfTetrahedra",i, 4, iN[0], iN[1],iN[2], iN[3] ); } } /* Read quadratic terahedra */ const int tet2IDShift = myMesh->GetMeshInfo().NbElements(); if ( int nbTet = GmfStatKwd(meshID, GmfTetrahedraP2)) { GmfGotoKwd(meshID, GmfTetrahedraP2); for ( int i = 1; i <= nbTet; ++i ) { GmfGetLin(meshID, GmfTetrahedraP2, &iN[0], &iN[1], &iN[2], &iN[3], &iN[4], &iN[5], &iN[6], &iN[7], &iN[8], &iN[9], &ref); if ( !myMesh->AddVolumeWithID( iN[0],iN[2],iN[1],iN[3], iN[6],iN[5],iN[4], iN[7],iN[9],iN[8], tet2IDShift + i )) status = storeBadNodeIds( "GmfTetrahedraP2",i, 10, iN[0],iN[1],iN[2],iN[3], iN[4],iN[5],iN[6],iN[7],iN[8],iN[9] ); } } /* Read pyramids */ const int pyrIDShift = myMesh->GetMeshInfo().NbElements(); if ( int nbPyr = GmfStatKwd(meshID, GmfPyramids)) { GmfGotoKwd(meshID, GmfPyramids); for ( int i = 1; i <= nbPyr; ++i ) { GmfGetLin(meshID, GmfPyramids, &iN[0], &iN[1], &iN[2], &iN[3], &iN[4], &ref); if ( !myMesh->AddVolumeWithID( iN[0], iN[2], iN[1], iN[3], iN[4], pyrIDShift + i )) status = storeBadNodeIds( "GmfPyramids",i, 5, iN[0], iN[1],iN[2], iN[3], iN[4] ); } } /* Read hexahedra */ const int hexIDShift = myMesh->GetMeshInfo().NbElements(); if ( int nbHex = GmfStatKwd(meshID, GmfHexahedra)) { GmfGotoKwd(meshID, GmfHexahedra); for ( int i = 1; i <= nbHex; ++i ) { GmfGetLin(meshID, GmfHexahedra, &iN[0], &iN[1], &iN[2], &iN[3], &iN[4], &iN[5], &iN[6], &iN[7], &ref); if ( !myMesh->AddVolumeWithID( iN[0], iN[3], iN[2], iN[1], iN[4], iN[7], iN[6], iN[5], hexIDShift + i)) status = storeBadNodeIds( "GmfHexahedra",i, 8, iN[0], iN[1],iN[2], iN[3], iN[4], iN[7], iN[6], iN[5] ); } } /* Read tri-quadratic hexahedra */ const int hex2IDShift = myMesh->GetMeshInfo().NbElements(); if ( int nbHex = GmfStatKwd(meshID, GmfHexahedraQ2)) { GmfGotoKwd(meshID, GmfHexahedraQ2); for ( int i = 1; i <= nbHex; ++i ) { GmfGetLin(meshID, GmfHexahedraQ2, &iN[0], &iN[1], &iN[2], &iN[3], &iN[4], &iN[5], &iN[6], &iN[7], &iN[8],&iN[9],&iN[10],&iN[11],&iN[12],&iN[13],&iN[14], &iN[15],&iN[16],&iN[17],&iN[18],&iN[19],&iN[20],&iN[21],&iN[22],&iN[23], &iN[24],&iN[25],&iN[26], &ref); if ( !myMesh->AddVolumeWithID( iN[0],iN[3],iN[2],iN[1],iN[4],iN[7],iN[6],iN[5],iN[11],iN[10], iN[9],iN[8],iN[12],iN[15],iN[14], iN[13],iN[19],iN[18],iN[17], iN[16],iN[20],iN[24],iN[23],iN[22],iN[21], iN[25],iN[26], hex2IDShift + i )) status = storeBadNodeIds( "GmfHexahedraQ2",i, 27, iN[0],iN[3],iN[2],iN[1],iN[4], iN[7],iN[6],iN[5],iN[11],iN[10], iN[9],iN[8],iN[12],iN[15],iN[14], iN[13],iN[19],iN[18],iN[17], iN[16],iN[20],iN[24],iN[23],iN[22],iN[21], iN[25],iN[26]); } } /* Read prism */ const int prismIDShift = myMesh->GetMeshInfo().NbElements(); if ( int nbPrism = GmfStatKwd(meshID, GmfPrisms)) { GmfGotoKwd(meshID, GmfPrisms); for ( int i = 1; i <= nbPrism; ++i ) { GmfGetLin(meshID, GmfPrisms, &iN[0], &iN[1], &iN[2], &iN[3], &iN[4], &iN[5], &ref); if ( !myMesh->AddVolumeWithID( iN[0], iN[2], iN[1], iN[3], iN[5], iN[4], prismIDShift + i)) status = storeBadNodeIds( "GmfPrisms",i, 6, iN[0], iN[1],iN[2], iN[3], iN[4], iN[5] ); } } // Read required entities into groups if ( _makeRequiredGroups ) { // get ids of existing groups std::set< int > groupIDs; const std::set& groups = myMesh->GetGroups(); std::set::const_iterator grIter = groups.begin(); for ( ; grIter != groups.end(); ++grIter ) groupIDs.insert( (*grIter)->GetID() ); if ( groupIDs.empty() ) groupIDs.insert( 0 ); const int kes[4][3] = { { GmfRequiredVertices, SMDSAbs_Node, nodeIDShift }, { GmfRequiredEdges, SMDSAbs_Edge, edgeIDShift }, { GmfRequiredTriangles, SMDSAbs_Face, triaIDShift }, { GmfRequiredQuadrilaterals,SMDSAbs_Face, quadIDShift }}; const char* names[4] = { "_required_Vertices" , "_required_Edges" , "_required_Triangles" , "_required_Quadrilaterals" }; for ( int i = 0; i < 4; ++i ) { int gmfKwd = kes[i][0]; SMDSAbs_ElementType entity = (SMDSAbs_ElementType) kes[i][1]; int shift = kes[i][2]; if ( int nb = GmfStatKwd(meshID, gmfKwd)) { const int newID = *groupIDs.rbegin() + 1; groupIDs.insert( newID ); SMESHDS_Group* group = new SMESHDS_Group( newID, myMesh, entity ); group->SetStoreName( names[i] ); myMesh->AddGroup( group ); GmfGotoKwd(meshID, gmfKwd); for ( int i = 0; i < nb; ++i ) { GmfGetLin(meshID, gmfKwd, &iN[0] ); group->Add( shift + iN[0] ); } } } } return status; } //================================================================================ /*! * \brief Store a message about invalid IDs of nodes */ //================================================================================ Driver_Mesh::Status DriverGMF_Read::storeBadNodeIds(const char* gmfKwd, int elemNb, int nb, ...) { if ( myStatus != DRS_OK ) return myStatus; SMESH_Comment msg; va_list VarArg; va_start(VarArg, nb); for ( int i = 0; i < nb; ++i ) { int id = va_arg(VarArg, int ); if ( !myMesh->FindNode( id )) msg << " " << id; } va_end(VarArg); if ( !msg.empty() ) { std::string nbStr; const char* nbNames[] = { "1-st ", "2-nd ", "3-d " }; if ( elemNb < 3 ) nbStr = nbNames[ elemNb-1 ]; else nbStr = SMESH_Comment(elemNb) << "-th "; return addMessage ( SMESH_Comment("Wrong node IDs of ")<< nbStr << gmfKwd << ":" << msg, /*fatal=*/false ); } return DRS_OK; }