From: eap Date: Thu, 28 Feb 2013 11:36:54 +0000 (+0000) Subject: 0022134: DriverGMF : reading quadratic meshes X-Git-Tag: pluginMGCleaner~96 X-Git-Url: http://git.salome-platform.org/gitweb/?a=commitdiff_plain;h=1dbda4f113960254d81e540e295545931a3e0ae1;p=modules%2Fsmesh.git 0022134: DriverGMF : reading quadratic meshes Fix errors of import/export of meshes including both linear and quadratic elements. --- diff --git a/src/DriverGMF/DriverGMF_Read.cxx b/src/DriverGMF/DriverGMF_Read.cxx index e3fc5d76b..0d70c8d5a 100644 --- a/src/DriverGMF/DriverGMF_Read.cxx +++ b/src/DriverGMF/DriverGMF_Read.cxx @@ -29,6 +29,7 @@ #include "SMESHDS_Group.hxx" #include "SMESHDS_Mesh.hxx" #include "SMESH_Comment.hxx" +#include "SMESH_TypeDefs.hxx" #include @@ -69,9 +70,11 @@ Driver_Mesh::Status DriverGMF_Read::Perform() if ( !meshID ) { if ( DriverGMF::isExtensionCorrect( myFile )) - return addMessage( SMESH_Comment("Can't open for reading ") << myFile, /*fatal=*/true ); + 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 ); + 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 @@ -109,34 +112,33 @@ Driver_Mesh::Status DriverGMF_Read::Perform() int iN[28]; // 28 - nb nodes in HEX27 (+ 1 for safety :) - /* Read extra vertices for quadratic edges */ - std::vector 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 ); + // read extra vertices for quadratic edges + std::vector quadNodesAtEdges( nbEdges + 1, -1 ); + if ( int nbQuadEdges = GmfStatKwd(meshID, GmfExtraVerticesAtEdges)) + { + GmfGotoKwd(meshID, GmfExtraVerticesAtEdges); + for ( int i = 1; i <= nbQuadEdges; ++i ) + { + GmfGetLin(meshID, GmfExtraVerticesAtEdges, &iN[0], &iN[1], &iN[2]); + if ( iN[1] >= 1 ) + quadNodesAtEdges[ iN[0] ] = iN[2]; + } + } + // create edges GmfGotoKwd(meshID, GmfEdges); for ( int i = 1; i <= nbEdges; ++i ) { GmfGetLin(meshID, GmfEdges, &iN[0], &iN[1], &ref); - if ( readQuadNodes ) + const int midN = quadNodesAtEdges[ i ]; + if ( midN > 0 ) { - 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); + status = storeBadNodeIds( "GmfEdges + GmfExtraVerticesAtEdges",i, + 3, iN[0], iN[1], midN); } else { @@ -145,47 +147,40 @@ Driver_Mesh::Status DriverGMF_Read::Perform() } } } - // the vector of extra vertices at edges won't be used anymore so it is cleared - quadNodesAtEdges.clear(); - - /* Read extra vertices for quadratic triangles */ - std::vector< std::vector > quadNodesAtTriangles; - int nbQuadTria = 0; - if ( (nbQuadTria = GmfStatKwd(meshID, GmfExtraVerticesAtTriangles)) ) - { - GmfGotoKwd(meshID, GmfExtraVerticesAtTriangles); - quadNodesAtTriangles.reserve( nbQuadTria ); - std::vector nodes(4); - for ( int i = 1; i <= nbQuadTria; ++i ) - { - 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] ); - - quadNodesAtTriangles.push_back(nodes); - } - } /* Read triangles */ const int triaIDShift = myMesh->GetMeshInfo().NbElements(); if ( int nbTria = GmfStatKwd(meshID, GmfTriangles)) { - const bool readQuadNodes = (nbQuadTria == nbTria); + // read extra vertices for quadratic triangles + std::vector< std::vector > quadNodesAtTriangles( nbTria + 1 ); + if ( int nbQuadTria = GmfStatKwd(meshID, GmfExtraVerticesAtTriangles )) + { + GmfGotoKwd( meshID, GmfExtraVerticesAtTriangles ); + for ( int i = 1; i <= nbQuadTria; ++i ) + { + GmfGetLin(meshID, GmfExtraVerticesAtTriangles, + &iN[0], &iN[1], &iN[2], &iN[3], &iN[4], + &iN[5]); // iN[5] - preview TRIA7 + if ( iN[0] <= nbTria ) + { + std::vector& nodes = quadNodesAtTriangles[ iN[0] ]; + nodes.insert( nodes.end(), & iN[2], & iN[5+1] ); + nodes.resize( iN[1] ); + } + } + } + // create triangles GmfGotoKwd(meshID, GmfTriangles); for ( int i = 1; i <= nbTria; ++i ) { GmfGetLin(meshID, GmfTriangles, &iN[0], &iN[1], &iN[2], &ref); - if ( readQuadNodes ) + std::vector& midN = quadNodesAtTriangles[ i ]; + if ( midN.size() >= 3 ) { - const std::vector& midN = quadNodesAtTriangles[ 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, + 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 @@ -193,127 +188,108 @@ Driver_Mesh::Status DriverGMF_Read::Perform() if ( !myMesh->AddFaceWithID( iN[0], iN[1], iN[2], triaIDShift + i )) status = storeBadNodeIds( "GmfTriangles",i, 3, iN[0], iN[1], iN[2] ); } + if ( !midN.empty() ) SMESHUtils::FreeVector( midN ); } } - // the vector of extra vertices at triangles won't be used anymore so it is cleared - quadNodesAtTriangles.clear(); - /* Read extra vertices for quadratic quadrangles */ - std::vector< std::vector > quadNodesAtQuadrilaterals; - int nbQuadQuad = 0; - if ( (nbQuadQuad = GmfStatKwd(meshID, GmfExtraVerticesAtQuadrilaterals)) ) - { - GmfGotoKwd(meshID, GmfExtraVerticesAtQuadrilaterals); - quadNodesAtQuadrilaterals.reserve( nbQuadQuad ); - std::vector nodes( 5 ); - for ( int i = 1; i <= nbQuadQuad; ++i ) - { - 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); + // read extra vertices for quadratic quadrangles + std::vector< std::vector > quadNodesAtQuadrilaterals( nbQuad + 1 ); + if ( int nbQuadQuad = GmfStatKwd( meshID, GmfExtraVerticesAtQuadrilaterals )) + { + GmfGotoKwd(meshID, GmfExtraVerticesAtQuadrilaterals); + for ( int i = 1; i <= nbQuadQuad; ++i ) + { + GmfGetLin(meshID, GmfExtraVerticesAtQuadrilaterals, + &iN[0], &iN[1], &iN[2], &iN[3], &iN[4], &iN[5], &iN[6]); + if ( iN[0] <= nbQuad ) + { + std::vector& nodes = quadNodesAtQuadrilaterals[ iN[0] ]; + nodes.insert( nodes.end(), & iN[2], & iN[6+1] ); + nodes.resize( iN[1] ); + } + } + } + // create quadrangles GmfGotoKwd(meshID, GmfQuadrilaterals); for ( int i = 1; i <= nbQuad; ++i ) { GmfGetLin(meshID, GmfQuadrilaterals, &iN[0], &iN[1], &iN[2], &iN[3], &ref); - if ( readQuadNodes ) + std::vector& midN = quadNodesAtQuadrilaterals[ i ]; + if ( midN.size() == 8-4 ) // QUAD8 { - const std::vector& 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]); - } + 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 + else if ( midN.size() > 8-4 ) // QUAD9 + { + 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 // QUAD4 { 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] ); } + if ( !midN.empty() ) SMESHUtils::FreeVector( midN ); } } - // the vector of extra vertices at quadrilaterals won't be used anymore so it is cleared - quadNodesAtQuadrilaterals.clear(); - /* Read extra vertices for quadratic tetrahedra */ - std::vector< std::vector > quadNodesAtTetrahedra; - int nbQuadTetra = 0; - if ( (nbQuadTetra = GmfStatKwd(meshID, GmfExtraVerticesAtTetrahedra)) ) - { - GmfGotoKwd(meshID, GmfExtraVerticesAtTetrahedra); - quadNodesAtTetrahedra.reserve( nbQuadTetra ); - std::vector nodes( 6 ); - for ( int i = 1; i <= nbQuadTetra; ++i ) - { - GmfGetLin(meshID, GmfExtraVerticesAtTetrahedra, - &iN[0], &iN[1], &iN[2], &iN[3], &iN[4], &iN[5], &iN[6], &iN[7]); - 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.push_back(iN[7]); - nodes.resize( iN[1] ); - - quadNodesAtTetrahedra.push_back(nodes); - } - } - /* Read terahedra */ const int tetIDShift = myMesh->GetMeshInfo().NbElements(); - if ( int nbTet = GmfStatKwd(meshID, GmfTetrahedra)) + if ( int nbTet = GmfStatKwd( meshID, GmfTetrahedra )) { - const bool readQuadNodes = (nbQuadTetra == nbTet); + // read extra vertices for quadratic tetrahedra + std::vector< std::vector > quadNodesAtTetrahedra( nbTet + 1 ); + if ( int nbQuadTetra = GmfStatKwd( meshID, GmfExtraVerticesAtTetrahedra )) + { + GmfGotoKwd(meshID, GmfExtraVerticesAtTetrahedra); + for ( int i = 1; i <= nbQuadTetra; ++i ) + { + GmfGetLin(meshID, GmfExtraVerticesAtTetrahedra, + &iN[0], &iN[1], &iN[2], &iN[3], &iN[4], &iN[5], &iN[6], &iN[7]); + if ( iN[0] <= nbTet ) + { + std::vector& nodes = quadNodesAtTetrahedra[ iN[0] ]; + nodes.insert( nodes.end(), & iN[2], & iN[7+1] ); + nodes.resize( iN[1] ); + } + } + } + // create tetrahedra GmfGotoKwd(meshID, GmfTetrahedra); for ( int i = 1; i <= nbTet; ++i ) { GmfGetLin(meshID, GmfTetrahedra, &iN[0], &iN[1], &iN[2], &iN[3], &ref); - if ( readQuadNodes ) + std::vector& midN = quadNodesAtTetrahedra[ i ]; + if ( midN.size() >= 10-4 ) // TETRA10 { - const std::vector& midN = quadNodesAtTetrahedra[ i-1 ]; if ( !myMesh->AddVolumeWithID( iN[0], iN[2], iN[1], iN[3], - midN[2], midN[1], midN[0], midN[3], midN[5], midN[4], tetIDShift + i )) - status = storeBadNodeIds( "GmfTetrahedra + GmfExtraVerticesAtTetrahedra",i, 10, iN[0], iN[2], iN[1], iN[3], - midN[2], midN[1], midN[0], midN[3], midN[5], midN[4] ); + midN[2], midN[1], midN[0], midN[3], midN[5], midN[4], + tetIDShift + i )) + status = storeBadNodeIds( "GmfTetrahedra + GmfExtraVerticesAtTetrahedra",i, 10, + iN[0], iN[2], iN[1], iN[3], + midN[2], midN[1], midN[0], midN[3], midN[5], midN[4] ); } - else + else // TETRA4 { - if ( !myMesh->AddVolumeWithID( iN[0], iN[2], iN[1], iN[3], tetIDShift + i ) ) + if ( !myMesh->AddVolumeWithID( iN[0], iN[2], iN[1], iN[3], tetIDShift + i )) status = storeBadNodeIds( "GmfTetrahedra" ,i, 4, iN[0], iN[2], iN[1], iN[3] ); } + if ( !midN.empty() ) SMESHUtils::FreeVector( midN ); } } - // the vector of extra vertices at tetrahedra won't be used anymore so it is cleared - quadNodesAtTetrahedra.clear(); /* Read pyramids */ const int pyrIDShift = myMesh->GetMeshInfo().NbElements(); @@ -328,92 +304,58 @@ Driver_Mesh::Status DriverGMF_Read::Perform() } } - /* Read extra vertices for quadratic hexahedra */ - std::vector< std::vector > quadNodesAtHexahedra; - int nbQuadHexa = 0; - if ( (nbQuadHexa = GmfStatKwd(meshID, GmfExtraVerticesAtHexahedra)) ) - { - GmfGotoKwd(meshID, GmfExtraVerticesAtHexahedra); - quadNodesAtHexahedra.reserve( nbQuadHexa ); - std::vector nodes( 19 ); - for ( int i = 1; i <= nbQuadHexa; ++i ) - { - GmfGetLin(meshID, GmfExtraVerticesAtHexahedra, &iN[0], &iN[1], // Hexa Id, Nb of extra vertices - &iN[2], &iN[3], &iN[4], &iN[5], - &iN[6], &iN[7], &iN[8], &iN[9], - &iN[10], &iN[11], &iN[12], &iN[13], // HEXA20 - &iN[14], - &iN[15], &iN[16], &iN[17], &iN[18], - &iN[19], - &iN[20]); // HEXA27 - 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.push_back(iN[7]); - nodes.push_back(iN[8]); - nodes.push_back(iN[9]); - nodes.push_back(iN[10]); - nodes.push_back(iN[11]); - nodes.push_back(iN[12]); - nodes.push_back(iN[13]); - nodes.push_back(iN[14]); - nodes.push_back(iN[15]); - nodes.push_back(iN[16]); - nodes.push_back(iN[17]); - nodes.push_back(iN[18]); - nodes.push_back(iN[19]); - nodes.push_back(iN[20]); - nodes.resize( iN[1] ); - - quadNodesAtHexahedra.push_back(nodes); - } - } - /* Read hexahedra */ const int hexIDShift = myMesh->GetMeshInfo().NbElements(); if ( int nbHex = GmfStatKwd(meshID, GmfHexahedra)) { - const bool readQuadNodes = (nbQuadHexa == nbHex); + // read extra vertices for quadratic hexahedra + std::vector< std::vector > quadNodesAtHexahedra( nbHex + 1 ); + if ( int nbQuadHexa = GmfStatKwd( meshID, GmfExtraVerticesAtHexahedra )) + { + GmfGotoKwd(meshID, GmfExtraVerticesAtHexahedra); + for ( int i = 1; i <= nbQuadHexa; ++i ) + { + GmfGetLin(meshID, GmfExtraVerticesAtHexahedra, &iN[0], &iN[1], // Hexa Id, Nb extra vertices + &iN[2], &iN[3], &iN[4], &iN[5], + &iN[6], &iN[7], &iN[8], &iN[9], + &iN[10], &iN[11], &iN[12], &iN[13], // HEXA20 + &iN[14], + &iN[15], &iN[16], &iN[17], &iN[18], + &iN[19], + &iN[20]); // HEXA27 + if ( iN[0] <= nbHex ) + { + std::vector& nodes = quadNodesAtHexahedra[ iN[0] ]; + nodes.insert( nodes.end(), & iN[2], & iN[20+1] ); + nodes.resize( iN[1] ); + } + } + } + // create hexhedra 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 ( readQuadNodes ) + &iN[4], &iN[5], &iN[6], &iN[7], &ref); + std::vector& midN = quadNodesAtHexahedra[ i ]; + if ( midN.size() == 20-8 ) // HEXA20 { - const std::vector& midN = quadNodesAtHexahedra[ i-1 ]; - if ( midN.size() == 12 ) // HEXA20 - { - if ( !myMesh->AddVolumeWithID( iN[0], iN[3], iN[2], iN[1], - iN[4], iN[7], iN[6], iN[5], - midN[3], midN[2], midN[1], midN[0], - midN[7], midN[6], midN[5], midN[4], - midN[8], midN[11], midN[10], midN[9], - tetIDShift + i )) - status = storeBadNodeIds( "GmfHexahedra + GmfExtraVerticesAtHexahedra",i, 20, - iN[0], iN[3], iN[2], iN[1], + if ( !myMesh->AddVolumeWithID( iN[0], iN[3], iN[2], iN[1], iN[4], iN[7], iN[6], iN[5], midN[3], midN[2], midN[1], midN[0], midN[7], midN[6], midN[5], midN[4], - midN[8], midN[11], midN[10], midN[9]); - } - else // HEXA27 - { - if ( !myMesh->AddVolumeWithID( iN[0], iN[3], iN[2], iN[1], - iN[4], iN[7], iN[6], iN[5], - midN[3], midN[2], midN[1], midN[0], - midN[7], midN[6], midN[5], midN[4], - midN[8], midN[11], midN[10], midN[9], - midN[12], - midN[16], midN[15], midN[14], midN[13], - midN[17], - midN[18], - tetIDShift + i )) - status = storeBadNodeIds( "GmfHexahedra + GmfExtraVerticesAtHexahedra",i, 27, - iN[0], iN[3], iN[2], iN[1], + midN[8], midN[11], midN[10], midN[9], + hexIDShift + i )) + status = storeBadNodeIds( "GmfHexahedra + GmfExtraVerticesAtHexahedra",i, 20, + iN[0], iN[3], iN[2], iN[1], + iN[4], iN[7], iN[6], iN[5], + midN[3], midN[2], midN[1], midN[0], + midN[7], midN[6], midN[5], midN[4], + midN[8], midN[11], midN[10], midN[9]); + } + else if ( midN.size() >= 27-8 ) // HEXA27 + { + if ( !myMesh->AddVolumeWithID( iN[0], iN[3], iN[2], iN[1], iN[4], iN[7], iN[6], iN[5], midN[3], midN[2], midN[1], midN[0], midN[7], midN[6], midN[5], midN[4], @@ -421,20 +363,29 @@ Driver_Mesh::Status DriverGMF_Read::Perform() midN[12], midN[16], midN[15], midN[14], midN[13], midN[17], - midN[18]); - } + midN[18], + hexIDShift + i )) + status = storeBadNodeIds( "GmfHexahedra + GmfExtraVerticesAtHexahedra",i, 27, + iN[0], iN[3], iN[2], iN[1], + iN[4], iN[7], iN[6], iN[5], + midN[3], midN[2], midN[1], midN[0], + midN[7], midN[6], midN[5], midN[4], + midN[8], midN[11], midN[10], midN[9], + midN[12], + midN[16], midN[15], midN[14], midN[13], + midN[17], + midN[18]); } - else + else // HEXA8 { 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[3], iN[2], iN[1], - iN[4], iN[7], iN[6], iN[5] ); + iN[4], iN[7], iN[6], iN[5] ); } + if ( !midN.empty() ) SMESHUtils::FreeVector( midN ); } } - // the vector of extra vertices at tetrahedra won't be used anymore so it is cleared - quadNodesAtHexahedra.clear(); /* Read prism */ const int prismIDShift = myMesh->GetMeshInfo().NbElements(); @@ -443,8 +394,7 @@ Driver_Mesh::Status DriverGMF_Read::Perform() 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); + 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] ); diff --git a/src/DriverGMF/DriverGMF_Write.cxx b/src/DriverGMF/DriverGMF_Write.cxx index 432551e79..0a3c5ca68 100644 --- a/src/DriverGMF/DriverGMF_Write.cxx +++ b/src/DriverGMF/DriverGMF_Write.cxx @@ -40,37 +40,42 @@ extern "C" #include #define BEGIN_ELEM_WRITE( SMDSEntity, GmfKwd, elem ) \ - elemIt = myMesh->elementEntityIterator( SMDSEntity ); \ + elemIt = elementIterator( SMDSEntity ); \ if ( elemIt->more() ) \ { \ - GmfSetKwd(meshID, GmfKwd, myMesh->GetMeshInfo().NbEntities( SMDSEntity )); \ + GmfSetKwd(meshID, GmfKwd, myMesh->GetMeshInfo().NbElements( SMDSEntity )); \ for ( int gmfID = 1; elemIt->more(); ++gmfID ) \ { \ const SMDS_MeshElement* elem = elemIt->next(); \ GmfSetLin(meshID, GmfKwd, -#define BEGIN_EXTRA_VERTICES_WRITE( SMDSEntity, GmfKwd, elem, nbVertices ) \ - elemIt = myMesh->elementEntityIterator( SMDSEntity ); \ +#define BEGIN_EXTRA_VERTICES_WRITE( SMDSGeom, LinType, GmfKwd, elem ) \ + elemIt = elementIterator( SMDSGeom ); \ if ( elemIt->more() ) \ { \ - GmfSetKwd(meshID, GmfKwd, myMesh->GetMeshInfo().NbEntities( SMDSEntity )); \ + int totalNbElems = myMesh->GetMeshInfo().NbElements( SMDSGeom ); \ + int nbLinearElems = myMesh->GetMeshInfo().NbElements( LinType ); \ + if ( totalNbElems - nbLinearElems > 0 ) \ + { \ + GmfSetKwd(meshID, GmfKwd, totalNbElems - nbLinearElems); \ for ( int gmfID = 1; elemIt->more(); ++gmfID ) \ { \ const SMDS_MeshElement* elem = elemIt->next(); \ - GmfSetLin(meshID, GmfKwd, gmfID, nbVertices, + if ( elem->IsQuadratic() ) { \ + GmfSetLin(meshID, GmfKwd, gmfID, elem->NbNodes() - elem->NbCornerNodes(), #define END_ELEM_WRITE( elem ) \ elem->getshapeId() ); \ - }} \ + }} #define END_ELEM_WRITE_ADD_TO_MAP( elem, e2id ) \ elem->getshapeId() ); \ e2id.insert( e2id.end(), make_pair( elem, gmfID )); \ - }} \ + }} #define END_EXTRA_VERTICES_WRITE() \ ); \ - }} \ + }}}} DriverGMF_Write::DriverGMF_Write(): @@ -126,107 +131,73 @@ Driver_Mesh::Status DriverGMF_Write::Perform() // edges TElem2IDMap edge2IDMap; - BEGIN_ELEM_WRITE( SMDSEntity_Edge, GmfEdges, edge ) + BEGIN_ELEM_WRITE( SMDSGeom_EDGE, GmfEdges, edge ) node2IdMap[ edge->GetNode( 0 )], node2IdMap[ edge->GetNode( 1 )], END_ELEM_WRITE_ADD_TO_MAP( edge, edge2IDMap ); - // quadratic edges - BEGIN_ELEM_WRITE( SMDSEntity_Quad_Edge, GmfEdges, edge ) - node2IdMap[ edge->GetNode( 0 )], - node2IdMap[ edge->GetNode( 1 )], - END_ELEM_WRITE( edge ); - - BEGIN_EXTRA_VERTICES_WRITE( SMDSEntity_Quad_Edge, GmfExtraVerticesAtEdges, edge, 1 ) + // nodes of quadratic edges + BEGIN_EXTRA_VERTICES_WRITE( SMDSGeom_EDGE, SMDSEntity_Edge, + GmfExtraVerticesAtEdges, edge ) node2IdMap[ edge->GetNode( 2 )] END_EXTRA_VERTICES_WRITE(); // triangles TElem2IDMap tria2IDMap; - BEGIN_ELEM_WRITE( SMDSEntity_Triangle, GmfTriangles, tria ) + BEGIN_ELEM_WRITE( SMDSGeom_TRIANGLE, GmfTriangles, tria ) node2IdMap[ tria->GetNode( 0 )], node2IdMap[ tria->GetNode( 1 )], node2IdMap[ tria->GetNode( 2 )], END_ELEM_WRITE_ADD_TO_MAP( tria, tria2IDMap ); - // quadratic triangles - 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 ) + // nodes of quadratic triangles + BEGIN_EXTRA_VERTICES_WRITE( SMDSGeom_TRIANGLE, SMDSEntity_Triangle, + GmfExtraVerticesAtTriangles, tria ) node2IdMap[ tria->GetNode( 3 )], node2IdMap[ tria->GetNode( 4 )], node2IdMap[ tria->GetNode( 5 )] + //node2IdMap[ tria->GetNodeWrap( 6 )] // for TRIA7 END_EXTRA_VERTICES_WRITE(); // quadrangles TElem2IDMap quad2IDMap; - BEGIN_ELEM_WRITE( SMDSEntity_Quadrangle, GmfQuadrilaterals, quad ) + BEGIN_ELEM_WRITE( SMDSGeom_QUADRANGLE, GmfQuadrilaterals, quad ) node2IdMap[ quad->GetNode( 0 )], node2IdMap[ quad->GetNode( 1 )], node2IdMap[ quad->GetNode( 2 )], node2IdMap[ quad->GetNode( 3 )], END_ELEM_WRITE_ADD_TO_MAP( quad, quad2IDMap ); - // quadratic quadrangles - BEGIN_ELEM_WRITE( SMDSEntity_Quad_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_Quad_Quadrangle, GmfExtraVerticesAtQuadrilaterals, quad, 4 ) - node2IdMap[ quad->GetNode( 4 )], - 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 ) + // nodes of quadratic quadrangles + BEGIN_EXTRA_VERTICES_WRITE( SMDSGeom_QUADRANGLE, SMDSEntity_Quadrangle, + GmfExtraVerticesAtQuadrilaterals, quad ) node2IdMap[ quad->GetNode( 4 )], node2IdMap[ quad->GetNode( 5 )], node2IdMap[ quad->GetNode( 6 )], node2IdMap[ quad->GetNode( 7 )], - node2IdMap[ quad->GetNode( 8 )] + node2IdMap[ quad->GetNodeWrap( 8 )] // for QUAD9 END_EXTRA_VERTICES_WRITE(); // terahedra - BEGIN_ELEM_WRITE( SMDSEntity_Tetra, GmfTetrahedra, tetra ) + BEGIN_ELEM_WRITE( SMDSGeom_TETRA, GmfTetrahedra, tetra ) node2IdMap[ tetra->GetNode( 0 )], node2IdMap[ tetra->GetNode( 2 )], node2IdMap[ tetra->GetNode( 1 )], node2IdMap[ tetra->GetNode( 3 )], END_ELEM_WRITE( tetra ); - // quadratic terahedra - BEGIN_ELEM_WRITE( SMDSEntity_Quad_Tetra, GmfTetrahedra, tetra ) - node2IdMap[ tetra->GetNode( 0 )], - node2IdMap[ tetra->GetNode( 2 )], - node2IdMap[ tetra->GetNode( 1 )], - node2IdMap[ tetra->GetNode( 3 )], - END_ELEM_WRITE( tetra ); - - BEGIN_EXTRA_VERTICES_WRITE( SMDSEntity_Quad_Tetra, GmfExtraVerticesAtTetrahedra, tetra, 6 ) + // nodes of quadratic terahedra + BEGIN_EXTRA_VERTICES_WRITE( SMDSGeom_TETRA, SMDSEntity_Tetra, + GmfExtraVerticesAtTetrahedra, tetra ) node2IdMap[ tetra->GetNode( 6 )], node2IdMap[ tetra->GetNode( 5 )], node2IdMap[ tetra->GetNode( 4 )], node2IdMap[ tetra->GetNode( 7 )], node2IdMap[ tetra->GetNode( 9 )], node2IdMap[ tetra->GetNode( 8 )] + //node2IdMap[ tetra->GetNodeWrap( 10 )], // for TETRA11 END_EXTRA_VERTICES_WRITE(); - + // pyramids BEGIN_ELEM_WRITE( SMDSEntity_Pyramid, GmfPyramids, pyra ) node2IdMap[ pyra->GetNode( 0 )], @@ -237,7 +208,7 @@ Driver_Mesh::Status DriverGMF_Write::Perform() END_ELEM_WRITE( pyra ); // hexahedra - BEGIN_ELEM_WRITE( SMDSEntity_Hexa, GmfHexahedra, hexa ) + BEGIN_ELEM_WRITE( SMDSGeom_HEXA, GmfHexahedra, hexa ) node2IdMap[ hexa->GetNode( 0 )], node2IdMap[ hexa->GetNode( 3 )], node2IdMap[ hexa->GetNode( 2 )], @@ -248,65 +219,28 @@ Driver_Mesh::Status DriverGMF_Write::Perform() node2IdMap[ hexa->GetNode( 5 )], END_ELEM_WRITE( hexa ); - // quadratic hexahedra - BEGIN_ELEM_WRITE( SMDSEntity_Quad_Hexa, GmfHexahedra, hexa ) - node2IdMap[ hexa->GetNode( 0 )], - node2IdMap[ hexa->GetNode( 3 )], - node2IdMap[ hexa->GetNode( 2 )], - node2IdMap[ hexa->GetNode( 1 )], - node2IdMap[ hexa->GetNode( 4 )], - node2IdMap[ hexa->GetNode( 7 )], - node2IdMap[ hexa->GetNode( 6 )], - node2IdMap[ hexa->GetNode( 5 )], - END_ELEM_WRITE( hexa ); - - BEGIN_EXTRA_VERTICES_WRITE( SMDSEntity_Quad_Hexa, GmfExtraVerticesAtHexahedra, hexa, 12 ) - node2IdMap[ hexa->GetNode( 11 )], + // nodes of quadratic hexahedra + BEGIN_EXTRA_VERTICES_WRITE( SMDSGeom_HEXA, SMDSEntity_Hexa, + GmfExtraVerticesAtHexahedra, hexa ) + node2IdMap[ hexa->GetNode( 11 )], // HEXA20 node2IdMap[ hexa->GetNode( 10 )], - node2IdMap[ hexa->GetNode( 9 )], - node2IdMap[ hexa->GetNode( 8 )], + node2IdMap[ hexa->GetNode( 9 )], + node2IdMap[ hexa->GetNode( 8 )], node2IdMap[ hexa->GetNode( 15 )], node2IdMap[ hexa->GetNode( 14 )], node2IdMap[ hexa->GetNode( 13 )], node2IdMap[ hexa->GetNode( 12 )], node2IdMap[ hexa->GetNode( 16 )], node2IdMap[ hexa->GetNode( 19 )], - node2IdMap[ hexa->GetNode( 18 )], - node2IdMap[ hexa->GetNode( 17 )] - END_EXTRA_VERTICES_WRITE(); - - // tri-quadratic hexahedra - BEGIN_ELEM_WRITE( SMDSEntity_TriQuad_Hexa, GmfHexahedra, hexa ) - node2IdMap[ hexa->GetNode( 0 )], - node2IdMap[ hexa->GetNode( 3 )], - node2IdMap[ hexa->GetNode( 2 )], - node2IdMap[ hexa->GetNode( 1 )], - node2IdMap[ hexa->GetNode( 4 )], - node2IdMap[ hexa->GetNode( 7 )], - node2IdMap[ hexa->GetNode( 6 )], - node2IdMap[ hexa->GetNode( 5 )], - END_ELEM_WRITE( hexa ); - - BEGIN_EXTRA_VERTICES_WRITE( SMDSEntity_TriQuad_Hexa, GmfExtraVerticesAtHexahedra, hexa, 19 ) - node2IdMap[ hexa->GetNode( 11 )], - node2IdMap[ hexa->GetNode( 10 )], - node2IdMap[ hexa->GetNode( 9 )], - node2IdMap[ hexa->GetNode( 8 )], - node2IdMap[ hexa->GetNode( 15 )], - node2IdMap[ hexa->GetNode( 14 )], - node2IdMap[ hexa->GetNode( 13 )], - node2IdMap[ hexa->GetNode( 12 )], - node2IdMap[ hexa->GetNode( 16 )], - node2IdMap[ hexa->GetNode( 19 )], - node2IdMap[ hexa->GetNode( 18 )], - node2IdMap[ hexa->GetNode( 17 )], - node2IdMap[ hexa->GetNode( 20 )], - node2IdMap[ hexa->GetNode( 24 )], - node2IdMap[ hexa->GetNode( 23 )], - node2IdMap[ hexa->GetNode( 22 )], - node2IdMap[ hexa->GetNode( 21 )], - node2IdMap[ hexa->GetNode( 25 )], - node2IdMap[ hexa->GetNode( 26 )] + node2IdMap[ hexa->GetNodeWrap( 18 )], // + HEXA27 + node2IdMap[ hexa->GetNodeWrap( 17 )], + node2IdMap[ hexa->GetNodeWrap( 20 )], + node2IdMap[ hexa->GetNodeWrap( 24 )], + node2IdMap[ hexa->GetNodeWrap( 23 )], + node2IdMap[ hexa->GetNodeWrap( 22 )], + node2IdMap[ hexa->GetNodeWrap( 21 )], + node2IdMap[ hexa->GetNodeWrap( 25 )], + node2IdMap[ hexa->GetNodeWrap( 26 )] END_EXTRA_VERTICES_WRITE(); // prism @@ -405,3 +339,22 @@ Driver_Mesh::Status DriverGMF_Write::Perform() return DRS_OK; } + +//================================================================================ +/*! + * \brief Returns an iterator on elements of a certain type + */ +//================================================================================ + +SMDS_ElemIteratorPtr DriverGMF_Write::elementIterator(SMDSAbs_ElementType type) +{ + return myMesh->elementsIterator(type); +} +SMDS_ElemIteratorPtr DriverGMF_Write::elementIterator(SMDSAbs_EntityType type) +{ + return myMesh->elementEntityIterator(type); +} +SMDS_ElemIteratorPtr DriverGMF_Write::elementIterator(SMDSAbs_GeometryType type) +{ + return myMesh->elementGeomIterator(type); +}