-// Copyright (C) 2007-2012 CEA/DEN, EDF R&D, OPEN CASCADE
+// Copyright (C) 2007-2022 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.
+// version 2.1 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// 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
+// License along with this library; if not, write 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
#include "SMESHDS_Group.hxx"
#include "SMESHDS_Mesh.hxx"
#include "SMESH_Comment.hxx"
+#include "SMESH_TypeDefs.hxx"
#include <Basics_Utils.hxx>
// --------------------------------------------------------------------------------
DriverGMF_Read::DriverGMF_Read():
Driver_SMESHDS_Mesh(),
- _makeRequiredGroups( true )
+ _makeRequiredGroups( true ),
+ _makeFaultGroups( true )
{
}
// --------------------------------------------------------------------------------
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
int ref;
- const int nodeIDShift = myMesh->GetMeshInfo().NbNodes();
+ const smIdType nodeIDShift = myMesh->GetMeshInfo().NbNodes();
if ( version != GmfFloat )
{
double x, y, z;
// Read elements
- int iN[28];
+ int iN[28]; // 28 - nb nodes in HEX27 (+ 1 for safety :)
/* Read edges */
- const int edgeIDShift = myMesh->GetMeshInfo().NbElements();
+ const smIdType edgeIDShift = myMesh->GetMeshInfo().NbElements();
if ( int nbEdges = GmfStatKwd(meshID, GmfEdges))
{
- GmfGotoKwd(meshID, GmfEdges);
- for ( int i = 1; i <= nbEdges; ++i )
+ // read extra vertices for quadratic edges
+ std::vector<int> quadNodesAtEdges( nbEdges + 1, -1 );
+ if ( int nbQuadEdges = GmfStatKwd(meshID, GmfExtraVerticesAtEdges))
{
- 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] );
+ 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];
+ }
}
- }
- /* Read quadratic edges */
- const int edge2IDShift = myMesh->GetMeshInfo().NbElements();
- if ( int nbEdges = GmfStatKwd(meshID, GmfEdgesP2))
- {
- GmfGotoKwd(meshID, GmfEdgesP2);
+ // create edges
+ GmfGotoKwd(meshID, GmfEdges);
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] );
+ GmfGetLin(meshID, GmfEdges, &iN[0], &iN[1], &ref);
+ const int midN = quadNodesAtEdges[ i ];
+ if ( midN > 0 )
+ {
+ 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 triangles */
- const int triaIDShift = myMesh->GetMeshInfo().NbElements();
+ const smIdType triaIDShift = myMesh->GetMeshInfo().NbElements();
if ( int nbTria = GmfStatKwd(meshID, GmfTriangles))
{
- GmfGotoKwd(meshID, GmfTriangles);
- for ( int i = 1; i <= nbTria; ++i )
+ // read extra vertices for quadratic triangles
+ std::vector< std::vector<int> > quadNodesAtTriangles( nbTria + 1 );
+ if ( int nbQuadTria = GmfStatKwd(meshID, GmfExtraVerticesAtTriangles ))
{
- 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] );
+ 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<int>& nodes = quadNodesAtTriangles[ iN[0] ];
+ nodes.insert( nodes.end(), & iN[2], & iN[5+1] );
+ nodes.resize( iN[1] );
+ }
+ }
}
- }
- /* Read quadratic triangles */
- const int tria2IDShift = myMesh->GetMeshInfo().NbElements();
- if ( int nbTria = GmfStatKwd(meshID, GmfTrianglesP2))
- {
- GmfGotoKwd(meshID, GmfTrianglesP2);
+ // create triangles
+ GmfGotoKwd(meshID, GmfTriangles);
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] );
+ GmfGetLin(meshID, GmfTriangles, &iN[0], &iN[1], &iN[2], &ref);
+ std::vector<int>& midN = quadNodesAtTriangles[ i ];
+ if ( midN.size() >= 3 )
+ {
+ 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] );
+ }
+ if ( !midN.empty() ) SMESHUtils::FreeVector( midN );
}
}
+
/* Read quadrangles */
- const int quadIDShift = myMesh->GetMeshInfo().NbElements();
+ const smIdType quadIDShift = myMesh->GetMeshInfo().NbElements();
if ( int nbQuad = GmfStatKwd(meshID, GmfQuadrilaterals))
{
+ // read extra vertices for quadratic quadrangles
+ std::vector< std::vector<int> > 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<int>& 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 ( !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] );
+ std::vector<int>& midN = quadNodesAtQuadrilaterals[ i ];
+ if ( midN.size() == 8-4 ) // QUAD8
+ {
+ 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 ( 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 );
}
}
- /* Read bi-quadratic quadrangles */
- const int quad2IDShift = myMesh->GetMeshInfo().NbElements();
- if ( int nbQuad = GmfStatKwd(meshID, GmfQuadrilateralsQ2))
+
+ /* Read terahedra */
+ const smIdType tetIDShift = myMesh->GetMeshInfo().NbElements();
+ if ( int nbTet = GmfStatKwd( meshID, GmfTetrahedra ))
{
- GmfGotoKwd(meshID, GmfQuadrilateralsQ2);
- for ( int i = 1; i <= nbQuad; ++i )
+ // read extra vertices for quadratic tetrahedra
+ std::vector< std::vector<int> > quadNodesAtTetrahedra( nbTet + 1 );
+ if ( int nbQuadTetra = GmfStatKwd( meshID, GmfExtraVerticesAtTetrahedra ))
{
- 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] );
+ 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<int>& nodes = quadNodesAtTetrahedra[ iN[0] ];
+ nodes.insert( nodes.end(), & iN[2], & iN[7+1] );
+ nodes.resize( iN[1] );
+ }
+ }
}
- }
- /* Read terahedra */
- const int tetIDShift = myMesh->GetMeshInfo().NbElements();
- if ( int nbTet = GmfStatKwd(meshID, GmfTetrahedra))
- {
+ // 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 ( !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] );
+ std::vector<int>& midN = quadNodesAtTetrahedra[ i ];
+ if ( midN.size() >= 10-4 ) // TETRA10
+ {
+ 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] );
+ }
+ else // TETRA4
+ {
+ 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 );
}
}
+
/* Read pyramids */
- const int pyrIDShift = myMesh->GetMeshInfo().NbElements();
+ const smIdType 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 ))
+ if ( !myMesh->AddVolumeWithID( iN[3], iN[2], iN[1], iN[0], 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();
+ const smIdType hexIDShift = myMesh->GetMeshInfo().NbElements();
if ( int nbHex = GmfStatKwd(meshID, GmfHexahedra))
{
- GmfGotoKwd(meshID, GmfHexahedra);
- for ( int i = 1; i <= nbHex; ++i )
+ // read extra vertices for quadratic hexahedra
+ std::vector< std::vector<int> > quadNodesAtHexahedra( nbHex + 1 );
+ if ( int nbQuadHexa = GmfStatKwd( meshID, GmfExtraVerticesAtHexahedra ))
{
- 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] );
+ 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<int>& nodes = quadNodesAtHexahedra[ iN[0] ];
+ nodes.insert( nodes.end(), & iN[2], & iN[20+1] );
+ nodes.resize( iN[1] );
+ }
+ }
}
- }
- /* Read tri-quadratic hexahedra */
- const int hex2IDShift = myMesh->GetMeshInfo().NbElements();
- if ( int nbHex = GmfStatKwd(meshID, GmfHexahedraQ2))
- {
- GmfGotoKwd(meshID, GmfHexahedraQ2);
+ // create hexhedra
+ GmfGotoKwd(meshID, GmfHexahedra);
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]);
+ GmfGetLin(meshID, GmfHexahedra, &iN[0], &iN[1], &iN[2], &iN[3],
+ &iN[4], &iN[5], &iN[6], &iN[7], &ref);
+ std::vector<int>& midN = quadNodesAtHexahedra[ i ];
+ if ( midN.size() == 20-8 ) // 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],
+ 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],
+ midN[8], midN[11], midN[10], midN[9],
+ midN[12],
+ midN[16], midN[15], midN[14], midN[13],
+ midN[17],
+ 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 // 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] );
+ }
+ if ( !midN.empty() ) SMESHUtils::FreeVector( midN );
}
}
+
/* Read prism */
- const int prismIDShift = myMesh->GetMeshInfo().NbElements();
+ const smIdType 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);
+ 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
+ // Read some entities into groups
+ // see MeshGems/Docs/meshgems_formats_description.pdf
+
+ // get ids of existing groups
+ std::set< int > groupIDs;
+ const std::set<SMESHDS_GroupBase*>& groups = myMesh->GetGroups();
+ std::set<SMESHDS_GroupBase*>::const_iterator grIter = groups.begin();
+ for ( ; grIter != groups.end(); ++grIter )
+ groupIDs.insert( (*grIter)->GetID() );
+ if ( groupIDs.empty() ) groupIDs.insert( 0 );
+ // Read required entities into groups
if ( _makeRequiredGroups )
{
- // get ids of existing groups
- std::set< int > groupIDs;
- const std::set<SMESHDS_GroupBase*>& groups = myMesh->GetGroups();
- std::set<SMESHDS_GroupBase*>::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 smIdType 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" };
+ "_required_Quadrilaterals"
+ };
for ( int i = 0; i < 4; ++i )
{
- int gmfKwd = kes[i][0];
+ int gmfKwd = FromSmIdType<int>( kes[i][0] );
+ SMDSAbs_ElementType entity = (SMDSAbs_ElementType) kes[i][1];
+ smIdType 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] );
+ }
+ }
+ }
+ }
+
+ // Read fault entities into groups
+ if ( _makeFaultGroups )
+ {
+
+ const smIdType kes[7][3] = { { GmfFault_SmallTri, SMDSAbs_Face, triaIDShift },
+ { GmfFault_BadShape, SMDSAbs_Face, triaIDShift },
+ { GmfFault_Overlap, SMDSAbs_Face, triaIDShift },
+ { GmfFault_Inter, SMDSAbs_Face, triaIDShift },
+ { GmfFault_NearTri, SMDSAbs_Face, triaIDShift },
+ { GmfFault_FreeEdge, SMDSAbs_Face, triaIDShift },
+ { GmfFault_MultipleEdge, SMDSAbs_Face, triaIDShift }
+ };
+ const char* names[7] = { "Fault_SmallTri",
+ "Fault_BadShape",
+ "Fault_Overlap",
+ "Fault_Inter",
+ "Fault_NearTri",
+ "Fault_FreeEdge",
+ "Fault_MultipleEdge"
+ };
+ for ( int i = 0; i < 7; ++i )
+ {
+ int gmfKwd = FromSmIdType<int>( kes[i][0] );
SMDSAbs_ElementType entity = (SMDSAbs_ElementType) kes[i][1];
- int shift = kes[i][2];
+ smIdType shift = kes[i][2];
if ( int nb = GmfStatKwd(meshID, gmfKwd))
{
const int newID = *groupIDs.rbegin() + 1;
}
}
+
+ myMesh->Modified();
+ myMesh->CompactMesh();
+
return status;
}
}
return DRS_OK;
}
+
+//================================================================================
+/*!
+ * \brief Return number of mesh entities in a file
+ */
+//================================================================================
+
+bool DriverGMF_Read::GetMeshInfo(smIdType & nbNodes,
+ smIdType & nbEdges,
+ smIdType & nbFaces,
+ smIdType & nbVols)
+{
+ nbNodes = nbEdges = nbFaces = nbVols = 0;
+
+ Kernel_Utils::Localizer loc;
+
+ int dim, version;
+ int meshID = GmfOpenMesh( myFile.c_str(), GmfRead, &version, &dim );
+ if ( !meshID )
+ return false;
+
+ DriverGMF::MeshCloser aMeshCloser( meshID ); // An object closing GMF mesh at destruction
+
+ nbNodes = GmfStatKwd(meshID, GmfVertices );
+ nbEdges = GmfStatKwd(meshID, GmfEdges );
+ nbFaces = ( GmfStatKwd(meshID, GmfTriangles ) +
+ GmfStatKwd(meshID, GmfQuadrilaterals ));
+ nbVols = ( GmfStatKwd(meshID, GmfTetrahedra ) +
+ GmfStatKwd(meshID, GmfPyramids ) +
+ GmfStatKwd(meshID, GmfHexahedra ) +
+ GmfStatKwd(meshID, GmfPrisms ));
+
+ return true;
+}