-// Copyright (C) 2007-2012 CEA/DEN, EDF R&D, OPEN CASCADE
+// Copyright (C) 2007-2013 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
// Author : Edward AGAPOV (eap)
#include "DriverGMF_Write.hxx"
+#include "DriverGMF.hxx"
#include "SMESHDS_GroupBase.hxx"
#include "SMESHDS_Mesh.hxx"
#include "SMESH_Comment.hxx"
+#include <Basics_Utils.hxx>
+
+#include "utilities.h"
+
extern "C"
{
#include "libmesh5.h"
#include <vector>
#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( SMDSGeom, LinType, GmfKwd, elem ) \
+ elemIt = elementIterator( SMDSGeom ); \
+ if ( elemIt->more() ) \
+ { \
+ 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(); \
+ 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() \
+ ); \
+ }}}}
+
+
+Control_Pnt::Control_Pnt(): gp_Pnt()
+{
+ size=0;
+}
+Control_Pnt::Control_Pnt( const gp_Pnt& aPnt,
+ double theSize): gp_Pnt( aPnt )
+{
+ size=theSize;
+}
+Control_Pnt::Control_Pnt(double theX,
+ double theY,
+ double theZ): gp_Pnt(theX, theY, theZ)
+{
+ size=0;
+}
+Control_Pnt::Control_Pnt(double theX,
+ double theY,
+ double theZ,
+ double theSize): gp_Pnt(theX, theY, theZ)
+{
+ size=theSize;
+}
DriverGMF_Write::DriverGMF_Write():
- Driver_SMESHDS_Mesh()
+ Driver_SMESHDS_Mesh(), _exportRequiredGroups( true )
{
}
DriverGMF_Write::~DriverGMF_Write()
{
}
+//================================================================================
+/*!
+ * \brief Reads a GMF file
+ */
+//================================================================================
+
Driver_Mesh::Status DriverGMF_Write::Perform()
{
- const int dim = 3, version = 3;
+ Kernel_Utils::Localizer loc;
+
+ const int dim = 3, version = sizeof(long) == 4 ? 2 : 3;
int meshID = GmfOpenMesh( myFile.c_str(), GmfWrite, version, dim );
if ( !meshID )
- return addMessage( SMESH_Comment("Can't open for writing ") << myFile, /*fatal=*/true );
+ {
+ if ( DriverGMF::isExtensionCorrect( myFile ))
+ return addMessage( SMESH_Comment("Can't open for writing ") << 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
+ DriverGMF::MeshCloser aMeshCloser( meshID ); // An object closing GMF mesh at destruction
// nodes
std::map< const SMDS_MeshNode* , int > node2IdMap;
// 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, GmfEdgesP2, edge )
- node2IdMap[ edge->GetNode( 0 )],
- node2IdMap[ edge->GetNode( 1 )],
- node2IdMap[ edge->GetNode( 2 )],
- END_ELEM_WRITE( edge );
-
+
+ // 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, GmfTrianglesP2, tria )
- node2IdMap[ tria->GetNode( 0 )],
- node2IdMap[ tria->GetNode( 1 )],
- node2IdMap[ tria->GetNode( 2 )],
+
+ // 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 )],
- END_ELEM_WRITE( tria );
-
+ 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 );
- // bi-quadratic quadrangles
- BEGIN_ELEM_WRITE( SMDSEntity_BiQuad_Quadrangle, GmfQuadrilateralsQ2, quad )
- node2IdMap[ quad->GetNode( 0 )],
- node2IdMap[ quad->GetNode( 3 )],
- node2IdMap[ quad->GetNode( 2 )],
- node2IdMap[ quad->GetNode( 1 )],
- node2IdMap[ quad->GetNode( 7 )],
- node2IdMap[ quad->GetNode( 6 )],
- node2IdMap[ quad->GetNode( 5 )],
+ // nodes of quadratic quadrangles
+ BEGIN_EXTRA_VERTICES_WRITE( SMDSGeom_QUADRANGLE, SMDSEntity_Quadrangle,
+ GmfExtraVerticesAtQuadrilaterals, quad )
node2IdMap[ quad->GetNode( 4 )],
- node2IdMap[ quad->GetNode( 8 )],
- END_ELEM_WRITE( quad );
-
+ node2IdMap[ quad->GetNode( 5 )],
+ node2IdMap[ quad->GetNode( 6 )],
+ node2IdMap[ quad->GetNode( 7 )],
+ 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, GmfTetrahedraP2, tetra )
- node2IdMap[ tetra->GetNode( 0 )],
- node2IdMap[ tetra->GetNode( 2 )],
- node2IdMap[ tetra->GetNode( 1 )],
- node2IdMap[ tetra->GetNode( 3 )],
+
+ // 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 )],
- END_ELEM_WRITE( tetra );
-
+ 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 )],
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 )],
node2IdMap[ hexa->GetNode( 5 )],
END_ELEM_WRITE( hexa );
- // tri-quadratic hexahedra
- BEGIN_ELEM_WRITE( SMDSEntity_TriQuad_Hexa, GmfHexahedraQ2, 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 )],
- 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( 12 )],
+ node2IdMap[ hexa->GetNode( 9 )],
+ node2IdMap[ hexa->GetNode( 8 )],
node2IdMap[ hexa->GetNode( 15 )],
node2IdMap[ hexa->GetNode( 14 )],
node2IdMap[ hexa->GetNode( 13 )],
- node2IdMap[ hexa->GetNode( 19 )],
- node2IdMap[ hexa->GetNode( 18 )],
- node2IdMap[ hexa->GetNode( 17 )],
+ node2IdMap[ hexa->GetNode( 12 )],
node2IdMap[ hexa->GetNode( 16 )],
- 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 )],
- END_ELEM_WRITE( hexa );
+ node2IdMap[ hexa->GetNode( 19 )],
+ 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
BEGIN_ELEM_WRITE( SMDSEntity_Penta, GmfPrisms, prism )
END_ELEM_WRITE( prism );
- // required entities
- SMESH_Comment badGroups;
- const std::set<SMESHDS_GroupBase*>& groupSet = myMesh->GetGroups();
- std::set<SMESHDS_GroupBase*>::const_iterator grIt = groupSet.begin();
- for ( ; grIt != groupSet.end(); ++grIt )
+ if ( _exportRequiredGroups )
{
- const SMESHDS_GroupBase* group = *grIt;
- std::string groupName = group->GetStoreName();
- std::string::size_type pos = groupName.find( "_required_" );
- if ( pos == std::string::npos ) continue;
-
- int gmfKwd;
- SMDSAbs_EntityType smdsEntity;
- std::string entity = groupName.substr( pos + strlen("_required_"));
- if ( entity == "Vertices" ) {
- gmfKwd = GmfRequiredVertices;
- smdsEntity = SMDSEntity_Node;
- }
- else if ( entity == "Edges" ) {
- gmfKwd = GmfRequiredEdges;
- smdsEntity = SMDSEntity_Edge;
- }
- else if ( entity == "Triangles" ) {
- gmfKwd = GmfRequiredTriangles;
- smdsEntity = SMDSEntity_Triangle;
- }
- else if ( entity == "Quadrilaterals" ) {
- gmfKwd = GmfRequiredQuadrilaterals;
- smdsEntity = SMDSEntity_Quadrangle;
- }
- else {
- addMessage( SMESH_Comment("Invalig gmf entity name: ") << entity, /*fatal=*/false );
- continue;
- }
-
- // check elem type in the group
- int nbOkElems = 0;
- SMDS_ElemIteratorPtr elemIt = group->GetElements();
- while ( elemIt->more() )
- nbOkElems += ( elemIt->next()->GetEntityType() == smdsEntity );
-
- if ( nbOkElems != group->Extent() && nbOkElems == 0 )
+ // required entities
+ SMESH_Comment badGroups;
+ const std::set<SMESHDS_GroupBase*>& groupSet = myMesh->GetGroups();
+ std::set<SMESHDS_GroupBase*>::const_iterator grIt = groupSet.begin();
+ for ( ; grIt != groupSet.end(); ++grIt )
{
- badGroups << " " << groupName;
- continue;
- }
-
- // choose a TElem2IDMap
- TElem2IDMap* elem2IDMap = 0;
- if ( smdsEntity == SMDSEntity_Quadrangle && nbOkElems != myMesh->NbFaces() )
- elem2IDMap = & quad2IDMap;
- else if ( smdsEntity == SMDSEntity_Triangle && nbOkElems != myMesh->NbFaces() )
- elem2IDMap = & tria2IDMap;
- else if ( smdsEntity == SMDSEntity_Edge && nbOkElems != myMesh->NbEdges() )
- elem2IDMap = & edge2IDMap;
-
- // write the group
- GmfSetKwd( meshID, gmfKwd, nbOkElems );
- elemIt = group->GetElements();
- if ( elem2IDMap )
- for ( ; elemIt->more(); )
- {
- const SMDS_MeshElement* elem = elemIt->next();
- if ( elem->GetEntityType() == smdsEntity )
- GmfSetLin( meshID, gmfKwd, (*elem2IDMap)[ elem ] );
+ const SMESHDS_GroupBase* group = *grIt;
+ std::string groupName = group->GetStoreName();
+ std::string::size_type pos = groupName.find( "_required_" );
+ if ( pos == std::string::npos ) continue;
+
+ int gmfKwd;
+ SMDSAbs_EntityType smdsEntity;
+ std::string entity = groupName.substr( pos + strlen("_required_"));
+ if ( entity == "Vertices" ) {
+ gmfKwd = GmfRequiredVertices;
+ smdsEntity = SMDSEntity_Node;
}
- else
- for ( int gmfID = 1; elemIt->more(); ++gmfID)
+ else if ( entity == "Edges" ) {
+ gmfKwd = GmfRequiredEdges;
+ smdsEntity = SMDSEntity_Edge;
+ }
+ else if ( entity == "Triangles" ) {
+ gmfKwd = GmfRequiredTriangles;
+ smdsEntity = SMDSEntity_Triangle;
+ }
+ else if ( entity == "Quadrilaterals" ) {
+ gmfKwd = GmfRequiredQuadrilaterals;
+ smdsEntity = SMDSEntity_Quadrangle;
+ }
+ else {
+ addMessage( SMESH_Comment("Invalig gmf entity name: ") << entity, /*fatal=*/false );
+ continue;
+ }
+
+ // check elem type in the group
+ int nbOkElems = 0;
+ SMDS_ElemIteratorPtr elemIt = group->GetElements();
+ while ( elemIt->more() )
+ nbOkElems += ( elemIt->next()->GetEntityType() == smdsEntity );
+
+ if ( nbOkElems != group->Extent() && nbOkElems == 0 )
{
- const SMDS_MeshElement* elem = elemIt->next();
- if ( elem->GetEntityType() == smdsEntity )
- GmfSetLin( meshID, gmfKwd, gmfID );
+ badGroups << " " << groupName;
+ continue;
}
- } // loop on groups
+ // choose a TElem2IDMap
+ TElem2IDMap* elem2IDMap = 0;
+ if ( smdsEntity == SMDSEntity_Quadrangle && nbOkElems != myMesh->NbFaces() )
+ elem2IDMap = & quad2IDMap;
+ else if ( smdsEntity == SMDSEntity_Triangle && nbOkElems != myMesh->NbFaces() )
+ elem2IDMap = & tria2IDMap;
+ else if ( smdsEntity == SMDSEntity_Edge && nbOkElems != myMesh->NbEdges() )
+ elem2IDMap = & edge2IDMap;
- if ( !badGroups.empty() )
- addMessage( SMESH_Comment("Groups of elements of inappropriate geometry:")
- << badGroups, /*fatal=*/false );
+ // write the group
+ GmfSetKwd( meshID, gmfKwd, nbOkElems );
+ elemIt = group->GetElements();
+ if ( elem2IDMap )
+ for ( ; elemIt->more(); )
+ {
+ const SMDS_MeshElement* elem = elemIt->next();
+ if ( elem->GetEntityType() == smdsEntity )
+ GmfSetLin( meshID, gmfKwd, (*elem2IDMap)[ elem ] );
+ }
+ else
+ for ( int gmfID = 1; elemIt->more(); ++gmfID)
+ {
+ const SMDS_MeshElement* elem = elemIt->next();
+ if ( elem->GetEntityType() == smdsEntity )
+ GmfSetLin( meshID, gmfKwd, gmfID );
+ }
+
+ } // loop on groups
+
+ if ( !badGroups.empty() )
+ addMessage( SMESH_Comment("Groups of elements of inappropriate geometry:")
+ << badGroups, /*fatal=*/false );
+ }
return DRS_OK;
}
+
+Driver_Mesh::Status DriverGMF_Write::PerformSizeMap( const std::vector<Control_Pnt>& points )
+{
+// const int dim = 3, version = sizeof(long) == 4 ? 2 : 3;
+ const int dim = 3, version = 2; // Version 3 not supported by mg-hexa
+ std::string aVerticesFile = mySizeMapPrefix + ".mesh";
+ std::string aSolFile = mySizeMapPrefix + ".sol";
+
+ // Open files
+ int verticesFileID = GmfOpenMesh( aVerticesFile.c_str(), GmfWrite, version, dim );
+ int solFileID = GmfOpenMesh( aSolFile.c_str(), GmfWrite, version, dim );
+
+ int pointsNumber = points.size();
+
+ // Vertices Keyword
+ GmfSetKwd( verticesFileID, GmfVertices, pointsNumber );
+ // SolAtVertices Keyword
+ int TypTab[] = {GmfSca};
+ GmfSetKwd(solFileID, GmfSolAtVertices, pointsNumber, 1, TypTab);
+
+ // Read the control points information from the vector and write it into the files
+ std::vector<Control_Pnt>::const_iterator points_it;
+ for (points_it = points.begin(); points_it != points.end(); points_it++ )
+ {
+ GmfSetLin( verticesFileID, GmfVertices, points_it->X(), points_it->Y(), points_it->Z(), 0 );
+ double ValTab[] = {points_it->Size()};
+ GmfSetLin( solFileID, GmfSolAtVertices, ValTab);
+ }
+
+ // Close Files
+ GmfCloseMesh( verticesFileID );
+ GmfCloseMesh( solFileID );
+}
+
+//================================================================================
+/*!
+ * \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);
+}