-// Copyright (C) 2007-2015 CEA/DEN, EDF R&D, OPEN CASCADE
+// Copyright (C) 2007-2016 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
#include "SMDS_FacePosition.hxx"
#include "SMDS_IteratorOnIterators.hxx"
#include "SMDS_VolumeTool.hxx"
+#include "SMESHDS_Mesh.hxx"
#include "SMESH_Block.hxx"
#include "SMESH_HypoFilter.hxx"
+#include "SMESH_Mesh.hxx"
#include "SMESH_MeshAlgos.hxx"
#include "SMESH_ProxyMesh.hxx"
#include "SMESH_subMesh.hxx"
}
}
+//================================================================================
+/*!
+ * \brief Return SMESH_Gen
+ */
+//================================================================================
+
+SMESH_Gen* SMESH_MesherHelper::GetGen() const
+{
+ return GetMesh()->GetGen();
+}
+
+//================================================================================
+/*!
+ * \brief Return mesh DS
+ */
+//================================================================================
+
+SMESHDS_Mesh* SMESH_MesherHelper::GetMeshDS() const
+{
+ return GetMesh()->GetMeshDS();
+}
+
//=======================================================================
//function : IsQuadraticSubMesh
//purpose : Check submesh for given shape: if all elements on this shape
double u2 = uv1.Coord(1);
myPar1[0] = Min( u1, u2 );
myPar2[0] = Max( u1, u2 );
+ myParIndex |= U_periodic;
}
else
{
double v2 = uv1.Coord(2);
myPar1[1] = Min( v1, v2 );
myPar2[1] = Max( v1, v2 );
+ myParIndex |= V_periodic;
}
}
else //if ( !isSeam )
{
double f,l, r = 0.2345;
Handle(Geom2d_Curve) C2d = BRep_Tool::CurveOnSurface( edge, face, f, l );
- uv2 = C2d->Value( f * r + l * ( 1.-r ));
- if ( du < Precision::PConfusion() )
- isSeam = ( Abs( uv1.Coord(1) - uv2.Coord(1) ) < Precision::PConfusion() );
+ if ( C2d.IsNull() )
+ {
+ isSeam = false;
+ }
else
- isSeam = ( Abs( uv1.Coord(2) - uv2.Coord(2) ) < Precision::PConfusion() );
+ {
+ uv2 = C2d->Value( f * r + l * ( 1.-r ));
+ if ( du < Precision::PConfusion() )
+ isSeam = ( Abs( uv1.Coord(1) - uv2.Coord(1) ) < Precision::PConfusion() );
+ else
+ isSeam = ( Abs( uv1.Coord(2) - uv2.Coord(2) ) < Precision::PConfusion() );
+ }
}
}
if ( isSeam )
}
}
+//=======================================================================
+//function : ShapeToIndex
+//purpose : Convert a shape to its index in the SMESHDS_Mesh
+//=======================================================================
+
+int SMESH_MesherHelper::ShapeToIndex( const TopoDS_Shape& S ) const
+{
+ return GetMeshDS()->ShapeToIndex( S );
+}
+
//=======================================================================
//function : GetNodeUVneedInFaceNode
//purpose : Check if inFaceNode argument is necessary for call GetNodeUV(F,..)
{
if ( !IsSubShape( V, F ))
{
- MESSAGE ( "SMESH_MesherHelper::GetNodeUV(); Vertex " << vertexID
- << " not in face " << GetMeshDS()->ShapeToIndex( F ) );
+ MESSAGE("GetNodeUV() Vertex "<< vertexID <<" not in face "<< GetMeshDS()->ShapeToIndex(F));
// get UV of a vertex closest to the node
double dist = 1e100;
gp_Pnt pn = XYZ( n );
}
Quantity_Parameter U = projector->LowerDistanceParameter();
u = double( U );
- MESSAGE(" f " << f << " l " << l << " u " << u);
curvPnt = curve->Value( u );
dist = nodePnt.Distance( curvPnt );
if ( distXYZ ) {
}
if ( dist > tol )
{
- MESSAGE( "SMESH_MesherHelper::CheckNodeU(), invalid projection" );
- MESSAGE("distance " << dist << " " << tol );
+ MESSAGE( "CheckNodeU(), invalid projection; distance " << dist << "; tol " << tol );
return false;
}
// store the fixed U on the edge
// get type of shape for the new medium node
int faceID = -1, edgeID = -1;
- TopoDS_Edge E; double u [2];
+ TopoDS_Edge E; double u [2] = {0.,0.};
TopoDS_Face F; gp_XY uv[2];
bool uvOK[2] = { true, true };
const bool useCurSubShape = ( !myShape.IsNull() && myShape.ShapeType() == TopAbs_EDGE );
TopoDS_Shape s0 = GetSubShapeByNode( nn[0], GetMeshDS() );
TopoDS_Shape s1 = GetSubShapeByNode( nn[1], GetMeshDS() );
TopoDS_Shape E = GetCommonAncestor( s0, s1, *myMesh, TopAbs_EDGE );
- if ( !E.IsNull() && !s0.IsSame( s1 ))
+ if ( !E.IsNull() && !s0.IsSame( s1 ) && E.Orientation() != TopAbs_INTERNAL )
{
// is E seam edge?
int nb = 0;
double u0 = GetNodeU( TopoDS::Edge( E ), nn[0], nn[1], &ok );
double u1 = GetNodeU( TopoDS::Edge( E ), nn[1], nn[0], &ok );
if ( ok )
+ {
+ // check that the 2 nodes are connected with a segment (IPAL53055)
+ ok = false;
+ const SMDS_MeshElement* seg;
+ if ( SMESHDS_SubMesh* sm = GetMeshDS()->MeshElements( E ))
+ if (( sm->NbElements() > 0 ) &&
+ ( seg = GetMeshDS()->FindEdge( nn[0], nn[1] )))
+ ok = sm->Contains( seg );
+ }
+ if ( ok )
{
isReversed = ( u0 > u1 );
if ( E.Orientation() == TopAbs_REVERSED )
if ( shape.IsSame( exp.Current() ))
return true;
}
- SCRUTE((shape.IsNull()));
- SCRUTE((mainShape.IsNull()));
return false;
}
const QFace* QLink::GetContinuesFace( const QFace* face ) const
{
- for ( size_t i = 0; i < _faces.size(); ++i ) {
- if ( _faces[i] == face ) {
- int iF = i < 2 ? 1-i : 5-i;
- return iF < (int)_faces.size() ? _faces[iF] : 0;
+ if ( _faces.size() <= 4 )
+ for ( size_t i = 0; i < _faces.size(); ++i ) {
+ if ( _faces[i] == face ) {
+ int iF = i < 2 ? 1-i : 5-i;
+ return iF < (int)_faces.size() ? _faces[iF] : 0;
+ }
}
- }
return 0;
}
//================================================================================
SMDS_ElemIteratorPtr faceIter( new TIterOnIter( faceIterVec ));
// a seacher to check if a volume is close to a concave face
- std::auto_ptr< SMESH_ElementSearcher > faceSearcher
+ SMESHUtils::Deleter< SMESH_ElementSearcher > faceSearcher
( SMESH_MeshAlgos::GetElementSearcher( *theHelper.GetMeshDS(), faceIter ));
// classifier
gp_Pnt pMedium = SMESH_TNodeXYZ( linkIt->second );
double hMedium = faceNorm * gp_Vec( pOnFace0, pMedium ).XYZ();
double hVol = faceNorm * gp_Vec( pOnFace0, pInSolid ).XYZ();
- isDistorted = ( Abs( hMedium ) > Abs( hVol * 0.5 ));
+ isDistorted = ( Abs( hMedium ) > Abs( hVol * 0.75 ));
}
}
}
}
// fix nodes on geom faces
#ifdef _DEBUG_
- int nbfaces = faces.Extent(); /*avoid "unused varianbles": */ nbfaces++, nbfaces--;
+ int nbfaces = nbSolids;
+ nbfaces = faces.Extent(); /*avoid "unused varianbles": */ nbfaces++, nbfaces--;
#endif
for ( TopTools_MapIteratorOfMapOfShape fIt( faces ); fIt.More(); fIt.Next() ) {
MSG("FIX FACE " << nbfaces-- << " #" << GetMeshDS()->ShapeToIndex(fIt.Key()));
"uv2: "<<uv2.X()<<", "<<uv2.Y()<<" \t" <<
"uvOld: "<<oldUV.X()<<", "<<oldUV.Y()<<" \t" <<
"newUV: "<<newUV.X()<<", "<<newUV.Y()<<" \t");
+ uv0.SetX( uv2.X() ); // avoid warning: variable set but not used
}
#endif
(*link1)->Move( move, /*sum=*/false, /*is2dFixed=*/true );
// -------------
TIDSortedElemSet biQuadQuas, biQuadTris, triQuadHexa;
- const SMDS_MeshElement *biQuadQua, *triQuadHex;
const bool toFixCentralNodes = ( myMesh->NbBiQuadQuadrangles() +
myMesh->NbBiQuadTriangles() +
myMesh->NbTriQuadraticHexas() );
// collect bi-quadratic elements
if ( toFixCentralNodes )
{
- biQuadQua = triQuadHex = 0;
SMDS_ElemIteratorPtr eIt = pLink->_mediumNode->GetInverseElementIterator();
while ( eIt->more() )
{
nCenterCoords.X(), nCenterCoords.Y(), nCenterCoords.Z());
}
}
+#ifdef _DEBUG_
+ // avoid warning: defined but not used operator<<()
+ SMESH_Comment() << *links.begin() << *faces.begin();
+#endif
}
+
+//================================================================================
+/*!
+ * \brief DEBUG
+ */
+//================================================================================
+
+void SMESH_MesherHelper::WriteShape(const TopoDS_Shape& s)
+{
+ const char* name = "/tmp/shape.brep";
+ BRepTools::Write( s, name );
+#ifdef _DEBUG_
+ std::cout << name << std::endl;
+#endif
+}
+