-// Copyright (C) 2007-2010 CEA/DEN, EDF R&D, OPEN CASCADE
+// Copyright (C) 2007-2011 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
+// 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 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.
+// 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, write to the Free Software
-// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+// You should have received a copy of the GNU Lesser General Public
+// 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
+// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
//
// File: SMESH_MesherHelper.cxx
#include "SMDS_EdgePosition.hxx"
#include "SMDS_VolumeTool.hxx"
#include "SMESH_subMesh.hxx"
+#include "SMESH_ProxyMesh.hxx"
#include <BRepAdaptor_Surface.hxx>
#include <BRepTools.hxx>
#include <GeomAPI_ProjectPointOnCurve.hxx>
#include <GeomAPI_ProjectPointOnSurf.hxx>
#include <Geom_Curve.hxx>
+//#include <Geom_RectangularTrimmedSurface.hxx>
#include <Geom_Surface.hxx>
#include <ShapeAnalysis.hxx>
#include <TopExp.hxx>
SMESH_MesherHelper::~SMESH_MesherHelper()
{
- TID2Projector::iterator i_proj = myFace2Projector.begin();
- for ( ; i_proj != myFace2Projector.end(); ++i_proj )
- delete i_proj->second;
+ {
+ TID2ProjectorOnSurf::iterator i_proj = myFace2Projector.begin();
+ for ( ; i_proj != myFace2Projector.end(); ++i_proj )
+ delete i_proj->second;
+ }
+ {
+ TID2ProjectorOnCurve::iterator i_proj = myEdge2Projector.begin();
+ for ( ; i_proj != myEdge2Projector.end(); ++i_proj )
+ delete i_proj->second;
+ }
}
//=======================================================================
int nbOldLinks = myTLinkNodeMap.size();
- TopExp_Explorer exp( aSh, subType );
- for (; exp.More() && myCreateQuadratic; exp.Next()) {
- if ( SMESHDS_SubMesh * subMesh = meshDS->MeshElements( exp.Current() )) {
- if ( SMDS_ElemIteratorPtr it = subMesh->GetElements() ) {
- while(it->more()) {
- const SMDS_MeshElement* e = it->next();
- if ( e->GetType() != elemType || !e->IsQuadratic() ) {
- myCreateQuadratic = false;
- break;
- }
- else {
- // fill TLinkNodeMap
- switch ( e->NbNodes() ) {
- case 3:
- AddTLinkNode(e->GetNode(0),e->GetNode(1),e->GetNode(2)); break;
- case 6:
- AddTLinkNode(e->GetNode(0),e->GetNode(1),e->GetNode(3));
- AddTLinkNode(e->GetNode(1),e->GetNode(2),e->GetNode(4));
- AddTLinkNode(e->GetNode(2),e->GetNode(0),e->GetNode(5)); break;
- case 8:
- AddTLinkNode(e->GetNode(0),e->GetNode(1),e->GetNode(4));
- AddTLinkNode(e->GetNode(1),e->GetNode(2),e->GetNode(5));
- AddTLinkNode(e->GetNode(2),e->GetNode(3),e->GetNode(6));
- AddTLinkNode(e->GetNode(3),e->GetNode(0),e->GetNode(7));
- break;
- default:
+ if ( !myMesh->HasShapeToMesh() )
+ {
+ if (( myCreateQuadratic = myMesh->NbFaces( ORDER_QUADRATIC )))
+ {
+ SMDS_FaceIteratorPtr fIt = meshDS->facesIterator();
+ while ( fIt->more() )
+ AddTLinks( static_cast< const SMDS_MeshFace* >( fIt->next() ));
+ }
+ }
+ else
+ {
+ TopExp_Explorer exp( aSh, subType );
+ TopTools_MapOfShape checkedSubShapes;
+ for (; exp.More() && myCreateQuadratic; exp.Next()) {
+ if ( !checkedSubShapes.Add( exp.Current() ))
+ continue; // needed if aSh is compound of solids
+ if ( SMESHDS_SubMesh * subMesh = meshDS->MeshElements( exp.Current() )) {
+ if ( SMDS_ElemIteratorPtr it = subMesh->GetElements() ) {
+ while(it->more()) {
+ const SMDS_MeshElement* e = it->next();
+ if ( e->GetType() != elemType || !e->IsQuadratic() ) {
myCreateQuadratic = false;
break;
}
+ else {
+ // fill TLinkNodeMap
+ switch ( e->NbNodes() ) {
+ case 3:
+ AddTLinkNode(e->GetNode(0),e->GetNode(1),e->GetNode(2)); break;
+ case 6:
+ AddTLinkNode(e->GetNode(0),e->GetNode(1),e->GetNode(3));
+ AddTLinkNode(e->GetNode(1),e->GetNode(2),e->GetNode(4));
+ AddTLinkNode(e->GetNode(2),e->GetNode(0),e->GetNode(5)); break;
+ case 8:
+ AddTLinkNode(e->GetNode(0),e->GetNode(1),e->GetNode(4));
+ AddTLinkNode(e->GetNode(1),e->GetNode(2),e->GetNode(5));
+ AddTLinkNode(e->GetNode(2),e->GetNode(3),e->GetNode(6));
+ AddTLinkNode(e->GetNode(3),e->GetNode(0),e->GetNode(7));
+ break;
+ default:
+ myCreateQuadratic = false;
+ break;
+ }
+ }
}
}
}
for ( TopExp_Explorer eF( aSh, TopAbs_FACE ); eF.More(); eF.Next() )
{
const TopoDS_Face& face = TopoDS::Face( eF.Current() );
- BRepAdaptor_Surface surface( face );
- if ( surface.IsUPeriodic() || surface.IsVPeriodic() )
+ TopLoc_Location loc;
+ Handle(Geom_Surface) surface = BRep_Tool::Surface( face, loc );
+
+ if ( surface->IsUPeriodic() || surface->IsVPeriodic() )
{
+ //while ( surface->IsKind(STANDARD_TYPE(Geom_RectangularTrimmedSurface )))
+ //surface = Handle(Geom_RectangularTrimmedSurface)::DownCast( surface )->BasisSurface();
+ GeomAdaptor_Surface surf( surface );
+
for (TopExp_Explorer exp( face, TopAbs_EDGE ); exp.More(); exp.Next())
{
// look for a seam edge
if ( Abs( uv1.Coord(1) - uv2.Coord(1) ) < Abs( uv1.Coord(2) - uv2.Coord(2) ))
{
myParIndex |= U_periodic;
- myPar1[0] = surface.FirstUParameter();
- myPar2[0] = surface.LastUParameter();
+ myPar1[0] = surf.FirstUParameter();
+ myPar2[0] = surf.LastUParameter();
}
else {
myParIndex |= V_periodic;
- myPar1[1] = surface.FirstVParameter();
- myPar2[1] = surface.LastVParameter();
+ myPar1[1] = surf.FirstVParameter();
+ myPar2[1] = surf.LastVParameter();
}
// store seam shape indices, negative if shape encounters twice
int edgeID = meshDS->ShapeToIndex( edge );
//=======================================================================
TopoDS_Shape SMESH_MesherHelper::GetSubShapeByNode(const SMDS_MeshNode* node,
- SMESHDS_Mesh* meshDS)
+ const SMESHDS_Mesh* meshDS)
{
- int shapeID = node->GetPosition()->GetShapeId();
+ int shapeID = node->getshapeId();
if ( 0 < shapeID && shapeID <= meshDS->MaxShapeIndex() )
return meshDS->IndexToShape( shapeID );
else
myTLinkNodeMap.insert( make_pair(link,n12));
}
+//================================================================================
+/*!
+ * \brief Add quadratic links of edge to own data structure
+ */
+//================================================================================
+
+void SMESH_MesherHelper::AddTLinks(const SMDS_MeshEdge* edge)
+{
+ if ( edge->IsQuadratic() )
+ AddTLinkNode(edge->GetNode(0), edge->GetNode(1), edge->GetNode(2));
+}
+
+//================================================================================
+/*!
+ * \brief Add quadratic links of face to own data structure
+ */
+//================================================================================
+
+void SMESH_MesherHelper::AddTLinks(const SMDS_MeshFace* f)
+{
+ if ( !f->IsPoly() )
+ switch ( f->NbNodes() ) {
+ case 6:
+ AddTLinkNode(f->GetNode(0),f->GetNode(1),f->GetNode(3));
+ AddTLinkNode(f->GetNode(1),f->GetNode(2),f->GetNode(4));
+ AddTLinkNode(f->GetNode(2),f->GetNode(0),f->GetNode(5)); break;
+ case 8:
+ AddTLinkNode(f->GetNode(0),f->GetNode(1),f->GetNode(4));
+ AddTLinkNode(f->GetNode(1),f->GetNode(2),f->GetNode(5));
+ AddTLinkNode(f->GetNode(2),f->GetNode(3),f->GetNode(6));
+ AddTLinkNode(f->GetNode(3),f->GetNode(0),f->GetNode(7));
+ default:;
+ }
+}
+
+//================================================================================
+/*!
+ * \brief Add quadratic links of volume to own data structure
+ */
+//================================================================================
+
+void SMESH_MesherHelper::AddTLinks(const SMDS_MeshVolume* volume)
+{
+ if ( volume->IsQuadratic() )
+ {
+ SMDS_VolumeTool vTool( volume );
+ const SMDS_MeshNode** nodes = vTool.GetNodes();
+ set<int> addedLinks;
+ for ( int iF = 1; iF < vTool.NbFaces(); ++iF )
+ {
+ const int nbN = vTool.NbFaceNodes( iF );
+ const int* iNodes = vTool.GetFaceNodesIndices( iF );
+ for ( int i = 0; i < nbN; )
+ {
+ int iN1 = iNodes[i++];
+ int iN12 = iNodes[i++];
+ int iN2 = iNodes[i++];
+ if ( iN1 > iN2 ) std::swap( iN1, iN2 );
+ int linkID = iN1 * vTool.NbNodes() + iN2;
+ pair< set<int>::iterator, bool > it_isNew = addedLinks.insert( linkID );
+ if ( it_isNew.second )
+ AddTLinkNode( nodes[iN1], nodes[iN2], nodes[iN12] );
+ else
+ addedLinks.erase( it_isNew.first ); // each link encounters only twice
+ }
+ }
+ }
+}
+
+//================================================================================
+/*!
+ * \brief Return true if position of nodes on the shape hasn't yet been checked or
+ * the positions proved to be invalid
+ */
+//================================================================================
+
+bool SMESH_MesherHelper::toCheckPosOnShape(int shapeID ) const
+{
+ map< int,bool >::const_iterator id_ok = myNodePosShapesValidity.find( shapeID );
+ return ( id_ok == myNodePosShapesValidity.end() || !id_ok->second );
+}
+
+//================================================================================
+/*!
+ * \brief Set validity of positions of nodes on the shape.
+ * Once set, validity is not changed
+ */
+//================================================================================
+
+void SMESH_MesherHelper::setPosOnShapeValidity(int shapeID, bool ok ) const
+{
+ ((SMESH_MesherHelper*)this)->myNodePosShapesValidity.insert( make_pair( shapeID, ok));
+}
+
//=======================================================================
//function : GetUVOnSeam
//purpose : Select UV on either of 2 pcurves of a seam edge, closest to the given UV
{
// node has position on face
const SMDS_FacePosition* fpos =
- static_cast<const SMDS_FacePosition*>(n->GetPosition().get());
+ static_cast<const SMDS_FacePosition*>(n->GetPosition());
uv.SetCoord(fpos->GetUParameter(),fpos->GetVParameter());
if ( check )
- uvOK = CheckNodeUV( F, n, uv.ChangeCoord(), BRep_Tool::Tolerance( F ));
+ uvOK = CheckNodeUV( F, n, uv.ChangeCoord(), 10*MaxTolerance( F ));
}
else if(Pos->GetTypeOfPosition()==SMDS_TOP_EDGE)
{
// corresponding edge from face, get pcurve for this
// edge and retrieve value from this pcurve
const SMDS_EdgePosition* epos =
- static_cast<const SMDS_EdgePosition*>(n->GetPosition().get());
- int edgeID = Pos->GetShapeId();
+ static_cast<const SMDS_EdgePosition*>(n->GetPosition());
+ int edgeID = n->getshapeId();
TopoDS_Edge E = TopoDS::Edge(GetMeshDS()->IndexToShape(edgeID));
double f, l, u = epos->GetUParameter();
Handle(Geom2d_Curve) C2d = BRep_Tool::CurveOnSurface(E, F, f, l);
if ( validU )
uv = C2d->Value( u );
else
- uv.SetCoord(0.,0.);
+ uv.SetCoord( Precision::Infinite(),0.);
if ( check || !validU )
- uvOK = CheckNodeUV( F, n, uv.ChangeCoord(), BRep_Tool::Tolerance( E ),/*force=*/ !validU );
+ uvOK = CheckNodeUV( F, n, uv.ChangeCoord(), 10*MaxTolerance( F ),/*force=*/ !validU );
// for a node on a seam edge select one of UVs on 2 pcurves
if ( n2 && IsSeamShape( edgeID ) )
{
- uv = GetUVOnSeam( uv, GetNodeUV( F, n2, 0 ));
+ uv = GetUVOnSeam( uv, GetNodeUV( F, n2, 0, check ));
}
else
{ // adjust uv to period
}
else if(Pos->GetTypeOfPosition()==SMDS_TOP_VERTEX)
{
- if ( int vertexID = n->GetPosition()->GetShapeId() ) {
+ if ( int vertexID = n->getshapeId() ) {
const TopoDS_Vertex& V = TopoDS::Vertex(GetMeshDS()->IndexToShape(vertexID));
try {
uv = BRep_Tool::Parameters( V, F );
uv = GetUVOnSeam( uv, GetNodeUV( F, n2, 0 ));
}
}
+ else
+ {
+ uvOK = CheckNodeUV( F, n, uv.ChangeCoord(), 10*MaxTolerance( F ));
+ }
if ( check )
*check = uvOK;
const SMDS_MeshNode* n,
gp_XY& uv,
const double tol,
- const bool force) const
+ const bool force,
+ double distXYZ[4]) const
{
- if ( force || !myOkNodePosShapes.count( n->GetPosition()->GetShapeId() ))
+ int shapeID = n->getshapeId();
+ bool infinit = ( Precision::IsInfinite( uv.X() ) || Precision::IsInfinite( uv.Y() ));
+ if ( force || toCheckPosOnShape( shapeID ) || infinit )
{
// check that uv is correct
TopLoc_Location loc;
Handle(Geom_Surface) surface = BRep_Tool::Surface( F,loc );
- gp_Pnt nodePnt = XYZ( n );
+ gp_Pnt nodePnt = XYZ( n ), surfPnt(0,0,0);
+ double dist = 0;
if ( !loc.IsIdentity() ) nodePnt.Transform( loc.Transformation().Inverted() );
- if ( Precision::IsInfinite( uv.X() ) ||
- Precision::IsInfinite( uv.Y() ) ||
- nodePnt.Distance( surface->Value( uv.X(), uv.Y() )) > tol )
+ if ( infinit ||
+ (dist = nodePnt.Distance( surfPnt = surface->Value( uv.X(), uv.Y() ))) > tol )
{
+ setPosOnShapeValidity( shapeID, false );
+ if ( !infinit && distXYZ ) {
+ surfPnt.Transform( loc );
+ distXYZ[0] = dist;
+ distXYZ[1] = surfPnt.X(); distXYZ[2] = surfPnt.Y(); distXYZ[3]=surfPnt.Z();
+ }
// uv incorrect, project the node to surface
GeomAPI_ProjectPointOnSurf& projector = GetProjector( F, loc, tol );
projector.Perform( nodePnt );
}
Quantity_Parameter U,V;
projector.LowerDistanceParameters(U,V);
- if ( nodePnt.Distance( surface->Value( U, V )) > tol )
+ uv.SetCoord( U,V );
+ surfPnt = surface->Value( U, V );
+ dist = nodePnt.Distance( surfPnt );
+ if ( distXYZ ) {
+ surfPnt.Transform( loc );
+ distXYZ[0] = dist;
+ distXYZ[1] = surfPnt.X(); distXYZ[2] = surfPnt.Y(); distXYZ[3]=surfPnt.Z();
+ }
+ if ( dist > tol )
{
MESSAGE( "SMESH_MesherHelper::CheckNodeUV(), invalid projection" );
return false;
}
- uv.SetCoord( U,V );
+ // store the fixed UV on the face
+ if ( myShape.IsSame(F) && shapeID == myShapeID )
+ const_cast<SMDS_MeshNode*>(n)->SetPosition
+ ( SMDS_PositionPtr( new SMDS_FacePosition( U, V )));
}
else if ( uv.Modulus() > numeric_limits<double>::min() )
{
- ((SMESH_MesherHelper*) this)->myOkNodePosShapes.insert( n->GetPosition()->GetShapeId() );
+ setPosOnShapeValidity( shapeID, true );
}
}
return true;
{
Handle(Geom_Surface) surface = BRep_Tool::Surface( F,loc );
int faceID = GetMeshDS()->ShapeToIndex( F );
- TID2Projector& i2proj = const_cast< TID2Projector&>( myFace2Projector );
- TID2Projector::iterator i_proj = i2proj.find( faceID );
+ TID2ProjectorOnSurf& i2proj = const_cast< TID2ProjectorOnSurf&>( myFace2Projector );
+ TID2ProjectorOnSurf::iterator i_proj = i2proj.find( faceID );
if ( i_proj == i2proj.end() )
{
if ( tol == 0 ) tol = BRep_Tool::Tolerance( F );
const SMDS_PositionPtr pos = n->GetPosition();
if ( pos->GetTypeOfPosition()==SMDS_TOP_EDGE )
{
- const SMDS_EdgePosition* epos = static_cast<const SMDS_EdgePosition*>( pos.get() );
+ const SMDS_EdgePosition* epos = static_cast<const SMDS_EdgePosition*>( pos );
param = epos->GetUParameter();
}
else if( pos->GetTypeOfPosition() == SMDS_TOP_VERTEX )
else
{
SMESHDS_Mesh * meshDS = GetMeshDS();
- int vertexID = pos->GetShapeId();
+ int vertexID = n->getshapeId();
const TopoDS_Vertex& V = TopoDS::Vertex(meshDS->IndexToShape(vertexID));
param = BRep_Tool::Parameter( V, E );
}
double f,l; BRep_Tool::Range( E, f,l );
bool force = ( param < f-tol || param > l+tol );
if ( !force && pos->GetTypeOfPosition()==SMDS_TOP_EDGE )
- force = ( GetMeshDS()->ShapeToIndex( E ) != pos->GetShapeId() );
+ force = ( GetMeshDS()->ShapeToIndex( E ) != n->getshapeId() );
- *check = CheckNodeU( E, n, param, tol, force );
+ *check = CheckNodeU( E, n, param, 2*tol, force );
}
return param;
}
const SMDS_MeshNode* n,
double& u,
const double tol,
- const bool force) const
+ const bool force,
+ double distXYZ[4]) const
{
- if ( force || !myOkNodePosShapes.count( n->GetPosition()->GetShapeId() ))
+ int shapeID = n->getshapeId();
+ if ( force || toCheckPosOnShape( shapeID ))
{
- // check that u is correct
TopLoc_Location loc; double f,l;
Handle(Geom_Curve) curve = BRep_Tool::Curve( E,loc,f,l );
if ( curve.IsNull() ) // degenerated edge
}
else
{
- gp_Pnt nodePnt = SMESH_MeshEditor::TNodeXYZ( n );
+ gp_Pnt nodePnt = SMESH_TNodeXYZ( n );
if ( !loc.IsIdentity() ) nodePnt.Transform( loc.Transformation().Inverted() );
- if ( nodePnt.Distance( curve->Value( u )) > tol )
+ gp_Pnt curvPnt = curve->Value( u );
+ double dist = nodePnt.Distance( curvPnt );
+ if ( distXYZ ) {
+ curvPnt.Transform( loc );
+ distXYZ[0] = dist;
+ distXYZ[1] = curvPnt.X(); distXYZ[2] = curvPnt.Y(); distXYZ[3]=curvPnt.Z();
+ }
+ if ( dist > tol )
{
+ setPosOnShapeValidity( shapeID, false );
// u incorrect, project the node to the curve
- GeomAPI_ProjectPointOnCurve projector( nodePnt, curve, f, l );
- if ( projector.NbPoints() < 1 )
+ int edgeID = GetMeshDS()->ShapeToIndex( E );
+ TID2ProjectorOnCurve& i2proj = const_cast< TID2ProjectorOnCurve&>( myEdge2Projector );
+ TID2ProjectorOnCurve::iterator i_proj =
+ i2proj.insert( make_pair( edgeID, (GeomAPI_ProjectPointOnCurve*) 0 )).first;
+ if ( !i_proj->second )
+ {
+ i_proj->second = new GeomAPI_ProjectPointOnCurve();
+ i_proj->second->Init( curve, f, l );
+ }
+ GeomAPI_ProjectPointOnCurve* projector = i_proj->second;
+ projector->Perform( nodePnt );
+ if ( projector->NbPoints() < 1 )
{
MESSAGE( "SMESH_MesherHelper::CheckNodeU() failed to project" );
return false;
}
- Quantity_Parameter U = projector.LowerDistanceParameter();
- if ( nodePnt.Distance( curve->Value( U )) > tol )
+ Quantity_Parameter U = projector->LowerDistanceParameter();
+ u = double( U );
+ curvPnt = curve->Value( u );
+ dist = nodePnt.Distance( curvPnt );
+ if ( distXYZ ) {
+ curvPnt.Transform( loc );
+ distXYZ[0] = dist;
+ distXYZ[1] = curvPnt.X(); distXYZ[2] = curvPnt.Y(); distXYZ[3]=curvPnt.Z();
+ }
+ if ( dist > tol )
{
MESSAGE( "SMESH_MesherHelper::CheckNodeU(), invalid projection" );
+ MESSAGE("distance " << dist << " " << tol );
return false;
}
- u = double( U );
+ // store the fixed U on the edge
+ if ( myShape.IsSame(E) && shapeID == myShapeID )
+ const_cast<SMDS_MeshNode*>(n)->SetPosition
+ ( SMDS_PositionPtr( new SMDS_EdgePosition( U )));
}
else if ( fabs( u ) > numeric_limits<double>::min() )
{
- ((SMESH_MesherHelper*) this)->myOkNodePosShapes.insert( n->GetPosition()->GetShapeId() );
+ setPosOnShapeValidity( shapeID, true );
}
if (( u < f-tol || u > l+tol ) && force )
{
SMDS_MeshNode* n12;
SMESHDS_Mesh* meshDS = GetMeshDS();
+ if ( IsSeamShape( n1->getshapeId() ))
+ // to get a correct UV of a node on seam, the second node must have checked UV
+ std::swap( n1, n2 );
+
// get type of shape for the new medium node
int faceID = -1, edgeID = -1;
const SMDS_PositionPtr Pos1 = n1->GetPosition();
const SMDS_PositionPtr Pos2 = n2->GetPosition();
+ TopoDS_Edge E; double u [2];
+ TopoDS_Face F; gp_XY uv[2];
+ bool uvOK[2] = { false, false };
+
if( myShape.IsNull() )
{
if( Pos1->GetTypeOfPosition()==SMDS_TOP_FACE ) {
- faceID = Pos1->GetShapeId();
+ faceID = n1->getshapeId();
}
else if( Pos2->GetTypeOfPosition()==SMDS_TOP_FACE ) {
- faceID = Pos2->GetShapeId();
+ faceID = n2->getshapeId();
}
if( Pos1->GetTypeOfPosition()==SMDS_TOP_EDGE ) {
- edgeID = Pos1->GetShapeId();
+ edgeID = n1->getshapeId();
}
if( Pos2->GetTypeOfPosition()==SMDS_TOP_EDGE ) {
- edgeID = Pos2->GetShapeId();
+ edgeID = n2->getshapeId();
}
}
// get positions of the given nodes on shapes
- TopoDS_Edge E; double u [2];
- TopoDS_Face F; gp_XY uv[2];
- bool uvOK[2] = { false, false };
TopAbs_ShapeEnum shapeType = myShape.IsNull() ? TopAbs_SHAPE : myShape.ShapeType();
if ( faceID>0 || shapeType == TopAbs_FACE)
{
}
else if (edgeID>0 || shapeType == TopAbs_EDGE)
{
+ if ( Pos1->GetTypeOfPosition()==SMDS_TOP_EDGE &&
+ Pos2->GetTypeOfPosition()==SMDS_TOP_EDGE &&
+ n1->getshapeId() != n2->getshapeId() ) // issue 0021006
+ return getMediumNodeOnComposedWire(n1,n2,force3d);
+
if( myShape.IsNull() )
E = TopoDS::Edge(meshDS->IndexToShape(edgeID));
else {
{
if ( uvOK[0] && uvOK[1] )
{
- if ( IsDegenShape( Pos1->GetShapeId() ))
+ if ( IsDegenShape( n1->getshapeId() )) {
if ( myParIndex & U_periodic ) uv[0].SetCoord( 1, uv[1].Coord( 1 ));
else uv[0].SetCoord( 2, uv[1].Coord( 2 ));
- else if ( IsDegenShape( Pos2->GetShapeId() ))
+ }
+ else if ( IsDegenShape( n2->getshapeId() )) {
if ( myParIndex & U_periodic ) uv[1].SetCoord( 1, uv[0].Coord( 1 ));
else uv[1].SetCoord( 2, uv[0].Coord( 2 ));
+ }
TopLoc_Location loc;
Handle(Geom_Surface) S = BRep_Tool::Surface(F,loc);
}
}
}
+
// 3d variant
double x = ( n1->X() + n2->X() )/2.;
double y = ( n1->Y() + n2->Y() )/2.;
double z = ( n1->Z() + n2->Z() )/2.;
n12 = meshDS->AddNode(x,y,z);
+
if ( !F.IsNull() )
{
gp_XY UV = ( uv[0] + uv[1] ) / 2.;
- CheckNodeUV( F, n12, UV, BRep_Tool::Tolerance( F ), /*force=*/true);
+ CheckNodeUV( F, n12, UV, 2*BRep_Tool::Tolerance( F ), /*force=*/true);
meshDS->SetNodeOnFace(n12, faceID, UV.X(), UV.Y() );
}
else if ( !E.IsNull() )
{
double U = ( u[0] + u[1] ) / 2.;
- CheckNodeU( E, n12, U, BRep_Tool::Tolerance( E ), /*force=*/true);
+ CheckNodeU( E, n12, U, 2*BRep_Tool::Tolerance( E ), /*force=*/true);
meshDS->SetNodeOnEdge(n12, edgeID, U);
}
- else if ( myShapeID > 1 )
+ else if ( myShapeID > 0 )
{
meshDS->SetNodeInVolume(n12, myShapeID);
}
+
myTLinkNodeMap.insert( make_pair( link, n12 ));
return n12;
}
+//================================================================================
+/*!
+ * \brief Makes a medium node if nodes reside different edges
+ */
+//================================================================================
+
+const SMDS_MeshNode* SMESH_MesherHelper::getMediumNodeOnComposedWire(const SMDS_MeshNode* n1,
+ const SMDS_MeshNode* n2,
+ bool force3d)
+{
+ gp_Pnt middle = 0.5 * XYZ(n1) + 0.5 * XYZ(n2);
+ SMDS_MeshNode* n12 = AddNode( middle.X(), middle.Y(), middle.Z() );
+
+ // To find position on edge and 3D position for n12,
+ // project <middle> to 2 edges and select projection most close to <middle>
+
+ double u = 0, distMiddleProj = Precision::Infinite(), distXYZ[4];
+ int iOkEdge = 0;
+ TopoDS_Edge edges[2];
+ for ( int is2nd = 0; is2nd < 2; ++is2nd )
+ {
+ // get an edge
+ const SMDS_MeshNode* n = is2nd ? n2 : n1;
+ TopoDS_Shape shape = GetSubShapeByNode( n, GetMeshDS() );
+ if ( shape.IsNull() || shape.ShapeType() != TopAbs_EDGE )
+ continue;
+
+ // project to get U of projection and distance from middle to projection
+ TopoDS_Edge edge = edges[ is2nd ] = TopoDS::Edge( shape );
+ double node2MiddleDist = middle.Distance( XYZ(n) );
+ double foundU = GetNodeU( edge, n );
+ CheckNodeU( edge, n12, foundU, 2*BRep_Tool::Tolerance(edge), /*force=*/true, distXYZ );
+ if ( distXYZ[0] < node2MiddleDist )
+ {
+ distMiddleProj = distXYZ[0];
+ u = foundU;
+ iOkEdge = is2nd;
+ }
+ }
+ if ( Precision::IsInfinite( distMiddleProj ))
+ {
+ // both projections failed; set n12 on the edge of n1 with U of a common vertex
+ TopoDS_Vertex vCommon;
+ if ( TopExp::CommonVertex( edges[0], edges[1], vCommon ))
+ u = BRep_Tool::Parameter( vCommon, edges[0] );
+ else
+ {
+ double f,l, u0 = GetNodeU( edges[0], n1 );
+ BRep_Tool::Range( edges[0],f,l );
+ u = ( fabs(u0-f) < fabs(u0-l) ) ? f : l;
+ }
+ iOkEdge = 0;
+ distMiddleProj = 0;
+ }
+
+ // move n12 to position of a successfull projection
+ double tol = BRep_Tool::Tolerance(edges[ iOkEdge ]);
+ if ( !force3d && distMiddleProj > 2*tol )
+ {
+ TopLoc_Location loc; double f,l;
+ Handle(Geom_Curve) curve = BRep_Tool::Curve( edges[iOkEdge],loc,f,l );
+ gp_Pnt p = curve->Value( u );
+ GetMeshDS()->MoveNode( n12, p.X(), p.Y(), p.Z() );
+ }
+
+ GetMeshDS()->SetNodeOnEdge(n12, edges[iOkEdge], u);
+
+ myTLinkNodeMap.insert( make_pair( SMESH_TLink(n1,n2), n12 ));
+
+ return n12;
+}
+
//=======================================================================
//function : AddNode
//purpose : Creates a node
return elem;
}
+//=======================================================================
+//function : AddPolygonalFace
+//purpose : Creates polygon, with additional nodes in quadratic mesh
+//=======================================================================
+
+SMDS_MeshFace* SMESH_MesherHelper::AddPolygonalFace (const vector<const SMDS_MeshNode*>& nodes,
+ const int id,
+ const bool force3d)
+{
+ SMESHDS_Mesh * meshDS = GetMeshDS();
+ SMDS_MeshFace* elem = 0;
+
+ if(!myCreateQuadratic) {
+ if(id)
+ elem = meshDS->AddPolygonalFaceWithID(nodes, id);
+ else
+ elem = meshDS->AddPolygonalFace(nodes);
+ }
+ else {
+ vector<const SMDS_MeshNode*> newNodes;
+ for ( int i = 0; i < nodes.size(); ++i )
+ {
+ const SMDS_MeshNode* n1 = nodes[i];
+ const SMDS_MeshNode* n2 = nodes[(i+1)/nodes.size()];
+ const SMDS_MeshNode* n12 = GetMediumNode(n1,n2,force3d);
+ newNodes.push_back( n1 );
+ newNodes.push_back( n12 );
+ }
+ if(id)
+ elem = meshDS->AddPolygonalFaceWithID(newNodes, id);
+ else
+ elem = meshDS->AddPolygonalFace(newNodes);
+ }
+ if ( mySetElemOnShape && myShapeID > 0 )
+ meshDS->SetMeshElementOnShape( elem, myShapeID );
+
+ return elem;
+}
+
//=======================================================================
//function : AddVolume
//purpose : Creates quadratic or linear prism
return elem;
}
+//=======================================================================
+//function : AddPolyhedralVolume
+//purpose : Creates polyhedron. In quadratic mesh, adds medium nodes
+//=======================================================================
+
+SMDS_MeshVolume*
+SMESH_MesherHelper::AddPolyhedralVolume (const std::vector<const SMDS_MeshNode*>& nodes,
+ const std::vector<int>& quantities,
+ const int id,
+ const bool force3d)
+{
+ SMESHDS_Mesh * meshDS = GetMeshDS();
+ SMDS_MeshVolume* elem = 0;
+ if(!myCreateQuadratic)
+ {
+ if(id)
+ elem = meshDS->AddPolyhedralVolumeWithID(nodes, quantities, id);
+ else
+ elem = meshDS->AddPolyhedralVolume(nodes, quantities);
+ }
+ else
+ {
+ vector<const SMDS_MeshNode*> newNodes;
+ vector<int> newQuantities;
+ for ( int iFace=0, iN=0; iFace < quantities.size(); ++iFace)
+ {
+ int nbNodesInFace = quantities[iFace];
+ newQuantities.push_back(0);
+ for ( int i = 0; i < nbNodesInFace; ++i )
+ {
+ const SMDS_MeshNode* n1 = nodes[ iN + i ];
+ newNodes.push_back( n1 );
+ newQuantities.back()++;
+
+ const SMDS_MeshNode* n2 = nodes[ iN + ( i+1==nbNodesInFace ? 0 : i+1 )];
+// if ( n1->GetPosition()->GetTypeOfPosition() != SMDS_TOP_3DSPACE &&
+// n2->GetPosition()->GetTypeOfPosition() != SMDS_TOP_3DSPACE )
+ {
+ const SMDS_MeshNode* n12 = GetMediumNode(n1,n2,force3d);
+ newNodes.push_back( n12 );
+ newQuantities.back()++;
+ }
+ }
+ iN += nbNodesInFace;
+ }
+ if(id)
+ elem = meshDS->AddPolyhedralVolumeWithID( newNodes, newQuantities, id );
+ else
+ elem = meshDS->AddPolyhedralVolume( newNodes, newQuantities );
+ }
+ if ( mySetElemOnShape && myShapeID > 0 )
+ meshDS->SetMeshElementOnShape( elem, myShapeID );
+
+ return elem;
+}
+
//=======================================================================
//function : LoadNodeColumns
//purpose : Load nodes bound to face into a map of node columns
bool SMESH_MesherHelper::LoadNodeColumns(TParam2ColumnMap & theParam2ColumnMap,
const TopoDS_Face& theFace,
const TopoDS_Edge& theBaseEdge,
- SMESHDS_Mesh* theMesh)
+ SMESHDS_Mesh* theMesh,
+ SMESH_ProxyMesh* theProxyMesh)
{
- SMESHDS_SubMesh* faceSubMesh = theMesh->MeshElements( theFace );
+ const SMESHDS_SubMesh* faceSubMesh = 0;
+ if ( theProxyMesh )
+ {
+ faceSubMesh = theProxyMesh->GetSubMesh( theFace );
+ if ( !faceSubMesh ||
+ faceSubMesh->NbElements() == 0 ||
+ theProxyMesh->IsTemporary( faceSubMesh->GetElements()->next() ))
+ {
+ // can use a proxy sub-mesh with not temporary elements only
+ faceSubMesh = 0;
+ theProxyMesh = 0;
+ }
+ }
+ if ( !faceSubMesh )
+ faceSubMesh = theMesh->MeshElements( theFace );
if ( !faceSubMesh || faceSubMesh->NbElements() == 0 )
return false;
nCol.resize( nbRows );
nCol[0] = u_n->second;
}
+ TParam2ColumnMap::iterator par_nVec_2, par_nVec_1 = theParam2ColumnMap.begin();
+ if ( theProxyMesh )
+ {
+ for ( ; par_nVec_1 != theParam2ColumnMap.end(); ++par_nVec_1 )
+ {
+ const SMDS_MeshNode* & n = par_nVec_1->second[0];
+ n = theProxyMesh->GetProxyNode( n );
+ }
+ }
// fill theParam2ColumnMap column by column by passing from nodes on
// theBaseEdge up via mesh faces on theFace
- TParam2ColumnMap::iterator par_nVec_2 = theParam2ColumnMap.begin();
- TParam2ColumnMap::iterator par_nVec_1 = par_nVec_2++;
+ par_nVec_2 = theParam2ColumnMap.begin();
+ par_nVec_1 = par_nVec_2++;
TIDSortedElemSet emptySet, avoidSet;
for ( ; par_nVec_2 != theParam2ColumnMap.end(); ++par_nVec_1, ++par_nVec_2 )
{
if ( iRow + 1 < nbRows ) // compact if necessary
nCol1.resize( iRow + 1 ), nCol2.resize( iRow + 1 );
}
- return true;
+ return theParam2ColumnMap.size() > 1 && theParam2ColumnMap.begin()->second.size() > 1;
}
//=======================================================================
return
aMesh->GetMeshDS()->ShapeToIndex( shape ) ||
// PAL16202
- shape.ShapeType() == TopAbs_COMPOUND && aMesh->GetMeshDS()->IsGroupOfSubShapes( shape );
+ (shape.ShapeType() == TopAbs_COMPOUND && aMesh->GetMeshDS()->IsGroupOfSubShapes( shape ));
+}
+
+//================================================================================
+/*!
+ * \brief Return maximal tolerance of shape
+ */
+//================================================================================
+
+double SMESH_MesherHelper::MaxTolerance( const TopoDS_Shape& shape )
+{
+ double tol = Precision::Confusion();
+ TopExp_Explorer exp;
+ for ( exp.Init( shape, TopAbs_FACE ); exp.More(); exp.Next() )
+ tol = Max( tol, BRep_Tool::Tolerance( TopoDS::Face( exp.Current())));
+ for ( exp.Init( shape, TopAbs_EDGE ); exp.More(); exp.Next() )
+ tol = Max( tol, BRep_Tool::Tolerance( TopoDS::Edge( exp.Current())));
+ for ( exp.Init( shape, TopAbs_VERTEX ); exp.More(); exp.Next() )
+ tol = Max( tol, BRep_Tool::Tolerance( TopoDS::Vertex( exp.Current())));
+
+ return tol;
+}
+
+//================================================================================
+/*!
+ * \brief Check if the first and last vertices of an edge are the same
+ * \param anEdge - the edge to check
+ * \retval bool - true if same
+ */
+//================================================================================
+
+bool SMESH_MesherHelper::IsClosedEdge( const TopoDS_Edge& anEdge )
+{
+ if ( anEdge.Orientation() >= TopAbs_INTERNAL )
+ return IsClosedEdge( TopoDS::Edge( anEdge.Oriented( TopAbs_FORWARD )));
+ return TopExp::FirstVertex( anEdge ).IsSame( TopExp::LastVertex( anEdge ));
+}
+
+//================================================================================
+/*!
+ * \brief Wrapper over TopExp::FirstVertex() and TopExp::LastVertex() fixing them
+ * in the case of INTERNAL edge
+ */
+//================================================================================
+
+TopoDS_Vertex SMESH_MesherHelper::IthVertex( const bool is2nd,
+ TopoDS_Edge anEdge,
+ const bool CumOri )
+{
+ if ( anEdge.Orientation() >= TopAbs_INTERNAL )
+ anEdge.Orientation( TopAbs_FORWARD );
+
+ const TopAbs_Orientation tgtOri = is2nd ? TopAbs_REVERSED : TopAbs_FORWARD;
+ TopoDS_Iterator vIt( anEdge, CumOri );
+ while ( vIt.More() && vIt.Value().Orientation() != tgtOri )
+ vIt.Next();
+
+ return ( vIt.More() ? TopoDS::Vertex(vIt.Value()) : TopoDS_Vertex() );
}
//=======================================================================
return fabs(param-myPar1[i]) < fabs(param-myPar2[i]) ? myPar2[i] : myPar1[i];
}
+//#include <Perf_Meter.hxx>
+
//=======================================================================
namespace { // Structures used by FixQuadraticElements()
//=======================================================================
#define __DMP__(txt) \
-//cout << txt
+ //cout << txt
#define MSG(txt) __DMP__(txt<<endl)
#define MSGBEG(txt) __DMP__(txt)
- const double straightTol2 = 1e-33; // to detect straing links
+ //const double straightTol2 = 1e-33; // to detect straing links
+ bool isStraightLink(double linkLen2, double middleNodeMove2)
+ {
+ // straight if <node move> < 1/15 * <link length>
+ return middleNodeMove2 < 1/15./15. * linkLen2;
+ }
struct QFace;
// ---------------------------------------
{ _nodeMove += move; _nbMoves += sum ? (_nbMoves==0) : 1; }
gp_XYZ Move() const { return _nodeMove.XYZ() / _nbMoves; }
bool IsMoved() const { return (_nbMoves > 0 && !IsStraight()); }
- bool IsStraight() const { return _nodeMove.SquareMagnitude() <= straightTol2; }
-
+ bool IsStraight() const
+ { return isStraightLink( (XYZ(node1())-XYZ(node2())).SquareModulus(),
+ _nodeMove.SquareMagnitude());
+ }
bool operator<(const QLink& other) const {
return (node1()->GetID() == other.node1()->GetID() ?
node2()->GetID() < other.node2()->GetID() :
node1()->GetID() < other.node1()->GetID());
}
- struct PtrComparator {
- bool operator() (const QLink* l1, const QLink* l2 ) const { return *l1 < *l2; }
- };
+// struct PtrComparator {
+// bool operator() (const QLink* l1, const QLink* l2 ) const { return *l1 < *l2; }
+// };
};
// ---------------------------------------------------------
/*!
TChainLink(const QLink* qlink=0):_qlink(qlink) {
_qfaces[0] = _qfaces[1] = 0;
}
- void SetFace(const QFace* face) { int iF = _qfaces[0] ? 1 : 0; _qfaces[iF]=face; }
+ void SetFace(const QFace* face) const { int iF = _qfaces[0] ? 1 : 0; _qfaces[iF]=face; }
bool IsBoundary() const { return !_qfaces[1]; }
/*!
* \brief Face shared by two volumes and bound by QLinks
*/
- struct QFace: public TIDSortedElemSet
+ struct QFace: public TIDSortedNodeSet
{
mutable const SMDS_MeshElement* _volumes[2];
mutable vector< const QLink* > _sides;
bool Contains( const SMDS_MeshNode* node ) const { return count(node); }
+ bool IsSpoiled(const QLink* bentLink ) const;
+
TLinkInSet GetBoundaryLink( const TLinkSet& links,
const TChainLink& avoidLink,
TLinkInSet * notBoundaryLink = 0,
ostream& operator << (ostream& out, const QFace& f)
{
out <<"QFace nodes: "/*<< &f << " "*/;
- for ( TIDSortedElemSet::const_iterator n = f.begin(); n != f.end(); ++n )
+ for ( TIDSortedNodeSet::const_iterator n = f.begin(); n != f.end(); ++n )
out << (*n)->GetID() << " ";
out << " \tvolumes: "
<< (f._volumes[0] ? f._volumes[0]->GetID() : 0) << " "
}
//================================================================================
/*!
- * \brief Make up chain of links
+ * \brief Make up a chain of links
* \param iSide - link to add first
* \param chain - chain to fill in
* \param pos - postion of medium nodes the links should have
if ( _sides.size() != 4 ) { // triangle - visit all my continous faces
MSGBEG( *this );
+ TLinkSet links;
list< const QFace* > faces( 1, this );
- for (list< const QFace* >::iterator fIt = faces.begin(); fIt != faces.end(); ++fIt ) {
- const QFace* face = *fIt;
+ while ( !faces.empty() ) {
+ const QFace* face = faces.front();
for ( int i = 0; i < face->_sides.size(); ++i ) {
if ( !face->_sideIsAdded[i] && face->_sides[i] ) {
face->_sideIsAdded[i] = true;
- TChain::iterator chLink = chain.insert( chain.begin(), TChainLink(face->_sides[i]));
+ // find a face side in the chain
+ TLinkInSet chLink = links.insert( TChainLink(face->_sides[i])).first;
+// TChain::iterator chLink = chain.begin();
+// for ( ; chLink != chain.end(); ++chLink )
+// if ( chLink->_qlink == face->_sides[i] )
+// break;
+// if ( chLink == chain.end() )
+// chLink = chain.insert( chain.begin(), TChainLink(face->_sides[i]));
+ // add a face to a chained link and put a continues face in the queue
chLink->SetFace( face );
if ( face->_sides[i]->MediumPos() >= pos )
if ( const QFace* contFace = face->_sides[i]->GetContinuesFace( face ))
faces.push_back( contFace );
}
}
+ faces.pop_front();
}
if ( error < ERR_TRI )
error = ERR_TRI;
+ chain.insert( chain.end(), links.begin(),links.end() );
return false;
}
_sideIsAdded[iSide] = true; // not to add this link to chain again
// propagate from quadrangle to neighbour faces
if ( link->MediumPos() >= pos ) {
int nbLinkFaces = link->_faces.size();
- if ( nbLinkFaces == 4 || nbLinkFaces < 4 && link->OnBoundary()) {
+ if ( nbLinkFaces == 4 || (nbLinkFaces < 4 && link->OnBoundary())) {
// hexahedral mesh or boundary quadrangles - goto a continous face
if ( const QFace* f = link->GetContinuesFace( this ))
return f->GetLinkChain( *chLink, chain, pos, error );
TLinkInSet link = links.find( _sides[iL] );
if ( link == linksEnd ) continue;
if ( (*link)->MediumPos() > SMDS_TOP_FACE )
- continue; // We work on faces here, don't go into a volume
+ continue; // We work on faces here, don't go inside a solid
// check link
if ( link->IsBoundary() ) {
// propagate to adjacent faces till limit step or boundary
double len1 = thePrevLen + (theLink->MiddlePnt() - _sides[iL1]->MiddlePnt()).Modulus();
double len2 = thePrevLen + (theLink->MiddlePnt() - _sides[iL2]->MiddlePnt()).Modulus();
- gp_Vec linkDir1, linkDir2;
+ gp_Vec linkDir1(0,0,0); // initialize to avoid valgrind error ("Conditional jump...")
+ gp_Vec linkDir2(0,0,0);
try {
OCC_CATCH_SIGNALS;
if ( f1 )
return fullLen;
}
+ //================================================================================
+ /*!
+ * \brief Checks if the face is distorted due to bentLink
+ */
+ //================================================================================
+
+ bool QFace::IsSpoiled(const QLink* bentLink ) const
+ {
+ // code is valid for convex faces only
+ gp_XYZ gc(0,0,0);
+ for ( TIDSortedNodeSet::const_iterator n = begin(); n!=end(); ++n)
+ gc += XYZ( *n ) / size();
+ for (unsigned i = 0; i < _sides.size(); ++i )
+ {
+ if ( _sides[i] == bentLink ) continue;
+ gp_Vec linkNorm = _normal ^ gp_Vec( XYZ(_sides[i]->node1()), XYZ(_sides[i]->node2()));
+ gp_Vec vecOut( gc, _sides[i]->MiddlePnt() );
+ if ( linkNorm * vecOut < 0 )
+ linkNorm.Reverse();
+ double mag2 = linkNorm.SquareMagnitude();
+ if ( mag2 > numeric_limits<double>::min() )
+ linkNorm /= sqrt( mag2 );
+ gp_Vec vecBent ( _sides[i]->MiddlePnt(), bentLink->MediumPnt());
+ gp_Vec vecStraight( _sides[i]->MiddlePnt(), bentLink->MiddlePnt());
+ if ( vecBent * linkNorm > -0.1*vecStraight.Magnitude() )
+ return true;
+ }
+ return false;
+
+ }
+
//================================================================================
/*!
* \brief Find pairs of continues faces
TLinkSet linkSet( allLinks.begin(), allLinks.end());
TLinkInSet linkIt = linkSet.begin(), linksEnd = linkSet.end();
- // move in 2d if we are on geom face
-// TopoDS_Face face;
-// TopLoc_Location loc;
-// SMESH_MesherHelper faceHelper( *helper.GetMesh());
-// while ( linkIt->IsBoundary()) ++linkIt;
-// if ( linkIt == linksEnd ) return;
-// if ( (*linkIt)->MediumPos() == SMDS_TOP_FACE ) {
-// bool checkPos = true;
-// TopoDS_Shape f = helper.GetSubShapeByNode( (*linkIt)->_mediumNode, helper.GetMeshDS() );
-// if ( !f.IsNull() && f.ShapeType() == TopAbs_FACE ) {
-// face = TopoDS::Face( f );
-// helper.GetNodeUV( face, (*linkIt)->_mediumNode, 0, &checkPos);
-// if (checkPos)
-// face.Nullify();
-// else
-// faceHelper.SetSubShape( face );
-// }
-// }
for ( linkIt = linkSet.begin(); linkIt != linksEnd; ++linkIt)
{
if ( linkIt->IsBoundary() && !(*linkIt)->IsStraight() && linkIt->_qfaces[0])
{
-// if ( !face.IsNull() ) {
-// const SMDS_MeshNode* inFaceNode =
-// faceHelper.GetNodeUVneedInFaceNode() ? linkIt->_qfaces[0]->GetNodeInFace() : 0;
-// gp_XY uvm = helper.GetNodeUV( face, (*linkIt)->_mediumNode, inFaceNode );
-// gp_XY uv1 = helper.GetNodeUV( face, (*linkIt)->node1(), inFaceNode);
-// gp_XY uv2 = helper.GetNodeUV( face, (*linkIt)->node2(), inFaceNode);
-// gp_XY uvMove = uvm - helper.GetMiddleUV( BRep_Tool::Surface(face,loc), uv1, uv2);
-// gp_Vec move( uvMove.X(), uvMove.Y(), 0 );
-// linkIt->_qfaces[0]->MoveByBoundary( *linkIt, move, linkSet, &faceHelper );
-// }
-// else {
- linkIt->_qfaces[0]->MoveByBoundary( *linkIt, (*linkIt)->_nodeMove, linkSet );
- //}
+ // move iff a boundary link is bent towards inside of a face (issue 0021084)
+ const QFace* face = linkIt->_qfaces[0];
+ gp_XYZ pIn = ( face->_sides[0]->MiddlePnt() +
+ face->_sides[1]->MiddlePnt() +
+ face->_sides[2]->MiddlePnt() ) / 3.;
+ gp_XYZ insideDir( pIn - (*linkIt)->MiddlePnt());
+ bool linkBentInside = ((*linkIt)->_nodeMove.Dot( insideDir ) > 0 );
+ //if ( face->IsSpoiled( linkIt->_qlink ))
+ if ( linkBentInside )
+ face->MoveByBoundary( *linkIt, (*linkIt)->_nodeMove, linkSet );
}
}
}
enum TSplitTriaResult {
_OK, _NO_CORNERS, _FEW_ROWS, _MANY_ROWS, _NO_SIDELINK, _BAD_MIDQUAD, _NOT_RECT,
- _NO_MIDQUAD, _NO_UPTRIA, _BAD_SET_SIZE, _BAD_CORNER, _BAD_START, _NO_BOTLINK };
+ _NO_MIDQUAD, _NO_UPTRIA, _BAD_SET_SIZE, _BAD_CORNER, _BAD_START, _NO_BOTLINK, _TWISTED_CHAIN };
TSplitTriaResult splitTrianglesIntoChains( TChain & allLinks,
vector< TChain> & resultChains,
const QFace* botTria = botLink->_qfaces[0]; // bottom triangle bound by botLink
if ( !botTria )
{ // the column ends
+ if ( botLink == startLink )
+ return _TWISTED_CHAIN; // issue 0020951
linkSet.erase( botLink );
if ( iRow != rowChains.size() )
return _FEW_ROWS; // different nb of rows in columns
// next bottom link ends at the new corner
linkSet.erase( botLink );
botLink = upTria->GetLinkByNode( linkSet, (isCase2 ? *sideLink : *midQuadLink), corner );
- if ( botLink == linksEnd || botLink == (isCase2 ? midQuadLink : sideLink))
+ if ( botLink == linksEnd || botLink == midQuadLink || botLink == sideLink)
return _NO_BOTLINK;
+ if ( midQuadLink == startLink || sideLink == startLink )
+ return _TWISTED_CHAIN; // issue 0020951
linkSet.erase( midQuadLink );
linkSet.erase( sideLink );
return _OK;
}
-}
+} //namespace
//=======================================================================
/*!
void SMESH_MesherHelper::FixQuadraticElements(bool volumeOnly)
{
- // apply algorithm to solids or geom faces
+ // 0. Apply algorithm to solids or geom faces
// ----------------------------------------------
if ( myShape.IsNull() ) {
if ( !myMesh->HasShapeToMesh() ) return;
SetSubShape( myMesh->GetShapeToMesh() );
+#ifdef _DEBUG_
+ int nbSolids = 0;
+ TopTools_IndexedMapOfShape solids;
+ TopExp::MapShapes(myShape,TopAbs_SOLID,solids);
+ nbSolids = solids.Extent();
+#endif
TopTools_MapOfShape faces; // faces not in solid or in not meshed solid
for ( TopExp_Explorer f(myShape,TopAbs_FACE,TopAbs_SOLID); f.More(); f.Next() ) {
- faces.Add( f.Current() );
+ faces.Add( f.Current() ); // not in solid
}
for ( TopExp_Explorer s(myShape,TopAbs_SOLID); s.More(); s.Next() ) {
if ( myMesh->GetSubMesh( s.Current() )->IsEmpty() ) { // get faces of solid
for ( TopExp_Explorer f( s.Current(), TopAbs_FACE); f.More(); f.Next() )
- faces.Add( f.Current() );
+ faces.Add( f.Current() ); // in not meshed solid
}
else { // fix nodes in the solid and its faces
+#ifdef _DEBUG_
+ MSG("FIX SOLID " << nbSolids-- << " #" << GetMeshDS()->ShapeToIndex(s.Current()));
+#endif
SMESH_MesherHelper h(*myMesh);
h.SetSubShape( s.Current() );
h.FixQuadraticElements(false);
}
}
// fix nodes on geom faces
+#ifdef _DEBUG_
+ //int nbfaces = faces.Extent();
+#endif
for ( TopTools_MapIteratorOfMapOfShape fIt( faces ); fIt.More(); fIt.Next() ) {
+ MSG("FIX FACE " << nbfaces-- << " #" << GetMeshDS()->ShapeToIndex(fIt.Key()));
SMESH_MesherHelper h(*myMesh);
h.SetSubShape( fIt.Key() );
h.FixQuadraticElements(true);
}
+ //perf_print_all_meters(1);
return;
}
- // Find out type of elements and get iterator on them
+ // 1. Find out type of elements and get iterator on them
// ---------------------------------------------------
SMDS_ElemIteratorPtr elemIt;
if ( !elemIt || !elemIt->more() || elemType < SMDSAbs_Face )
return;
- // Fill in auxiliary data structures
+ // 2. Fill in auxiliary data structures
// ----------------------------------
set< QLink > links;
set< QFace >::iterator pFace;
bool isCurved = false;
- bool hasRectFaces = false;
- set<int> nbElemNodeSet;
+ //bool hasRectFaces = false;
+ //set<int> nbElemNodeSet;
if ( elemType == SMDSAbs_Volume )
{
for ( int iF = 0; iF < volTool.NbFaces(); ++iF ) // loop on faces of volume
{
int nbN = volTool.NbFaceNodes( iF );
- nbElemNodeSet.insert( nbN );
+ //nbElemNodeSet.insert( nbN );
const SMDS_MeshNode** faceNodes = volTool.GetFaceNodes( iF );
vector< const QLink* > faceLinks( nbN/2 );
for ( int iN = 0; iN < nbN; iN += 2 ) // loop on links of a face
if ( pFace->NbVolumes() == 0 )
pFace->AddSelfToLinks();
pFace->SetVolume( vol );
- hasRectFaces = hasRectFaces ||
- ( volTool.GetVolumeType() == SMDS_VolumeTool::QUAD_HEXA ||
- volTool.GetVolumeType() == SMDS_VolumeTool::QUAD_PENTA );
+// hasRectFaces = hasRectFaces ||
+// ( volTool.GetVolumeType() == SMDS_VolumeTool::QUAD_HEXA ||
+// volTool.GetVolumeType() == SMDS_VolumeTool::QUAD_PENTA );
#ifdef _DEBUG_
if ( nbN == 6 )
pFace->_face = GetMeshDS()->FindFace(faceNodes[0],faceNodes[2],faceNodes[4]);
const SMDS_MeshElement* face = elemIt->next();
if ( !face->IsQuadratic() )
continue;
- nbElemNodeSet.insert( face->NbNodes() );
+ //nbElemNodeSet.insert( face->NbNodes() );
int nbN = face->NbNodes()/2;
vector< const QLink* > faceLinks( nbN );
for ( int iN = 0; iN < nbN; ++iN ) // loop on links of a face
// store QFace
pFace = faces.insert( QFace( faceLinks )).first;
pFace->AddSelfToLinks();
- hasRectFaces = ( hasRectFaces || nbN == 4 );
+ //hasRectFaces = ( hasRectFaces || nbN == 4 );
}
}
if ( !isCurved )
return; // no curved edges of faces
- // Compute displacement of medium nodes
+ // 3. Compute displacement of medium nodes
// -------------------------------------
// two loops on faces: the first is to treat boundary links, the second is for internal ones
for ( ; isInside < 2; ++isInside ) {
MSG( "--------------- LOOP (inside=" << isInside << ") ------------------");
SMDS_TypeOfPosition pos = isInside ? SMDS_TOP_3DSPACE : SMDS_TOP_FACE;
+ SMDS_TypeOfPosition bndPos = isInside ? SMDS_TOP_FACE : SMDS_TOP_EDGE;
for ( pFace = faces.begin(); pFace != faces.end(); ++pFace ) {
if ( bool(isInside) == pFace->IsBoundary() )
TChain& chain = chains[iC];
if ( chain.empty() ) continue;
if ( chain.front()->IsStraight() && chain.back()->IsStraight() ) {
- MSG("3D straight");
+ MSG("3D straight - ignore");
+ continue;
+ }
+ if ( chain.front()->MediumPos() > bndPos ||
+ chain.back()->MediumPos() > bndPos ) {
+ MSG("Internal chain - ignore");
continue;
}
// mesure chain length and compute link position along the chain
{
face = TopoDS::Face( f );
Handle(Geom_Surface) surf = BRep_Tool::Surface(face,loc);
+ bool isStraight[2];
for ( int is1 = 0; is1 < 2; ++is1 ) // move0 or move1
{
TChainLink& link = is1 ? chain.back() : chain.front();
// uvMove = uvm - uv12
gp_XY uvMove = applyIn2D(surf, uvm, uv12, gp_XY_Subtracted, /*inPeriod=*/false);
( is1 ? move1 : move0 ).SetCoord( uvMove.X(), uvMove.Y(), 0 );
+ if ( !is1 ) // correct nodeOnFace for move1 (issue 0020919)
+ nodeOnFace = (*(++chain.rbegin()))->_mediumNode;
+ isStraight[is1] = isStraightLink( (uv2-uv1).SquareModulus(),uvMove.SquareModulus());
}
- if ( move0.SquareMagnitude() < straightTol2 &&
- move1.SquareMagnitude() < straightTol2 ) {
- MSG("2D straight");
+// if ( move0.SquareMagnitude() < straightTol2 &&
+// move1.SquareMagnitude() < straightTol2 ) {
+ if ( isStraight[0] && isStraight[1] ) {
+ MSG("2D straight - ignore");
continue; // straight - no need to move nodes of internal links
}
}
{
gp_XY uv0 = GetNodeUV( face, (*link0)->_mediumNode, 0, &checkUV);
gp_XY uv2 = GetNodeUV( face, (*link2)->_mediumNode, 0, &checkUV);
- MSG( "uv0: "<<uv0.X()<<", "<<uv0.Y()<<" \t" <<
+ MSG( "TOO LONG MOVE \t" <<
+ "uv0: "<<uv0.X()<<", "<<uv0.Y()<<" \t" <<
"uv2: "<<uv2.X()<<", "<<uv2.Y()<<" \t" <<
"uvOld: "<<oldUV.X()<<", "<<oldUV.Y()<<" \t" <<
"newUV: "<<newUV.X()<<", "<<newUV.Y()<<" \t");
} // loop on faces
}
- // Move nodes
+ // 4. Move nodes
// -----------
for ( pLink = links.begin(); pLink != links.end(); ++pLink ) {
{
TopTools_ListIteratorOfListOfShape _ancIter;
TopAbs_ShapeEnum _type;
+ TopTools_MapOfShape _encountered;
TAncestorsIterator( const TopTools_ListOfShape& ancestors, TopAbs_ShapeEnum type)
: _ancIter( ancestors ), _type( type )
{
- if ( _ancIter.More() && _ancIter.Value().ShapeType() != _type ) next();
+ if ( _ancIter.More() ) {
+ if ( _ancIter.Value().ShapeType() != _type ) next();
+ else _encountered.Add( _ancIter.Value() );
+ }
}
virtual bool more()
{
const TopoDS_Shape* s = _ancIter.More() ? & _ancIter.Value() : 0;
if ( _ancIter.More() )
for ( _ancIter.Next(); _ancIter.More(); _ancIter.Next())
- if ( _ancIter.Value().ShapeType() == _type )
+ if ( _ancIter.Value().ShapeType() == _type && _encountered.Add( _ancIter.Value() ))
break;
return s;
}