X-Git-Url: http://git.salome-platform.org/gitweb/?p=modules%2Fsmesh.git;a=blobdiff_plain;f=src%2FStdMeshers%2FStdMeshers_Projection_2D.cxx;h=8413288b8913ee001ac109dd0d310f5bb5a9a4b5;hp=c4bbc0c6825a62e7c7cd539df111cb3cbc32d800;hb=7d8e88b13c6de670853d475410cc62097be1ba6d;hpb=5d68554076bbca0e1e95fb0db215a6c2b84b6c54 diff --git a/src/StdMeshers/StdMeshers_Projection_2D.cxx b/src/StdMeshers/StdMeshers_Projection_2D.cxx index c4bbc0c68..8413288b8 100644 --- a/src/StdMeshers/StdMeshers_Projection_2D.cxx +++ b/src/StdMeshers/StdMeshers_Projection_2D.cxx @@ -1,4 +1,4 @@ -// Copyright (C) 2007-2014 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 @@ -35,27 +35,36 @@ #include "SMDS_EdgePosition.hxx" #include "SMDS_FacePosition.hxx" #include "SMESHDS_Hypothesis.hxx" +#include "SMESHDS_Mesh.hxx" #include "SMESHDS_SubMesh.hxx" #include "SMESH_Block.hxx" #include "SMESH_Comment.hxx" #include "SMESH_Gen.hxx" #include "SMESH_Mesh.hxx" +#include "SMESH_MeshAlgos.hxx" #include "SMESH_MesherHelper.hxx" #include "SMESH_Pattern.hxx" #include "SMESH_subMesh.hxx" #include "SMESH_subMeshEventListener.hxx" -#include "utilities.h" +#include +#include +#include #include #include +#include +#include #include #include #include #include +#include #include +#include #include #include +#include using namespace std; @@ -139,6 +148,7 @@ bool StdMeshers_Projection_2D::CheckHypothesis(SMESH_Mesh& !SMESH_MesherHelper::IsSubShape( edge, _sourceHypo->GetSourceFace() )) { theStatus = HYP_BAD_PARAMETER; + error("Invalid source vertices"); SCRUTE((edge.IsNull())); SCRUTE((SMESH_MesherHelper::IsSubShape( edge, srcMesh ))); SCRUTE((SMESH_MesherHelper::IsSubShape( edge, _sourceHypo->GetSourceFace() ))); @@ -151,6 +161,7 @@ bool StdMeshers_Projection_2D::CheckHypothesis(SMESH_Mesh& if ( edge.IsNull() || !SMESH_MesherHelper::IsSubShape( edge, tgtMesh )) { theStatus = HYP_BAD_PARAMETER; + error("Invalid target vertices"); SCRUTE((edge.IsNull())); SCRUTE((SMESH_MesherHelper::IsSubShape( edge, tgtMesh ))); } @@ -159,6 +170,7 @@ bool StdMeshers_Projection_2D::CheckHypothesis(SMESH_Mesh& !SMESH_MesherHelper::IsSubShape( edge, theShape )) { theStatus = HYP_BAD_PARAMETER; + error("Invalid target vertices"); SCRUTE((SMESH_MesherHelper::IsSubShape( edge, theShape ))); } } @@ -168,6 +180,7 @@ bool StdMeshers_Projection_2D::CheckHypothesis(SMESH_Mesh& ( srcMesh == tgtMesh && theShape == _sourceHypo->GetSourceFace() )) { theStatus = HYP_BAD_PARAMETER; + error("Invalid source face"); SCRUTE((SMESH_MesherHelper::IsSubShape( _sourceHypo->GetSourceFace(), srcMesh ))); SCRUTE((srcMesh == tgtMesh)); SCRUTE(( theShape == _sourceHypo->GetSourceFace() )); @@ -190,7 +203,7 @@ namespace { */ //================================================================================ - bool isOldNode( const SMDS_MeshNode* node/*, const bool is1DComputed*/ ) + bool isOldNode( const SMDS_MeshNode* node ) { // old nodes are shared by edges and new ones are shared // only by faces created by mapper @@ -249,7 +262,7 @@ namespace { //================================================================================ /*! * \brief find new nodes belonging to one free border of mesh on face - * \param sm - submesh on edge or vertex containg nodes to choose from + * \param sm - submesh on edge or vertex containing nodes to choose from * \param face - the face bound by the submesh * \param u2nodes - map to fill with nodes * \param seamNodes - set of found nodes @@ -370,189 +383,289 @@ namespace { //================================================================================ /*! - * \brief Preform projection in case if tgtFace.IsPartner( srcFace ) and in case - * if projection by transformation is possible + * \brief Check if two consecutive EDGEs are connected in 2D + * \param [in] E1 - a well oriented non-seam EDGE + * \param [in] E2 - a possibly well oriented seam EDGE + * \param [in] F - a FACE + * \return bool - result */ //================================================================================ - bool projectPartner(const TopoDS_Face& tgtFace, - const TopoDS_Face& srcFace, - SMESH_Mesh * tgtMesh, - SMESH_Mesh * srcMesh, - const TAssocTool::TShapeShapeMap& shape2ShapeMap) + bool are2dConnected( const TopoDS_Edge & E1, + const TopoDS_Edge & E2, + const TopoDS_Face & F ) { - MESSAGE("projectPartner"); - const double tol = 1.e-7*srcMesh->GetMeshDS()->getMaxDim(); + double f,l; + Handle(Geom2d_Curve) c1 = BRep_Tool::CurveOnSurface( E1, F, f, l ); + gp_Pnt2d uvFirst1 = c1->Value( f ); + gp_Pnt2d uvLast1 = c1->Value( l ); + + Handle(Geom2d_Curve) c2 = BRep_Tool::CurveOnSurface( E2, F, f, l ); + gp_Pnt2d uvFirst2 = c2->Value( E2.Orientation() == TopAbs_REVERSED ? l : f ); + double tol2 = Max( Precision::PConfusion() * Precision::PConfusion(), + 1e-5 * uvLast1.SquareDistance( uvFirst1 )); + + return (( uvFirst2.SquareDistance( uvFirst1 ) < tol2 ) || + ( uvFirst2.SquareDistance( uvLast1 ) < tol2 )); + } - gp_Trsf trsf; // transformation to get location of target nodes from source ones - if ( tgtFace.IsPartner( srcFace )) - { - gp_Trsf srcTrsf = srcFace.Location(); - gp_Trsf tgtTrsf = tgtFace.Location(); - trsf = srcTrsf.Inverted() * tgtTrsf; - } - else + //================================================================================ + /*! + * \brief Compose TSideVector for both FACEs keeping matching order of EDGEs + * and fill src2tgtNodes map + */ + //================================================================================ + + TError getWires(const TopoDS_Face& tgtFace, + const TopoDS_Face& srcFace, + SMESH_Mesh * tgtMesh, + SMESH_Mesh * srcMesh, + const TAssocTool::TShapeShapeMap& shape2ShapeMap, + TSideVector& srcWires, + TSideVector& tgtWires, + TAssocTool::TNodeNodeMap& src2tgtNodes, + bool& is1DComputed) + { + src2tgtNodes.clear(); + + // get ordered src EDGEs + TError err; + srcWires = StdMeshers_FaceSide::GetFaceWires( srcFace, *srcMesh,/*skipMediumNodes=*/0, err); + if (( err && !err->IsOK() ) || + ( srcWires.empty() )) + return err; + + SMESH_MesherHelper srcHelper( *srcMesh ); + srcHelper.SetSubShape( srcFace ); + + // make corresponding sequence of tgt EDGEs + tgtWires.resize( srcWires.size() ); + for ( size_t iW = 0; iW < srcWires.size(); ++iW ) { - // Try to find the transformation - - // make any local coord systems of src and tgt faces - vector srcPP, tgtPP; // 3 points on face boundaries to make axes of CS - int tgtNbVert = SMESH_MesherHelper::Count( tgtFace, TopAbs_VERTEX, /*ignoreSame=*/true ); - int srcNbVert = SMESH_MesherHelper::Count( srcFace, TopAbs_VERTEX, /*ignoreSame=*/true ); - SMESH_subMesh * srcSM = srcMesh->GetSubMesh( srcFace ); - SMESH_subMeshIteratorPtr smIt = srcSM->getDependsOnIterator(/*includeSelf=*/false,false); - srcSM = smIt->next(); // sm of a vertex - while ( smIt->more() && srcPP.size() < 3 ) + StdMeshers_FaceSidePtr srcWire = srcWires[iW]; + + list< TopoDS_Edge > tgtEdges; + TopTools_IndexedMapOfShape edgeMap; // to detect seam edges + for ( int iE = 0; iE < srcWire->NbEdges(); ++iE ) { - srcSM = smIt->next(); - SMESHDS_SubMesh* srcSmds = srcSM->GetSubMeshDS(); - if ( !srcSmds ) continue; - SMDS_NodeIteratorPtr nIt = srcSmds->GetNodes(); - while ( nIt->more() ) + TopoDS_Edge srcE = srcWire->Edge( iE ); + TopoDS_Edge tgtE = TopoDS::Edge( shape2ShapeMap( srcE, /*isSrc=*/true)); + TopoDS_Shape srcEbis = shape2ShapeMap( tgtE, /*isSrc=*/false ); + if ( srcE.Orientation() != srcEbis.Orientation() ) + tgtE.Reverse(); + // reverse a seam edge encountered for the second time + const int index = edgeMap.Add( tgtE ); + if ( index < edgeMap.Extent() ) // E is a seam { - SMESH_TNodeXYZ p ( nIt->next()); - bool pOK = false; - switch ( srcPP.size() ) + // check which of edges to reverse, E or one already being in tgtEdges + if ( are2dConnected( tgtEdges.back(), tgtE, tgtFace )) { - case 0: pOK = true; break; - - case 1: pOK = ( srcPP[0].SquareDistance( p ) > 10*tol ); break; - - case 2: - { - gp_Vec p0p1( srcPP[0], srcPP[1] ), p0p( srcPP[0], p ); - // pOK = !p0p1.IsParallel( p0p, tol ); - pOK = !p0p1.IsParallel( p0p, 3.14/20 ); // angle min 18 degrees - break; - } + list< TopoDS_Edge >::iterator eIt = tgtEdges.begin(); + std::advance( eIt, index-1 ); + if ( are2dConnected( tgtEdges.back(), *eIt, tgtFace )) + eIt->Reverse(); } - if ( !pOK ) - continue; - - // find corresponding point on target shape - pOK = false; - gp_Pnt tgtP; - const TopoDS_Shape& tgtShape = shape2ShapeMap( srcSM->GetSubShape(), /*isSrc=*/true ); - if ( tgtShape.ShapeType() == TopAbs_VERTEX ) + else { - tgtP = BRep_Tool::Pnt( TopoDS::Vertex( tgtShape )); - if ( srcNbVert == tgtNbVert || tgtPP.empty() ) - pOK = true; - else - pOK = (( tgtP.Distance( tgtPP[0] ) > tol*tol ) && - ( tgtPP.size() == 1 || tgtP.Distance( tgtPP[1] ) > tol*tol )); - //cout << "V - nS " << p._node->GetID() << " - nT " << SMESH_Algo::VertexNode(TopoDS::Vertex( tgtShape),tgtMesh->GetMeshDS())->GetID() << endl; + tgtE.Reverse(); } - else if ( tgtPP.size() > 0 ) + } + if ( srcWire->NbEdges() == 1 && tgtMesh == srcMesh ) // circle + { + // try to verify ori by propagation + pair nE = + StdMeshers_ProjectionUtils::GetPropagationEdge( srcMesh, tgtE, srcE ); + if ( !nE.second.IsNull() ) + tgtE = nE.second; + } + tgtEdges.push_back( tgtE ); + } + + tgtWires[ iW ].reset( new StdMeshers_FaceSide( tgtFace, tgtEdges, tgtMesh, + /*theIsForward = */ true, + /*theIgnoreMediumNodes = */false)); + StdMeshers_FaceSidePtr tgtWire = tgtWires[ iW ]; + + // Fill map of src to tgt nodes with nodes on edges + + for ( int iE = 0; iE < srcWire->NbEdges(); ++iE ) + { + if ( srcMesh->GetSubMesh( srcWire->Edge(iE) )->IsEmpty() || + tgtMesh->GetSubMesh( tgtWire->Edge(iE) )->IsEmpty() ) + { + // add nodes on VERTEXes for a case of not meshes EDGEs + const SMDS_MeshNode* srcN = srcWire->VertexNode( iE ); + const SMDS_MeshNode* tgtN = tgtWire->VertexNode( iE ); + if ( srcN && tgtN ) + src2tgtNodes.insert( make_pair( srcN, tgtN )); + } + else + { + const bool skipMedium = true, isFwd = true; + StdMeshers_FaceSide srcEdge( srcFace, srcWire->Edge(iE), srcMesh, isFwd, skipMedium); + StdMeshers_FaceSide tgtEdge( tgtFace, tgtWire->Edge(iE), tgtMesh, isFwd, skipMedium); + + vector< const SMDS_MeshNode* > srcNodes = srcEdge.GetOrderedNodes(); + vector< const SMDS_MeshNode* > tgtNodes = tgtEdge.GetOrderedNodes(); + + if (( srcNodes.size() != tgtNodes.size() ) && tgtNodes.size() > 0 ) + return SMESH_ComputeError::New( COMPERR_BAD_INPUT_MESH, + "Different number of nodes on edges"); + if ( !tgtNodes.empty() ) { - if ( SMESHDS_SubMesh* tgtSmds = tgtMesh->GetMeshDS()->MeshElements( tgtShape )) + vector< const SMDS_MeshNode* >::iterator tn = tgtNodes.begin(); + //if ( srcWire->Edge(iE).Orientation() == tgtWire->Edge(iE).Orientation() ) { - double srcDist = srcPP[0].Distance( p ); - double eTol = BRep_Tool::Tolerance( TopoDS::Edge( tgtShape )); - if (eTol < tol) eTol = tol; - SMDS_NodeIteratorPtr nItT = tgtSmds->GetNodes(); - while ( nItT->more() && !pOK ) - { - const SMDS_MeshNode* n = nItT->next(); - tgtP = SMESH_TNodeXYZ( n ); - pOK = ( fabs( srcDist - tgtPP[0].Distance( tgtP )) < 2*eTol ); - //cout << "E - nS " << p._node->GetID() << " - nT " << n->GetID()<< " OK - " << pOK<< " " << fabs( srcDist - tgtPP[0].Distance( tgtP ))<< " tol " << eTol<< endl; - } + vector< const SMDS_MeshNode* >::iterator sn = srcNodes.begin(); + for ( ; tn != tgtNodes.end(); ++tn, ++sn) + src2tgtNodes.insert( make_pair( *sn, *tn )); } + // else + // { + // vector< const SMDS_MeshNode* >::reverse_iterator sn = srcNodes.rbegin(); + // for ( ; tn != tgtNodes.end(); ++tn, ++sn) + // src2tgtNodes.insert( make_pair( *sn, *tn )); + // } + is1DComputed = true; } - if ( !pOK ) - continue; - - srcPP.push_back( p ); - tgtPP.push_back( tgtP ); } - } - if ( srcPP.size() != 3 ) - return false; + } // loop on EDGEs of a WIRE - // make transformation - gp_Trsf fromTgtCS, toSrcCS; // from/to global CS - gp_Ax2 srcCS( srcPP[0], gp_Vec( srcPP[0], srcPP[1] ), gp_Vec( srcPP[0], srcPP[2])); - gp_Ax2 tgtCS( tgtPP[0], gp_Vec( tgtPP[0], tgtPP[1] ), gp_Vec( tgtPP[0], tgtPP[2])); - toSrcCS .SetTransformation( gp_Ax3( srcCS )); - fromTgtCS.SetTransformation( gp_Ax3( tgtCS )); - fromTgtCS.Invert(); + } // loop on WIREs - trsf = fromTgtCS * toSrcCS; - } + return TError(); + } - // Fill map of src to tgt nodes with nodes on edges + //================================================================================ + /*! + * \brief Preform projection in case if tgtFace.IsPartner( srcFace ) and in case + * if projection by 3D transformation is possible + */ + //================================================================================ - map src2tgtNodes; - map::iterator srcN_tgtN; + bool projectPartner(const TopoDS_Face& tgtFace, + const TopoDS_Face& srcFace, + const TSideVector& tgtWires, + const TSideVector& srcWires, + const TAssocTool::TShapeShapeMap& shape2ShapeMap, + TAssocTool::TNodeNodeMap& src2tgtNodes, + const bool is1DComputed) + { + SMESH_Mesh * tgtMesh = tgtWires[0]->GetMesh(); + SMESH_Mesh * srcMesh = srcWires[0]->GetMesh(); + SMESHDS_Mesh* tgtMeshDS = tgtMesh->GetMeshDS(); + SMESHDS_Mesh* srcMeshDS = srcMesh->GetMeshDS(); + SMESH_MesherHelper helper( *tgtMesh ); - for ( TopExp_Explorer srcEdge( srcFace, TopAbs_EDGE); srcEdge.More(); srcEdge.Next() ) - { - const TopoDS_Shape& tgtEdge = shape2ShapeMap( srcEdge.Current(), /*isSrc=*/true ); - - map< double, const SMDS_MeshNode* > srcNodes, tgtNodes; - if ( !SMESH_Algo::GetSortedNodesOnEdge( srcMesh->GetMeshDS(), - TopoDS::Edge( srcEdge.Current() ), - /*ignoreMediumNodes = */true, - srcNodes ) - || - !SMESH_Algo::GetSortedNodesOnEdge( tgtMesh->GetMeshDS(), - TopoDS::Edge( tgtEdge ), - /*ignoreMediumNodes = */true, - tgtNodes ) - || - srcNodes.size() != tgtNodes.size()) - return false; + const double tol = 1.e-7 * srcMeshDS->getMaxDim(); - if ( !tgtEdge.IsPartner( srcEdge.Current() )) + // transformation to get location of target nodes from source ones + StdMeshers_ProjectionUtils::TrsfFinder3D trsf; + bool trsfIsOK = false; + if ( tgtFace.IsPartner( srcFace )) + { + gp_GTrsf srcTrsf = srcFace.Location().Transformation(); + gp_GTrsf tgtTrsf = tgtFace.Location().Transformation(); + gp_GTrsf t = srcTrsf.Inverted().Multiplied( tgtTrsf ); + trsf.Set( t ); + // check + gp_Pnt srcP = BRep_Tool::Pnt( srcWires[0]->FirstVertex() ); + gp_Pnt tgtP = BRep_Tool::Pnt( tgtWires[0]->FirstVertex() ); + trsfIsOK = ( tgtP.Distance( trsf.Transform( srcP )) < tol ); + if ( !trsfIsOK ) + { + trsf.Set( tgtTrsf.Inverted().Multiplied( srcTrsf )); + trsfIsOK = ( tgtP.Distance( trsf.Transform( srcP )) < tol ); + } + } + if ( !trsfIsOK ) + { + // Try to find the 3D transformation + + const int totNbSeg = 50; + vector< gp_XYZ > srcPnts, tgtPnts; + srcPnts.reserve( totNbSeg ); + tgtPnts.reserve( totNbSeg ); + gp_XYZ srcBC( 0,0,0 ), tgtBC( 0,0,0 ); + for ( size_t iW = 0; iW < srcWires.size(); ++iW ) { - // check that transformation is OK by three nodes - gp_Pnt p0S = SMESH_TNodeXYZ( (srcNodes.begin()) ->second); - gp_Pnt p1S = SMESH_TNodeXYZ( (srcNodes.rbegin()) ->second); - gp_Pnt p2S = SMESH_TNodeXYZ( (++srcNodes.begin())->second); - - gp_Pnt p0T = SMESH_TNodeXYZ( (tgtNodes.begin()) ->second); - gp_Pnt p1T = SMESH_TNodeXYZ( (tgtNodes.rbegin()) ->second); - gp_Pnt p2T = SMESH_TNodeXYZ( (++tgtNodes.begin())->second); - - // transform source points, they must coincide with target ones - if ( p0T.SquareDistance( p0S.Transformed( trsf )) > tol || - p1T.SquareDistance( p1S.Transformed( trsf )) > tol || - p2T.SquareDistance( p2S.Transformed( trsf )) > tol ) + const double minSegLen = srcWires[iW]->Length() / totNbSeg; + for ( int iE = 0; iE < srcWires[iW]->NbEdges(); ++iE ) { - //cout << "KO trsf, 3 dist: " - //<< p0T.SquareDistance( p0S.Transformed( trsf ))<< ", " - //<< p1T.SquareDistance( p1S.Transformed( trsf ))<< ", " - //<< p2T.SquareDistance( p2S.Transformed( trsf ))<< ", "<EdgeLength( iE ) / minSegLen )); + double srcU = srcWires[iW]->FirstParameter( iE ); + double tgtU = tgtWires[iW]->FirstParameter( iE ); + double srcDu = ( srcWires[iW]->LastParameter( iE )- srcU ) / nbSeg; + double tgtDu = ( tgtWires[iW]->LastParameter( iE )- tgtU ) / nbSeg; + for ( size_t i = 0; i < nbSeg; ++i ) + { + srcPnts.push_back( srcWires[iW]->Value3d( srcU ).XYZ() ); + tgtPnts.push_back( tgtWires[iW]->Value3d( tgtU ).XYZ() ); + srcU += srcDu; + tgtU += tgtDu; + srcBC += srcPnts.back(); + tgtBC += tgtPnts.back(); + } } } + if ( !trsf.Solve( srcPnts, tgtPnts )) + return false; - map< double, const SMDS_MeshNode* >::iterator u_tn = tgtNodes.begin(); - map< double, const SMDS_MeshNode* >::iterator u_sn = srcNodes.begin(); - for ( ; u_tn != tgtNodes.end(); ++u_tn, ++u_sn) - src2tgtNodes.insert( make_pair( u_sn->second, u_tn->second )); + // check trsf + + const int nbTestPnt = 20; + const size_t iStep = Max( 1, int( srcPnts.size() / nbTestPnt )); + // check boundary + gp_Pnt trsfTgt = trsf.Transform( srcBC / srcPnts.size() ); + trsfIsOK = ( trsfTgt.SquareDistance( tgtBC / tgtPnts.size() ) < tol*tol ); + for ( size_t i = 0; ( i < srcPnts.size() && trsfIsOK ); i += iStep ) + { + gp_Pnt trsfTgt = trsf.Transform( srcPnts[i] ); + trsfIsOK = ( trsfTgt.SquareDistance( tgtPnts[i] ) < tol*tol ); + } + // check an in-FACE point + if ( trsfIsOK ) + { + BRepAdaptor_Surface srcSurf( srcFace ); + gp_Pnt srcP = + srcSurf.Value( 0.321 * ( srcSurf.FirstUParameter() + srcSurf.LastUParameter() ), + 0.123 * ( srcSurf.FirstVParameter() + srcSurf.LastVParameter() )); + gp_Pnt tgtTrsfP = trsf.Transform( srcP ); + TopLoc_Location loc; + GeomAPI_ProjectPointOnSurf& proj = helper.GetProjector( tgtFace, loc, 0.1*tol ); + if ( !loc.IsIdentity() ) + tgtTrsfP.Transform( loc.Transformation().Inverted() ); + proj.Perform( tgtTrsfP ); + trsfIsOK = ( proj.IsDone() && + proj.NbPoints() > 0 && + proj.LowerDistance() < tol ); + } + if ( !trsfIsOK ) + return false; } // Make new faces // prepare the helper to adding quadratic elements if necessary - SMESH_MesherHelper helper( *tgtMesh ); - helper.SetSubShape( tgtFace ); + //helper.SetSubShape( tgtFace ); helper.IsQuadraticSubMesh( tgtFace ); - helper.SetElementsOnShape( true ); + + SMESHDS_SubMesh* srcSubDS = srcMeshDS->MeshElements( srcFace ); + if ( !is1DComputed && srcSubDS->NbElements() ) + helper.SetIsQuadratic( srcSubDS->GetElements()->next()->IsQuadratic() ); SMESH_MesherHelper srcHelper( *srcMesh ); srcHelper.SetSubShape( srcFace ); const SMDS_MeshNode* nullNode = 0; + TAssocTool::TNodeNodeMap::iterator srcN_tgtN; // indices of nodes to create properly oriented faces + bool isReverse = ( !trsf.IsIdentity() ); int tri1 = 1, tri2 = 2, quad1 = 1, quad3 = 3; - if ( trsf.Form() != gp_Identity ) + if ( isReverse ) std::swap( tri1, tri2 ), std::swap( quad1, quad3 ); - SMESHDS_SubMesh* srcSubDS = srcMesh->GetMeshDS()->MeshElements( srcFace ); SMDS_ElemIteratorPtr elemIt = srcSubDS->GetElements(); vector< const SMDS_MeshNode* > tgtNodes; while ( elemIt->more() ) // loop on all mesh faces on srcFace @@ -560,6 +673,7 @@ namespace { const SMDS_MeshElement* elem = elemIt->next(); const int nbN = elem->NbCornerNodes(); tgtNodes.resize( nbN ); + helper.SetElementsOnShape( false ); for ( int i = 0; i < nbN; ++i ) // loop on nodes of the source element { const SMDS_MeshNode* srcNode = elem->GetNode(i); @@ -567,23 +681,89 @@ namespace { if ( srcN_tgtN->second == nullNode ) { // create a new node - gp_Pnt tgtP = gp_Pnt(srcNode->X(),srcNode->Y(),srcNode->Z()).Transformed( trsf ); + gp_Pnt tgtP = trsf.Transform( SMESH_TNodeXYZ( srcNode )); SMDS_MeshNode* n = helper.AddNode( tgtP.X(), tgtP.Y(), tgtP.Z() ); srcN_tgtN->second = n; - - gp_Pnt2d srcUV = srcHelper.GetNodeUV( srcFace, srcNode, - elem->GetNode( helper.WrapIndex(i+1,nbN))); - n->SetPosition( new SMDS_FacePosition( srcUV.X(), srcUV.Y() )); + switch ( srcNode->GetPosition()->GetTypeOfPosition() ) + { + case SMDS_TOP_FACE: + { + gp_Pnt2d srcUV = srcHelper.GetNodeUV( srcFace, srcNode ); + tgtMeshDS->SetNodeOnFace( n, helper.GetSubShapeID(), srcUV.X(), srcUV.Y() ); + break; + } + case SMDS_TOP_EDGE: + { + const TopoDS_Shape & srcE = srcMeshDS->IndexToShape( srcNode->getshapeId() ); + const TopoDS_Shape & tgtE = shape2ShapeMap( srcE, /*isSrc=*/true ); + double srcU = srcHelper.GetNodeU( TopoDS::Edge( srcE ), srcNode ); + tgtMeshDS->SetNodeOnEdge( n, TopoDS::Edge( tgtE ), srcU ); + break; + } + case SMDS_TOP_VERTEX: + { + const TopoDS_Shape & srcV = srcMeshDS->IndexToShape( srcNode->getshapeId() ); + const TopoDS_Shape & tgtV = shape2ShapeMap( srcV, /*isSrc=*/true ); + tgtMeshDS->SetNodeOnVertex( n, TopoDS::Vertex( tgtV )); + break; + } + default:; + } } tgtNodes[i] = srcN_tgtN->second; } // create a new face + helper.SetElementsOnShape( true ); switch ( nbN ) { case 3: helper.AddFace(tgtNodes[0], tgtNodes[tri1], tgtNodes[tri2]); break; case 4: helper.AddFace(tgtNodes[0], tgtNodes[quad1], tgtNodes[2], tgtNodes[quad3]); break; + default: + if ( isReverse ) std::reverse( tgtNodes.begin(), tgtNodes.end() ); + helper.AddPolygonalFace( tgtNodes ); } } + + // check node positions + + if ( !tgtFace.IsPartner( srcFace ) ) + { + SMESH_MesherHelper edgeHelper( *tgtMesh ); + edgeHelper.ToFixNodeParameters( true ); + helper.ToFixNodeParameters( true ); + + int nbOkPos = 0; + bool toCheck = true; + const double tol2d = 1e-12; + srcN_tgtN = src2tgtNodes.begin(); + for ( ; srcN_tgtN != src2tgtNodes.end(); ++srcN_tgtN ) + { + const SMDS_MeshNode* n = srcN_tgtN->second; + switch ( n->GetPosition()->GetTypeOfPosition() ) + { + case SMDS_TOP_FACE: + { + if ( nbOkPos > 10 ) break; + gp_XY uv = helper.GetNodeUV( tgtFace, n ), uvBis = uv; + if (( helper.CheckNodeUV( tgtFace, n, uv, tol )) && + (( uv - uvBis ).SquareModulus() < tol2d )) + ++nbOkPos; + else + nbOkPos = -((int) src2tgtNodes.size() ); + break; + } + case SMDS_TOP_EDGE: + { + const TopoDS_Edge & tgtE = TopoDS::Edge( tgtMeshDS->IndexToShape( n->getshapeId() )); + edgeHelper.SetSubShape( tgtE ); + edgeHelper.GetNodeU( tgtE, n, 0, &toCheck ); + break; + } + default:; + } + } + } + return true; } // bool projectPartner() @@ -594,50 +774,23 @@ namespace { */ //================================================================================ - bool projectBy2DSimilarity(const TopoDS_Face& tgtFace, - const TopoDS_Face& srcFace, - SMESH_Mesh * tgtMesh, - SMESH_Mesh * srcMesh, - const TAssocTool::TShapeShapeMap& shape2ShapeMap, - const bool is1DComputed) + bool projectBy2DSimilarity(const TopoDS_Face& tgtFace, + const TopoDS_Face& srcFace, + const TSideVector& tgtWires, + const TSideVector& srcWires, + const TAssocTool::TShapeShapeMap& shape2ShapeMap, + TAssocTool::TNodeNodeMap& src2tgtNodes, + const bool is1DComputed) { - // 1) Preparation + SMESH_Mesh * tgtMesh = tgtWires[0]->GetMesh(); + SMESH_Mesh * srcMesh = srcWires[0]->GetMesh(); - // get ordered src EDGEs - TError err; - TSideVector srcWires = - StdMeshers_FaceSide::GetFaceWires( srcFace, *srcMesh,/*ignoreMediumNodes = */false, err); - if ( err && !err->IsOK() ) - return false; + // WARNING: we can have problems if the FACE is symmetrical in 2D, + // then the projection can be mirrored relating to what is expected - // make corresponding sequence of tgt EDGEs - TSideVector tgtWires( srcWires.size() ); - for ( unsigned iW = 0; iW < srcWires.size(); ++iW ) - { - list< TopoDS_Edge > tgtEdges; - StdMeshers_FaceSidePtr srcWire = srcWires[iW]; - TopTools_IndexedMapOfShape edgeMap; // to detect seam edges - for ( int iE = 0; iE < srcWire->NbEdges(); ++iE ) - { - tgtEdges.push_back( TopoDS::Edge( shape2ShapeMap( srcWire->Edge( iE ), /*isSrc=*/true))); - // reverse a seam edge encountered for the second time - const int oldExtent = edgeMap.Extent(); - edgeMap.Add( tgtEdges.back() ); - if ( oldExtent == edgeMap.Extent() ) - tgtEdges.back().Reverse(); - } - tgtWires[ iW ].reset( new StdMeshers_FaceSide( tgtFace, tgtEdges, tgtMesh, - /*theIsForward = */ true, - /*theIgnoreMediumNodes = */false)); - if ( is1DComputed && - srcWires[iW]->GetUVPtStruct().size() != - tgtWires[iW]->GetUVPtStruct().size()) - return false; - } - - // 2) Find transformation + // 1) Find 2D transformation - gp_Trsf2d trsf; + StdMeshers_ProjectionUtils::TrsfFinder2D trsf; { // get 2 pairs of corresponding UVs gp_Pnt2d srcP0 = srcWires[0]->Value2d(0.0); @@ -652,50 +805,63 @@ namespace { toSrcCS .SetTransformation( srcCS ); fromTgtCS.SetTransformation( tgtCS ); fromTgtCS.Invert(); - - trsf = fromTgtCS * toSrcCS; + trsf.Set( fromTgtCS * toSrcCS ); // check transformation + bool trsfIsOK = true; const double tol = 1e-5 * gp_Vec2d( srcP0, srcP1 ).Magnitude(); - for ( double u = 0.12; u < 1.; u += 0.1 ) + for ( double u = 0.12; ( u < 1. && trsfIsOK ); u += 0.1 ) { - gp_Pnt2d srcUV = srcWires[0]->Value2d( u ); - gp_Pnt2d tgtUV = tgtWires[0]->Value2d( u ); - gp_Pnt2d tgtUV2 = srcUV.Transformed( trsf ); - if ( tgtUV.Distance( tgtUV2 ) > tol ) - return false; + gp_Pnt2d srcUV = srcWires[0]->Value2d( u ); + gp_Pnt2d tgtUV = tgtWires[0]->Value2d( u ); + gp_Pnt2d tgtUV2 = trsf.Transform( srcUV ); + trsfIsOK = ( tgtUV.Distance( tgtUV2 ) < tol ); } - } - // 3) Projection + // Find trsf using a least-square approximation + if ( !trsfIsOK ) + { + // find trsf + const int totNbSeg = 50; + vector< gp_XY > srcPnts, tgtPnts; + srcPnts.reserve( totNbSeg ); + tgtPnts.reserve( totNbSeg ); + for ( size_t iW = 0; iW < srcWires.size(); ++iW ) + { + const double minSegLen = srcWires[iW]->Length() / totNbSeg; + for ( int iE = 0; iE < srcWires[iW]->NbEdges(); ++iE ) + { + size_t nbSeg = Max( 1, int( srcWires[iW]->EdgeLength( iE ) / minSegLen )); + double srcU = srcWires[iW]->FirstParameter( iE ); + double tgtU = tgtWires[iW]->FirstParameter( iE ); + double srcDu = ( srcWires[iW]->LastParameter( iE )- srcU ) / nbSeg; + double tgtDu = ( tgtWires[iW]->LastParameter( iE )- tgtU ) / nbSeg; + for ( size_t i = 0; i < nbSeg; ++i, srcU += srcDu, tgtU += tgtDu ) + { + srcPnts.push_back( srcWires[iW]->Value2d( srcU ).XY() ); + tgtPnts.push_back( tgtWires[iW]->Value2d( tgtU ).XY() ); + } + } + } + if ( !trsf.Solve( srcPnts, tgtPnts )) + return false; - typedef map TN2NMap; - TN2NMap src2tgtNodes; - TN2NMap::iterator srcN_tgtN; + // check trsf - // fill src2tgtNodes in with nodes on EDGEs - for ( unsigned iW = 0; iW < srcWires.size(); ++iW ) - if ( is1DComputed ) - { - const vector& srcUVs = srcWires[iW]->GetUVPtStruct(); - const vector& tgtUVs = tgtWires[iW]->GetUVPtStruct(); - for ( unsigned i = 0; i < srcUVs.size(); ++i ) - src2tgtNodes.insert( make_pair( srcUVs[i].node, tgtUVs[i].node )); - } - else - { - for ( int iE = 0; iE < srcWires[iW]->NbEdges(); ++iE ) + trsfIsOK = true; + const int nbTestPnt = 10; + const size_t iStep = Max( 1, int( srcPnts.size() / nbTestPnt )); + for ( size_t i = 0; ( i < srcPnts.size() && trsfIsOK ); i += iStep ) { - TopoDS_Vertex srcV = srcWires[iW]->FirstVertex(iE); - TopoDS_Vertex tgtV = tgtWires[iW]->FirstVertex(iE); - const SMDS_MeshNode* srcNode = SMESH_Algo::VertexNode( srcV, srcMesh->GetMeshDS() ); - const SMDS_MeshNode* tgtNode = SMESH_Algo::VertexNode( tgtV, tgtMesh->GetMeshDS() ); - if ( tgtNode && srcNode ) - src2tgtNodes.insert( make_pair( srcNode, tgtNode )); + gp_Pnt2d trsfTgt = trsf.Transform( srcPnts[i] ); + trsfIsOK = ( trsfTgt.Distance( tgtPnts[i] ) < tol ); } + if ( !trsfIsOK ) + return false; } + } // "Find transformation" block - // make elements + // 2) Projection SMESHDS_SubMesh* srcSubDS = srcMesh->GetMeshDS()->MeshElements( srcFace ); @@ -713,6 +879,7 @@ namespace { srcHelper.SetSubShape( srcFace ); const SMDS_MeshNode* nullNode = 0; + TAssocTool::TNodeNodeMap::iterator srcN_tgtN; SMDS_ElemIteratorPtr elemIt = srcSubDS->GetElements(); vector< const SMDS_MeshNode* > tgtNodes; @@ -731,8 +898,8 @@ namespace { // create a new node gp_Pnt2d srcUV = srcHelper.GetNodeUV( srcFace, srcNode, elem->GetNode( helper.WrapIndex(i+1,nbN)), &uvOK); - gp_Pnt2d tgtUV = srcUV.Transformed( trsf ); - gp_Pnt tgtP = tgtSurface->Value( tgtUV.X(), tgtUV.Y() ); + gp_Pnt2d tgtUV = trsf.Transform( srcUV ); + gp_Pnt tgtP = tgtSurface->Value( tgtUV.X(), tgtUV.Y() ); SMDS_MeshNode* n = tgtMeshDS->AddNode( tgtP.X(), tgtP.Y(), tgtP.Z() ); switch ( srcNode->GetPosition()->GetTypeOfPosition() ) { @@ -743,10 +910,9 @@ namespace { case SMDS_TOP_EDGE: { TopoDS_Shape srcEdge = srcHelper.GetSubShapeByNode( srcNode, srcHelper.GetMeshDS() ); TopoDS_Edge tgtEdge = TopoDS::Edge( shape2ShapeMap( srcEdge, /*isSrc=*/true )); - tgtMeshDS->SetNodeOnEdge( n, TopoDS::Edge( tgtEdge )); - double U = srcHelper.GetNodeU( TopoDS::Edge( srcEdge ), srcNode ); + double U = Precision::Infinite(); helper.CheckNodeU( tgtEdge, n, U, Precision::PConfusion()); - n->SetPosition(SMDS_PositionPtr(new SMDS_EdgePosition( U ))); + tgtMeshDS->SetNodeOnEdge( n, TopoDS::Edge( tgtEdge ), U ); break; } case SMDS_TOP_VERTEX: { @@ -755,6 +921,7 @@ namespace { tgtMeshDS->SetNodeOnVertex( n, TopoDS::Vertex( tgtV )); break; } + default:; } srcN_tgtN->second = n; } @@ -766,22 +933,513 @@ namespace { case 3: helper.AddFace(tgtNodes[0], tgtNodes[2], tgtNodes[1]); break; case 4: helper.AddFace(tgtNodes[0], tgtNodes[3], tgtNodes[2], tgtNodes[1]); break; } + } // loop on all mesh faces on srcFace + + return true; + } + + //================================================================================ + /*! + * \brief Preform projection in case of quadrilateral faces + */ + //================================================================================ + + bool projectQuads(const TopoDS_Face& tgtFace, + const TopoDS_Face& srcFace, + const TSideVector& tgtWires, + const TSideVector& srcWires, + const TAssocTool::TShapeShapeMap& shape2ShapeMap, + TAssocTool::TNodeNodeMap& src2tgtNodes, + const bool is1DComputed) + { + // SMESH_Mesh * tgtMesh = tgtWires[0]->GetMesh(); + // SMESH_Mesh * srcMesh = srcWires[0]->GetMesh(); + // //SMESHDS_Mesh * tgtMeshDS = tgtMesh->GetMeshDS(); + // SMESHDS_Mesh * srcMeshDS = srcMesh->GetMeshDS(); + + // if ( srcWires[0]->NbEdges() != 4 ) + // return false; + // if ( !is1DComputed ) + // return false; + // for ( int iE = 0; iE < 4; ++iE ) + // { + // SMESHDS_SubMesh* sm = srcMeshDS->MeshElements( srcWires[0]->Edge( iE )); + // if ( !sm ) return false; + // if ( sm->NbNodes() + sm->NbElements() == 0 ) return false; + // } + // if ( BRepAdaptor_Surface( tgtFace ).GetType() != GeomAbs_Plane ) + // return false; + // // if ( BRepAdaptor_Surface( tgtFace ).GetType() == GeomAbs_Plane && + // // BRepAdaptor_Surface( srcFace ).GetType() == GeomAbs_Plane ) + // // return false; // too easy + + // // load EDGEs to SMESH_Block + + // SMESH_Block block; + // TopTools_IndexedMapOfOrientedShape blockSubShapes; + // { + // const TopoDS_Solid& box = srcMesh->PseudoShape(); + // TopoDS_Shell shell = TopoDS::Shell( TopExp_Explorer( box, TopAbs_SHELL ).Current() ); + // TopoDS_Vertex v; + // block.LoadBlockShapes( shell, v, v, blockSubShapes ); // fill all since operator[] is missing + // } + // const SMESH_Block::TShapeID srcFaceBID = SMESH_Block::ID_Fxy0; + // const SMESH_Block::TShapeID tgtFaceBID = SMESH_Block::ID_Fxy1; + // vector< int > edgeBID; + // block.GetFaceEdgesIDs( srcFaceBID, edgeBID ); // u0, u1, 0v, 1v + // blockSubShapes.Substitute( edgeBID[0], srcWires[0]->Edge(0) ); + // blockSubShapes.Substitute( edgeBID[1], srcWires[0]->Edge(2) ); + // blockSubShapes.Substitute( edgeBID[2], srcWires[0]->Edge(3) ); + // blockSubShapes.Substitute( edgeBID[3], srcWires[0]->Edge(1) ); + // block.GetFaceEdgesIDs( tgtFaceBID, edgeBID ); // u0, u1, 0v, 1v + // blockSubShapes.Substitute( edgeBID[0], tgtWires[0]->Edge(0) ); + // blockSubShapes.Substitute( edgeBID[1], tgtWires[0]->Edge(2) ); + // blockSubShapes.Substitute( edgeBID[2], tgtWires[0]->Edge(3) ); + // blockSubShapes.Substitute( edgeBID[3], tgtWires[0]->Edge(1) ); + // block.LoadFace( srcFace, srcFaceBID, blockSubShapes ); + // block.LoadFace( tgtFace, tgtFaceBID, blockSubShapes ); + + // // remember connectivity of new faces in terms of ( node-or-XY ) + + // typedef std::pair< const SMDS_MeshNode*, gp_XYZ > TNodeOrXY; // node-or-XY + // typedef std::vector< TNodeOrXY* > TFaceConn; // face connectivity + // std::vector< TFaceConn > newFacesVec; // connectivity of all faces + // std::map< const SMDS_MeshNode*, TNodeOrXY > srcNode2tgtNXY; // src node -> node-or-XY + + // TAssocTool::TNodeNodeMap::iterator srcN_tgtN; + // std::map< const SMDS_MeshNode*, TNodeOrXY >::iterator srcN_tgtNXY; + // std::pair< std::map< const SMDS_MeshNode*, TNodeOrXY >::iterator, bool > n2n_isNew; + // TNodeOrXY nullNXY( (SMDS_MeshNode*)NULL, gp_XYZ(0,0,0) ); + + // SMESHDS_SubMesh* srcSubDS = srcMeshDS->MeshElements( srcFace ); + // newFacesVec.resize( srcSubDS->NbElements() ); + // int iFaceSrc = 0; + + // SMDS_ElemIteratorPtr elemIt = srcSubDS->GetElements(); + // while ( elemIt->more() ) // loop on all mesh faces on srcFace + // { + // const SMDS_MeshElement* elem = elemIt->next(); + // TFaceConn& tgtNodes = newFacesVec[ iFaceSrc++ ]; + + // const int nbN = elem->NbCornerNodes(); + // tgtNodes.resize( nbN ); + // for ( int i = 0; i < nbN; ++i ) // loop on nodes of the source element + // { + // const SMDS_MeshNode* srcNode = elem->GetNode(i); + // n2n_isNew = srcNode2tgtNXY.insert( make_pair( srcNode, nullNXY )); + // TNodeOrXY & tgtNodeOrXY = n2n_isNew.first->second; + // if ( n2n_isNew.second ) // new src node encounters + // { + // srcN_tgtN = src2tgtNodes.find( srcNode ); + // if ( srcN_tgtN != src2tgtNodes.end() ) + // { + // tgtNodeOrXY.first = srcN_tgtN->second; // tgt node exists + // } + // else + // { + // // find XY of src node withing the quadrilateral srcFace + // if ( !block.ComputeParameters( SMESH_TNodeXYZ( srcNode ), + // tgtNodeOrXY.second, srcFaceBID )) + // return false; + // } + // } + // tgtNodes[ i ] = & tgtNodeOrXY; + // } + // } + + // // as all XY are computed, create tgt nodes and faces + + // SMESH_MesherHelper helper( *tgtMesh ); + // helper.SetSubShape( tgtFace ); + // if ( is1DComputed ) + // helper.IsQuadraticSubMesh( tgtFace ); + // else + // helper.SetIsQuadratic( srcSubDS->GetElements()->next()->IsQuadratic() ); + // helper.SetElementsOnShape( true ); + // Handle(Geom_Surface) tgtSurface = BRep_Tool::Surface( tgtFace ); + + // SMESH_MesherHelper srcHelper( *srcMesh ); + // srcHelper.SetSubShape( srcFace ); + + // vector< const SMDS_MeshNode* > tgtNodes; + // gp_XY uv; + + // for ( size_t iFaceTgt = 0; iFaceTgt < newFacesVec.size(); ++iFaceTgt ) + // { + // TFaceConn& tgtConn = newFacesVec[ iFaceTgt ]; + // tgtNodes.resize( tgtConn.size() ); + // for ( size_t iN = 0; iN < tgtConn.size(); ++iN ) + // { + // const SMDS_MeshNode* & tgtN = tgtConn[ iN ]->first; + // if ( !tgtN ) // create a node + // { + // if ( !block.FaceUV( tgtFaceBID, tgtConn[iN]->second, uv )) + // return false; + // gp_Pnt p = tgtSurface->Value( uv.X(), uv.Y() ); + // tgtN = helper.AddNode( p.X(), p.Y(), p.Z(), uv.X(), uv.Y() ); + // } + // tgtNodes[ tgtNodes.size() - iN - 1] = tgtN; // reversed orientation + // } + // switch ( tgtNodes.size() ) + // { + // case 3: helper.AddFace(tgtNodes[0], tgtNodes[1], tgtNodes[2]); break; + // case 4: helper.AddFace(tgtNodes[0], tgtNodes[1], tgtNodes[2], tgtNodes[3]); break; + // default: + // if ( tgtNodes.size() > 4 ) + // helper.AddPolygonalFace( tgtNodes ); + // } + // } + return false; //true; + + } // bool projectQuads(...) + + //================================================================================ + /*! + * \brief Fix bad faces by smoothing + */ + //================================================================================ + + bool fixDistortedFaces( SMESH_MesherHelper& helper, + TSideVector& tgtWires ) + { + SMESH_subMesh* faceSM = helper.GetMesh()->GetSubMesh( helper.GetSubShape() ); + + if ( helper.IsDistorted2D( faceSM, /*checkUV=*/true )) + { + SMESH_MeshEditor editor( helper.GetMesh() ); + SMESHDS_SubMesh* smDS = faceSM->GetSubMeshDS(); + const TopoDS_Face& F = TopoDS::Face( faceSM->GetSubShape() ); + + TIDSortedElemSet faces; + SMDS_ElemIteratorPtr faceIt = smDS->GetElements(); + for ( faceIt = smDS->GetElements(); faceIt->more(); ) + faces.insert( faces.end(), faceIt->next() ); + + // choose smoothing algo + //SMESH_MeshEditor:: SmoothMethod algo = SMESH_MeshEditor::CENTROIDAL; + bool isConcaveBoundary = false; + for ( size_t iW = 0; iW < tgtWires.size() && !isConcaveBoundary; ++iW ) + { + TopoDS_Edge prevEdge = tgtWires[iW]->Edge( tgtWires[iW]->NbEdges() - 1 ); + for ( int iE = 0; iE < tgtWires[iW]->NbEdges() && !isConcaveBoundary; ++iE ) + { + double angle = helper.GetAngle( prevEdge, tgtWires[iW]->Edge( iE ), + F, tgtWires[iW]->FirstVertex( iE )); + isConcaveBoundary = ( angle < -5. * M_PI / 180. ); + + prevEdge = tgtWires[iW]->Edge( iE ); + } + } + SMESH_MeshEditor:: SmoothMethod algo = + isConcaveBoundary ? SMESH_MeshEditor::CENTROIDAL : SMESH_MeshEditor::LAPLACIAN; + + // smooth in 2D or 3D? + TopLoc_Location loc; + Handle(Geom_Surface) surface = BRep_Tool::Surface( F, loc ); + bool isPlanar = GeomLib_IsPlanarSurface( surface ).IsPlanar(); + + // smoothing + set fixedNodes; + editor.Smooth( faces, fixedNodes, algo, /*nbIterations=*/ 10, + /*theTgtAspectRatio=*/1.0, /*the2D=*/!isPlanar); + + helper.ToFixNodeParameters( true ); + + return !helper.IsDistorted2D( faceSM, /*checkUV=*/true ); + } + return true; + } + + typedef list< pair< const SMDS_MeshNode*, const BRepMesh_Triangle* > > TNodeTriaList; + + //================================================================================ + /*! + * \brief Add in-FACE nodes surrounding a given node to a queue + */ + //================================================================================ + + void addCloseNodes( const SMDS_MeshNode* srcNode, + const BRepMesh_Triangle* bmTria, + const int srcFaceID, + TNodeTriaList & noTriQueue ) + { + // find in-FACE nodes + SMDS_ElemIteratorPtr elems = srcNode->GetInverseElementIterator(SMDSAbs_Face); + while ( elems->more() ) + { + const SMDS_MeshElement* elem = elems->next(); + if ( elem->getshapeId() == srcFaceID ) + { + for ( int i = 0, nb = elem->NbNodes(); i < nb; ++i ) + { + const SMDS_MeshNode* n = elem->GetNode( i ); + if ( !n->isMarked() ) + noTriQueue.push_back( make_pair( n, bmTria )); + } + } + } + } + + //================================================================================ + /*! + * \brief Find a delauney triangle containing a given 2D point and return + * barycentric coordinates within the found triangle + */ + //================================================================================ + + const BRepMesh_Triangle* findTriangle( const gp_XY& uv, + const BRepMesh_Triangle* bmTria, + Handle(BRepMesh_DataStructureOfDelaun)& triaDS, + double bc[3] ) + { + int nodeIDs[3]; + gp_XY nodeUVs[3]; + int linkIDs[3]; + Standard_Boolean ori[3]; + + while ( bmTria ) + { + // check bmTria + + triaDS->ElementNodes( *bmTria, nodeIDs ); + nodeUVs[0] = triaDS->GetNode( nodeIDs[0] ).Coord(); + nodeUVs[1] = triaDS->GetNode( nodeIDs[1] ).Coord(); + nodeUVs[2] = triaDS->GetNode( nodeIDs[2] ).Coord(); + + SMESH_MeshAlgos::GetBarycentricCoords( uv, + nodeUVs[0], nodeUVs[1], nodeUVs[2], + bc[0], bc[1] ); + if ( bc[0] >= 0 && bc[1] >= 0 && bc[0] + bc[1] <= 1 ) + { + bc[2] = 1 - bc[0] - bc[1]; + return bmTria; + } + + // look for a neighbor triangle, which is adjacent to a link intersected + // by a segment( triangle center -> uv ) + + gp_XY gc = ( nodeUVs[0] + nodeUVs[1] + nodeUVs[2] ) / 3.; + gp_XY seg = uv - gc; + + bmTria->Edges( linkIDs, ori ); + int triaID = triaDS->IndexOf( *bmTria ); + bmTria = 0; + + for ( int i = 0; i < 3; ++i ) + { + const BRepMesh_PairOfIndex & triIDs = triaDS->ElementsConnectedTo( linkIDs[i] ); + if ( triIDs.Extent() < 2 ) + continue; // no neighbor triangle + + // check if a link intersects gc2uv + const BRepMesh_Edge & link = triaDS->GetLink( linkIDs[i] ); + const BRepMesh_Vertex & n1 = triaDS->GetNode( link.FirstNode() ); + const BRepMesh_Vertex & n2 = triaDS->GetNode( link.LastNode() ); + gp_XY uv1 = n1.Coord(); + gp_XY lin = n2.Coord() - uv1; // link direction + + double crossSegLin = seg ^ lin; + if ( Abs( crossSegLin ) < std::numeric_limits::min() ) + continue; // parallel + + double uSeg = ( uv1 - gc ) ^ lin / crossSegLin; + if ( 0. <= uSeg && uSeg <= 1. ) + { + bmTria = & triaDS->GetElement( triIDs.Index( 1 + ( triIDs.Index(1) == triaID ))); + break; + } + } + } + return bmTria; + } + + //================================================================================ + /*! + * \brief Morph mesh on the target face to lie within FACE boundary w/o distortion + * + * algo: + * - make a CDT on the src FACE + * - find a triangle containing a src node and get its barycentric coordinates + * - move the node to a point with the same barycentric coordinates in a corresponding + * tgt triangle + */ + //================================================================================ + + bool morph( SMESH_MesherHelper& tgtHelper, + const TopoDS_Face& tgtFace, + const TopoDS_Face& srcFace, + const TSideVector& tgtWires, + const TSideVector& srcWires, + const TAssocTool::TNodeNodeMap& src2tgtNodes ) + { + if ( srcWires.size() != tgtWires.size() ) return false; + + // count boundary points + int iP = 1, nbP = 0; + for ( size_t iW = 0; iW < srcWires.size(); ++iW ) + nbP += srcWires[iW]->NbPoints() - 1; // 1st and last points coincide + + // fill boundary points + BRepMesh::Array1OfVertexOfDelaun srcVert( 1, 1 + nbP ), tgtVert( 1, 1 + nbP ); + vector< const SMDS_MeshNode* > bndSrcNodes( nbP + 1 ); bndSrcNodes[0] = 0; + BRepMesh_Vertex v( 0, 0, BRepMesh_Frontier ); + for ( size_t iW = 0; iW < srcWires.size(); ++iW ) + { + const UVPtStructVec& srcPnt = srcWires[iW]->GetUVPtStruct(); + const UVPtStructVec& tgtPnt = tgtWires[iW]->GetUVPtStruct(); + if ( srcPnt.size() != tgtPnt.size() ) return false; + + for ( int i = 0, nb = srcPnt.size() - 1; i < nb; ++i, ++iP ) + { + bndSrcNodes[ iP ] = srcPnt[i].node; + srcPnt[i].node->setIsMarked( true ); + + v.ChangeCoord() = srcPnt[i].UV(); + srcVert( iP ) = v; + v.ChangeCoord() = tgtPnt[i].UV(); + tgtVert( iP ) = v; + } } + // triangulate the srcFace in 2D + BRepMesh_Delaun delauney( srcVert ); + Handle(BRepMesh_DataStructureOfDelaun) triaDS = delauney.Result(); + + Handle(ShapeAnalysis_Surface) tgtSurface = tgtHelper.GetSurface( tgtFace ); + SMESHDS_Mesh* srcMesh = srcWires[0]->GetMesh()->GetMeshDS(); + SMESHDS_Mesh* tgtMesh = tgtHelper.GetMeshDS(); + const SMDS_MeshNode *srcNode, *tgtNode; + const BRepMesh_Triangle *bmTria; + + // un-mark internal src nodes; later we will mark moved nodes + SMDS_NodeIteratorPtr nIt = srcMesh->MeshElements( srcFace )->GetNodes(); + if ( !nIt || !nIt->more() ) return true; + while ( nIt->more() ) + ( srcNode = nIt->next() )->setIsMarked( false ); + + // initialize a queue of nodes with starting triangles + const int srcFaceID = srcNode->getshapeId(); + TNodeTriaList noTriQueue; + size_t iBndSrcN = 1; + for ( ; iBndSrcN < bndSrcNodes.size() && noTriQueue.empty(); ++iBndSrcN ) + { + // get a triangle + const BRepMesh::ListOfInteger & linkIds = triaDS->LinksConnectedTo( iBndSrcN ); + const BRepMesh_PairOfIndex & triaIds = triaDS->ElementsConnectedTo( linkIds.First() ); + const BRepMesh_Triangle& tria = triaDS->GetElement( triaIds.Index(1) ); + + addCloseNodes( bndSrcNodes[ iBndSrcN ], &tria, srcFaceID, noTriQueue ); + } + + // Move tgt nodes + + double bc[3]; // barycentric coordinates + int nodeIDs[3]; + bool checkUV = true; + const SMDS_FacePosition* pos; + + while ( !noTriQueue.empty() ) + { + srcNode = noTriQueue.front().first; + bmTria = noTriQueue.front().second; + noTriQueue.pop_front(); + if ( srcNode->isMarked() ) + continue; + srcNode->setIsMarked( true ); + + // find a delauney triangle containing the src node + gp_XY uv = tgtHelper.GetNodeUV( srcFace, srcNode, NULL, &checkUV ); + bmTria = findTriangle( uv, bmTria, triaDS, bc ); + if ( !bmTria ) + continue; + + // compute new coordinates for a corresponding tgt node + gp_XY uvNew( 0., 0. ), nodeUV; + triaDS->ElementNodes( *bmTria, nodeIDs ); + for ( int i = 0; i < 3; ++i ) + uvNew += bc[i] * tgtVert( nodeIDs[i]).Coord(); + gp_Pnt xyz = tgtSurface->Value( uvNew ); + + // find and move tgt node + TAssocTool::TNodeNodeMap::const_iterator n2n = src2tgtNodes.find( srcNode ); + if ( n2n == src2tgtNodes.end() ) continue; + tgtNode = n2n->second; + tgtMesh->MoveNode( tgtNode, xyz.X(), xyz.Y(), xyz.Z() ); + + if (( pos = dynamic_cast< const SMDS_FacePosition* >( tgtNode->GetPosition() ))) + const_cast( pos )->SetParameters( uvNew.X(), uvNew.Y() ); + + addCloseNodes( srcNode, bmTria, srcFaceID, noTriQueue ); + + // assure that all src nodes are visited + for ( ; iBndSrcN < bndSrcNodes.size() && noTriQueue.empty(); ++iBndSrcN ) + { + const BRepMesh::ListOfInteger & linkIds = triaDS->LinksConnectedTo( iBndSrcN ); + const BRepMesh_PairOfIndex & triaIds = triaDS->ElementsConnectedTo( linkIds.First() ); + const BRepMesh_Triangle& tria = triaDS->GetElement( triaIds.Index(1) ); + addCloseNodes( bndSrcNodes[ iBndSrcN ], &tria, srcFaceID, noTriQueue ); + } + } + return true; + } + + //======================================================================= + /* + * Set initial association of VERTEXes for the case of projection + * from a quadrangle FACE to a closed FACE, where opposite src EDGEs + * have different nb of segments + */ + //======================================================================= - } // bool projectBy2DSimilarity(...) + void initAssoc4Quad2Closed(const TopoDS_Shape& tgtFace, + SMESH_MesherHelper& tgtHelper, + const TopoDS_Shape& srcFace, + SMESH_Mesh* srcMesh, + TAssocTool::TShapeShapeMap & assocMap) + { + if ( !tgtHelper.HasRealSeam() || srcFace.ShapeType() != TopAbs_FACE ) + return; // no seam edge + list< TopoDS_Edge > tgtEdges, srcEdges; + list< int > tgtNbEW, srcNbEW; + int tgtNbW = SMESH_Block::GetOrderedEdges( TopoDS::Face( tgtFace ), tgtEdges, tgtNbEW ); + int srcNbW = SMESH_Block::GetOrderedEdges( TopoDS::Face( srcFace ), srcEdges, srcNbEW ); + if ( tgtNbW != 1 || srcNbW != 1 || + tgtNbEW.front() != 4 || srcNbEW.front() != 4 ) + return; // not quads + + int srcNbSeg[4]; + list< TopoDS_Edge >::iterator edgeS = srcEdges.begin(), edgeT = tgtEdges.begin(); + for ( int i = 0; edgeS != srcEdges.end(); ++i, ++edgeS ) + if ( SMESHDS_SubMesh* sm = srcMesh->GetMeshDS()->MeshElements( *edgeS )) + srcNbSeg[ i ] = sm->NbNodes(); + else + return; // not meshed + if ( srcNbSeg[0] == srcNbSeg[2] && srcNbSeg[1] == srcNbSeg[3] ) + return; // same nb segments + if ( srcNbSeg[0] != srcNbSeg[2] && srcNbSeg[1] != srcNbSeg[3] ) + return; // all different nb segments + + edgeS = srcEdges.begin(); + if ( srcNbSeg[0] != srcNbSeg[2] ) + ++edgeS; + TAssocTool::InsertAssociation( tgtHelper.IthVertex( 0,*edgeT ), + tgtHelper.IthVertex( 0,*edgeS ), assocMap ); + TAssocTool::InsertAssociation( tgtHelper.IthVertex( 1,*edgeT ), + tgtHelper.IthVertex( 1,*edgeS ), assocMap ); + } } // namespace //======================================================================= //function : Compute -//purpose : +//purpose : //======================================================================= bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& theShape) { - MESSAGE("Projection_2D Compute"); + _src2tgtNodes.clear(); + if ( !_sourceHypo ) return false; @@ -791,6 +1449,7 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& srcMesh = tgtMesh; SMESHDS_Mesh * meshDS = theMesh.GetMeshDS(); + SMESH_MesherHelper helper( theMesh ); // --------------------------- // Make sub-shapes association @@ -799,16 +1458,20 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& TopoDS_Face tgtFace = TopoDS::Face( theShape.Oriented(TopAbs_FORWARD)); TopoDS_Shape srcShape = _sourceHypo->GetSourceFace().Oriented(TopAbs_FORWARD); + helper.SetSubShape( tgtFace ); + TAssocTool::TShapeShapeMap shape2ShapeMap; TAssocTool::InitVertexAssociation( _sourceHypo, shape2ShapeMap ); + if ( shape2ShapeMap.IsEmpty() ) + initAssoc4Quad2Closed( tgtFace, helper, srcShape, srcMesh, shape2ShapeMap ); if ( !TAssocTool::FindSubShapeAssociation( tgtFace, tgtMesh, srcShape, srcMesh, shape2ShapeMap) || !shape2ShapeMap.IsBound( tgtFace )) { if ( srcShape.ShapeType() == TopAbs_FACE ) { - int nbE1 = SMESH_MesherHelper::Count( tgtFace, TopAbs_EDGE, /*ignoreSame=*/true ); - int nbE2 = SMESH_MesherHelper::Count( srcShape, TopAbs_EDGE, /*ignoreSame=*/true ); + int nbE1 = helper.Count( tgtFace, TopAbs_EDGE, /*ignoreSame=*/true ); + int nbE2 = helper.Count( srcShape, TopAbs_EDGE, /*ignoreSame=*/true ); if ( nbE1 != nbE2 ) return error(COMPERR_BAD_SHAPE, SMESH_Comment("Different number of edges in source and target faces: ") @@ -841,35 +1504,42 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& // Projection // =========== - // find out if EDGEs are meshed or not - bool is1DComputed = false; - SMESH_subMeshIteratorPtr smIt = tgtSubMesh->getDependsOnIterator(/*includeSelf=*/false, - /*complexShapeFirst=*/true); - while ( smIt->more() && !is1DComputed ) - { - SMESH_subMesh* sm = smIt->next(); - if ( sm->GetSubShape().ShapeType() == TopAbs_EDGE ) - is1DComputed = sm->IsMeshComputed(); - } + // get ordered src and tgt EDGEs + TSideVector srcWires, tgtWires; + bool is1DComputed = false; // if any tgt EDGE is meshed + TError err = getWires( tgtFace, srcFace, tgtMesh, srcMesh, + shape2ShapeMap, srcWires, tgtWires, _src2tgtNodes, is1DComputed ); + if ( err && !err->IsOK() ) + return error( err ); - bool done = false; + bool projDone = false; - if ( !done ) + if ( !projDone ) { // try to project from the same face with different location - done = projectPartner( tgtFace, srcFace, tgtMesh, srcMesh, shape2ShapeMap ); + projDone = projectPartner( tgtFace, srcFace, tgtWires, srcWires, + shape2ShapeMap, _src2tgtNodes, is1DComputed ); } - if ( !done ) + if ( !projDone ) { // projection in case if the faces are similar in 2D space - done = projectBy2DSimilarity( tgtFace, srcFace, tgtMesh, srcMesh, shape2ShapeMap, is1DComputed); + projDone = projectBy2DSimilarity( tgtFace, srcFace, tgtWires, srcWires, + shape2ShapeMap, _src2tgtNodes, is1DComputed ); + } + if ( !projDone ) + { + // projection in case of quadrilateral faces + // NOT IMPLEMENTED, returns false + projDone = projectQuads( tgtFace, srcFace, tgtWires, srcWires, + shape2ShapeMap, _src2tgtNodes, is1DComputed); } - SMESH_MesherHelper helper( theMesh ); - helper.SetSubShape( tgtFace ); + // it will remove mesh built on edges and vertices in failure case + MeshCleaner cleaner( tgtSubMesh ); - if ( !done ) + if ( !projDone ) { + _src2tgtNodes.clear(); // -------------------- // Prepare to mapping // -------------------- @@ -877,20 +1547,22 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& // Check if node projection to a face is needed Bnd_B2d uvBox; SMDS_ElemIteratorPtr faceIt = srcSubMesh->GetSubMeshDS()->GetElements(); - int nbFaceNodes = 0; - for ( ; nbFaceNodes < 3 && faceIt->more(); ) { + set< const SMDS_MeshNode* > faceNodes; + for ( ; faceNodes.size() < 3 && faceIt->more(); ) { const SMDS_MeshElement* face = faceIt->next(); SMDS_ElemIteratorPtr nodeIt = face->nodesIterator(); while ( nodeIt->more() ) { const SMDS_MeshNode* node = static_cast( nodeIt->next() ); - if ( node->GetPosition()->GetTypeOfPosition() == SMDS_TOP_FACE ) { - nbFaceNodes++; + if ( node->GetPosition()->GetTypeOfPosition() == SMDS_TOP_FACE && + faceNodes.insert( node ).second ) uvBox.Add( helper.GetNodeUV( srcFace, node )); - } } } - const bool toProjectNodes = - ( nbFaceNodes > 0 && ( uvBox.IsVoid() || uvBox.SquareExtent() < DBL_MIN )); + bool toProjectNodes = false; + if ( faceNodes.size() == 1 ) + toProjectNodes = ( uvBox.IsVoid() || uvBox.CornerMin().IsEqual( gp_XY(0,0), 1e-12 )); + else if ( faceNodes.size() > 1 ) + toProjectNodes = ( uvBox.IsVoid() || uvBox.SquareExtent() < DBL_MIN ); // Find the corresponding source and target vertex // and flag needed to call mapper.Apply() @@ -898,13 +1570,10 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& TopoDS_Vertex srcV1, tgtV1; bool reverse = false; - if ( _sourceHypo->HasVertexAssociation() ) { - srcV1 = _sourceHypo->GetSourceVertex(1); - tgtV1 = _sourceHypo->GetTargetVertex(1); - } else { - srcV1 = TopoDS::Vertex( TopExp_Explorer( srcFace, TopAbs_VERTEX ).Current() ); - tgtV1 = TopoDS::Vertex( shape2ShapeMap( srcV1, /*isSrc=*/true )); - } + TopExp_Explorer vSrcExp( srcFace, TopAbs_VERTEX ); + srcV1 = TopoDS::Vertex( vSrcExp.Current() ); + tgtV1 = TopoDS::Vertex( shape2ShapeMap( srcV1, /*isSrc=*/true )); + list< TopoDS_Edge > tgtEdges, srcEdges; list< int > nbEdgesInWires; SMESH_Block::GetOrderedEdges( tgtFace, tgtEdges, nbEdgesInWires, tgtV1 ); @@ -916,7 +1585,7 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& TopoDS_Shape srcE1bis = shape2ShapeMap( tgtE1 ); reverse = ( ! srcE1.IsSame( srcE1bis )); if ( reverse && - _sourceHypo->HasVertexAssociation() && + //_sourceHypo->HasVertexAssociation() && nbEdgesInWires.front() > 2 && helper.IsRealSeam( tgtEdges.front() )) { @@ -925,19 +1594,83 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& // we can't use only theReverse flag to correctly associate source // and target faces in the mapper. Thus we select srcV1 so that // GetOrderedEdges() to return EDGEs in a needed order - list< TopoDS_Edge >::iterator edge = srcEdges.begin(); - for ( ; edge != srcEdges.end(); ++edge ) { - if ( srcE1bis.IsSame( *edge )) { - srcV1 = helper.IthVertex( 0, *edge ); - break; + TopoDS_Face tgtFaceBis = tgtFace; + TopTools_MapOfShape checkedVMap( tgtEdges.size() ); + checkedVMap.Add ( srcV1 ); + for ( vSrcExp.Next(); vSrcExp.More(); ) + { + tgtFaceBis.Reverse(); + tgtEdges.clear(); + SMESH_Block::GetOrderedEdges( tgtFaceBis, tgtEdges, nbEdgesInWires, tgtV1 ); + bool ok = true; + list< TopoDS_Edge >::iterator edgeS = srcEdges.begin(), edgeT = tgtEdges.begin(); + for ( ; edgeS != srcEdges.end() && ok ; ++edgeS, ++edgeT ) + ok = edgeT->IsSame( shape2ShapeMap( *edgeS, /*isSrc=*/true )); + if ( ok ) + break; // FOUND! + + reverse = !reverse; + if ( reverse ) + { + vSrcExp.Next(); + while ( vSrcExp.More() && !checkedVMap.Add( vSrcExp.Current() )) + vSrcExp.Next(); + } + else + { + srcV1 = TopoDS::Vertex( vSrcExp.Current() ); + tgtV1 = TopoDS::Vertex( shape2ShapeMap( srcV1, /*isSrc=*/true )); + srcEdges.clear(); + SMESH_Block::GetOrderedEdges( srcFace, srcEdges, nbEdgesInWires, srcV1 ); + } + } + } + // for the case: project to a closed face from a non-closed face w/o vertex assoc; + // avoid projecting to a seam from two EDGEs with different nb nodes on them + // ( test mesh_Projection_2D_01/B1 ) + if ( !_sourceHypo->HasVertexAssociation() && + nbEdgesInWires.front() > 2 && + helper.IsRealSeam( tgtEdges.front() )) + { + TopoDS_Shape srcEdge1 = shape2ShapeMap( tgtEdges.front() ); + list< TopoDS_Edge >::iterator srcEdge2 = + std::find( srcEdges.begin(), srcEdges.end(), srcEdge1); + list< TopoDS_Edge >::iterator srcEdge3 = + std::find( srcEdges.begin(), srcEdges.end(), srcEdge1.Reversed()); + if ( srcEdge2 == srcEdges.end() || srcEdge3 == srcEdges.end() ) // srcEdge1 is not a seam + { + // find srcEdge2 which also will be projected to tgtEdges.front() + for ( srcEdge2 = srcEdges.begin(); srcEdge2 != srcEdges.end(); ++srcEdge2 ) + if ( !srcEdge1.IsSame( *srcEdge2 ) && + tgtEdges.front().IsSame( shape2ShapeMap( *srcEdge2, /*isSrc=*/true ))) + break; + // compare nb nodes on srcEdge1 and srcEdge2 + if ( srcEdge2 != srcEdges.end() ) + { + int nbN1 = 0, nbN2 = 0; + if ( SMESHDS_SubMesh* sm = srcMesh->GetMeshDS()->MeshElements( srcEdge1 )) + nbN1 = sm->NbNodes(); + if ( SMESHDS_SubMesh* sm = srcMesh->GetMeshDS()->MeshElements( *srcEdge2 )) + nbN2 = sm->NbNodes(); + if ( nbN1 != nbN2 ) + srcV1 = helper.IthVertex( 1, srcEdges.front() ); } } } } - else if ( nbEdgesInWires.front() == 1 ) + else if ( nbEdgesInWires.front() == 1 ) // a sole edge in a wire { - // TODO::Compare orientation of curves in a sole edge - //RETURN_BAD_RESULT("Not implemented case"); + TopoDS_Edge srcE1 = srcEdges.front(), tgtE1 = tgtEdges.front(); + for ( size_t iW = 0; iW < srcWires.size(); ++iW ) + { + StdMeshers_FaceSidePtr srcWire = srcWires[iW]; + for ( int iE = 0; iE < srcWire->NbEdges(); ++iE ) + if ( srcE1.IsSame( srcWire->Edge( iE ))) + { + reverse = ( tgtE1.Orientation() != tgtWires[iW]->Edge( iE ).Orientation() ); + break; + } + } } else { @@ -946,19 +1679,22 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& // Load pattern from the source face SMESH_Pattern mapper; - mapper.Load( srcMesh, srcFace, toProjectNodes, srcV1 ); + mapper.Load( srcMesh, srcFace, toProjectNodes, srcV1, /*keepNodes=*/true ); if ( mapper.GetErrorCode() != SMESH_Pattern::ERR_OK ) return error(COMPERR_BAD_INPUT_MESH,"Can't load mesh pattern from the source face"); // -------------------- - // Perform 2D mapping + // Perform 2D mapping // -------------------- // Compute mesh on a target face mapper.Apply( tgtFace, tgtV1, reverse ); - if ( mapper.GetErrorCode() != SMESH_Pattern::ERR_OK ) + if ( mapper.GetErrorCode() != SMESH_Pattern::ERR_OK ) { + // std::ofstream file("/tmp/Pattern.smp" ); + // mapper.Save( file ); return error("Can't apply source mesh pattern to the face"); + } // Create the mesh @@ -967,13 +1703,21 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& if ( mapper.GetErrorCode() != SMESH_Pattern::ERR_OK ) return error("Can't make mesh by source mesh pattern"); - // it will remove mesh built by pattern mapper on edges and vertices - // in failure case - MeshCleaner cleaner( tgtSubMesh ); + // fill _src2tgtNodes + std::vector< const SMDS_MeshNode* > *srcNodes, *tgtNodes; + mapper.GetInOutNodes( srcNodes, tgtNodes ); + size_t nbN = std::min( srcNodes->size(), tgtNodes->size() ); + for ( size_t i = 0; i < nbN; ++i ) + if ( (*srcNodes)[i] && (*tgtNodes)[i] ) + _src2tgtNodes.insert( make_pair( (*srcNodes)[i], (*tgtNodes)[i] )); + + } // end of projection using Pattern mapping + + { // ------------------------------------------------------------------------- // mapper doesn't take care of nodes already existing on edges and vertices, - // so we must merge nodes created by it with existing ones + // so we must merge nodes created by it with existing ones // ------------------------------------------------------------------------- SMESH_MeshEditor::TListOfListOfNodes groupsOfNodes; @@ -981,7 +1725,8 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& // Make groups of nodes to merge // loop on EDGE and VERTEX sub-meshes of a target FACE - smIt = tgtSubMesh->getDependsOnIterator(/*includeSelf=*/false,/*complexShapeFirst=*/false); + SMESH_subMeshIteratorPtr smIt = tgtSubMesh->getDependsOnIterator(/*includeSelf=*/false, + /*complexShapeFirst=*/false); while ( smIt->more() ) { SMESH_subMesh* sm = smIt->next(); @@ -989,7 +1734,7 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& if ( !smDS || smDS->NbNodes() == 0 ) continue; //if ( !is1DComputed && sm->GetSubShape().ShapeType() == TopAbs_EDGE ) - //break; + // break; if ( helper.IsDegenShape( sm->GetId() ) ) // to merge all nodes on degenerated { @@ -1009,7 +1754,7 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& continue; // do not treat sm of degen VERTEX } - // Sort new and old nodes of a submesh separately + // Sort new and old nodes of a sub-mesh separately bool isSeam = helper.IsRealSeam( sm->GetId() ); @@ -1079,8 +1824,8 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& u2nodesOnSeam.size() > 0 && seam.ShapeType() == TopAbs_EDGE ) { - int nbE1 = SMESH_MesherHelper::Count( tgtFace, TopAbs_EDGE, /*ignoreSame=*/true ); - int nbE2 = SMESH_MesherHelper::Count( srcFace, TopAbs_EDGE, /*ignoreSame=*/true ); + int nbE1 = helper.Count( tgtFace, TopAbs_EDGE, /*ignoreSame=*/true ); + int nbE2 = helper.Count( srcFace, TopAbs_EDGE, /*ignoreSame=*/true ); if ( nbE1 != nbE2 ) // 2 EDGEs are mapped to a seam EDGE { // find the 2 EDGEs of srcFace @@ -1133,6 +1878,7 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& // The mapper can't create quadratic elements, so convert if needed // ---------------------------------------------------------------- + SMDS_ElemIteratorPtr faceIt; faceIt = srcSubMesh->GetSubMeshDS()->GetElements(); bool srcIsQuad = faceIt->next()->IsQuadratic(); faceIt = tgtSubMesh->GetSubMeshDS()->GetElements(); @@ -1146,12 +1892,22 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& editor.ConvertToQuadratic(/*theForce3d=*/false, tgtFaces, false); } + } // end of coincident nodes and quadratic elements treatment - cleaner.Release(); // not to remove mesh - - } // end of projection using Pattern mapping + if ( !projDone || is1DComputed ) + // ---------------------------------------------------------------- + // The mapper can create distorted faces by placing nodes out of the FACE + // boundary, also bad face can be created if EDGEs already discretized + // --> fix bad faces by smoothing + // ---------------------------------------------------------------- + if ( helper.IsDistorted2D( tgtSubMesh, /*checkUV=*/false )) + { + morph( helper, tgtFace, srcFace, tgtWires, srcWires, _src2tgtNodes ); + if ( !fixDistortedFaces( helper, tgtWires )) + return error("Invalid mesh generated"); + } // --------------------------- // Check elements orientation // --------------------------- @@ -1197,6 +1953,8 @@ bool StdMeshers_Projection_2D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& } } + cleaner.Release(); // not to remove mesh + return true; }