X-Git-Url: http://git.salome-platform.org/gitweb/?p=modules%2Fsmesh.git;a=blobdiff_plain;f=src%2FStdMeshers%2FStdMeshers_Regular_1D.cxx;h=8f4a105477fd31c27c64093c0b7830158d7fedb7;hp=c414e51f4229f55c391cd86b29e2c00400cce3a8;hb=145e217ae6852460e3f461e22fe34cf6bc15fc36;hpb=3369d458eaf2f08db6e32b75609679f06771a5cb diff --git a/src/StdMeshers/StdMeshers_Regular_1D.cxx b/src/StdMeshers/StdMeshers_Regular_1D.cxx index c414e51f4..8f4a10547 100644 --- a/src/StdMeshers/StdMeshers_Regular_1D.cxx +++ b/src/StdMeshers/StdMeshers_Regular_1D.cxx @@ -1,4 +1,4 @@ -// Copyright (C) 2007-2015 CEA/DEN, EDF R&D, OPEN CASCADE +// Copyright (C) 2007-2016 CEA/DEN, EDF R&D, OPEN CASCADE // // Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN, // CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS @@ -29,6 +29,7 @@ #include "SMDS_MeshElement.hxx" #include "SMDS_MeshNode.hxx" +#include "SMESHDS_Mesh.hxx" #include "SMESH_Comment.hxx" #include "SMESH_Gen.hxx" #include "SMESH_HypoFilter.hxx" @@ -37,8 +38,8 @@ #include "SMESH_subMeshEventListener.hxx" #include "StdMeshers_Adaptive1D.hxx" #include "StdMeshers_Arithmetic1D.hxx" -#include "StdMeshers_Geometric1D.hxx" #include "StdMeshers_AutomaticLength.hxx" +#include "StdMeshers_Geometric1D.hxx" #include "StdMeshers_Deflection1D.hxx" #include "StdMeshers_Distribution.hxx" #include "StdMeshers_FixedPoints1D.hxx" @@ -72,15 +73,15 @@ using namespace StdMeshers; //============================================================================= /*! - * + * */ //============================================================================= -StdMeshers_Regular_1D::StdMeshers_Regular_1D(int hypId, int studyId, +StdMeshers_Regular_1D::StdMeshers_Regular_1D(int hypId, + int studyId, SMESH_Gen * gen) - :SMESH_1D_Algo(hypId, studyId, gen) + :SMESH_1D_Algo( hypId, studyId, gen ) { - MESSAGE("StdMeshers_Regular_1D::StdMeshers_Regular_1D"); _name = "Regular_1D"; _shapeType = (1 << TopAbs_EDGE); _fpHyp = 0; @@ -155,7 +156,7 @@ bool StdMeshers_Regular_1D::CheckHypothesis( SMESH_Mesh& aMesh, string hypName = theHyp->GetName(); - if (hypName == "LocalLength") + if ( hypName == "LocalLength" ) { const StdMeshers_LocalLength * hyp = dynamic_cast (theHyp); @@ -167,7 +168,7 @@ bool StdMeshers_Regular_1D::CheckHypothesis( SMESH_Mesh& aMesh, aStatus = SMESH_Hypothesis::HYP_OK; } - else if (hypName == "MaxLength") + else if ( hypName == "MaxLength" ) { const StdMeshers_MaxLength * hyp = dynamic_cast (theHyp); @@ -182,7 +183,7 @@ bool StdMeshers_Regular_1D::CheckHypothesis( SMESH_Mesh& aMesh, aStatus = SMESH_Hypothesis::HYP_OK; } - else if (hypName == "NumberOfSegments") + else if ( hypName == "NumberOfSegments" ) { const StdMeshers_NumberOfSegments * hyp = dynamic_cast (theHyp); @@ -217,7 +218,7 @@ bool StdMeshers_Regular_1D::CheckHypothesis( SMESH_Mesh& aMesh, aStatus = SMESH_Hypothesis::HYP_OK; } - else if (hypName == "Arithmetic1D") + else if ( hypName == "Arithmetic1D" ) { const StdMeshers_Arithmetic1D * hyp = dynamic_cast (theHyp); @@ -232,7 +233,7 @@ bool StdMeshers_Regular_1D::CheckHypothesis( SMESH_Mesh& aMesh, aStatus = SMESH_Hypothesis::HYP_OK; } - else if (hypName == "GeometricProgression") + else if ( hypName == "GeometricProgression" ) { const StdMeshers_Geometric1D * hyp = dynamic_cast (theHyp); @@ -247,7 +248,7 @@ bool StdMeshers_Regular_1D::CheckHypothesis( SMESH_Mesh& aMesh, aStatus = SMESH_Hypothesis::HYP_OK; } - else if (hypName == "FixedPoints1D") { + else if ( hypName == "FixedPoints1D" ) { _fpHyp = dynamic_cast (theHyp); ASSERT(_fpHyp); _hypType = FIXED_POINTS_1D; @@ -257,7 +258,7 @@ bool StdMeshers_Regular_1D::CheckHypothesis( SMESH_Mesh& aMesh, aStatus = SMESH_Hypothesis::HYP_OK; } - else if (hypName == "StartEndLength") + else if ( hypName == "StartEndLength" ) { const StdMeshers_StartEndLength * hyp = dynamic_cast (theHyp); @@ -272,7 +273,7 @@ bool StdMeshers_Regular_1D::CheckHypothesis( SMESH_Mesh& aMesh, aStatus = SMESH_Hypothesis::HYP_OK; } - else if (hypName == "Deflection1D") + else if ( hypName == "Deflection1D" ) { const StdMeshers_Deflection1D * hyp = dynamic_cast (theHyp); @@ -283,7 +284,7 @@ bool StdMeshers_Regular_1D::CheckHypothesis( SMESH_Mesh& aMesh, aStatus = SMESH_Hypothesis::HYP_OK; } - else if (hypName == "AutomaticLength") + else if ( hypName == "AutomaticLength" ) { StdMeshers_AutomaticLength * hyp = const_cast (dynamic_cast (theHyp)); @@ -293,7 +294,7 @@ bool StdMeshers_Regular_1D::CheckHypothesis( SMESH_Mesh& aMesh, _hypType = MAX_LENGTH; aStatus = SMESH_Hypothesis::HYP_OK; } - else if (hypName == "Adaptive1D") + else if ( hypName == "Adaptive1D" ) { _adaptiveHyp = dynamic_cast < const StdMeshers_Adaptive1D* >(theHyp); ASSERT(_adaptiveHyp); @@ -343,47 +344,37 @@ bool StdMeshers_Regular_1D::CheckHypothesis( SMESH_Mesh& aMesh, return ( aStatus == SMESH_Hypothesis::HYP_OK ); } -static bool computeParamByFunc(Adaptor3d_Curve& C3d, double first, double last, - double length, bool theReverse, - int nbSeg, Function& func, +static bool computeParamByFunc(Adaptor3d_Curve& C3d, + double first, double last, double length, + bool theReverse, int nbSeg, Function& func, list& theParams) { // never do this way //OSD::SetSignal( true ); - if (nbSeg <= 0) + if ( nbSeg <= 0 ) return false; - MESSAGE( "computeParamByFunc" ); - int nbPnt = 1 + nbSeg; - vector x(nbPnt, 0.); + vector x( nbPnt, 0. ); - if (!buildDistribution(func, 0.0, 1.0, nbSeg, x, 1E-4)) + if ( !buildDistribution( func, 0.0, 1.0, nbSeg, x, 1E-4 )) return false; - MESSAGE( "Points:\n" ); - char buf[1024]; - for ( int i=0; i<=nbSeg; i++ ) - { - sprintf( buf, "%f\n", float(x[i] ) ); - MESSAGE( buf ); - } - - - // apply parameters in range [0,1] to the space of the curve double prevU = first; - double sign = 1.; - if (theReverse) + double sign = 1.; + if ( theReverse ) { prevU = last; - sign = -1.; + sign = -1.; } - for( int i = 1; i < nbSeg; i++ ) + + for ( int i = 1; i < nbSeg; i++ ) { double curvLength = length * (x[i] - x[i-1]) * sign; - GCPnts_AbscissaPoint Discret( C3d, curvLength, prevU ); + double tol = Min( Precision::Confusion(), curvLength / 100. ); + GCPnts_AbscissaPoint Discret( tol, C3d, curvLength, prevU ); if ( !Discret.IsDone() ) return false; double U = Discret.Parameter(); @@ -425,16 +416,17 @@ static void compensateError(double a1, double an, if ( a1 + an <= length && nPar > 1 ) { bool reverse = ( U1 > Un ); - GCPnts_AbscissaPoint Discret(C3d, reverse ? an : -an, Un); + double tol = Min( Precision::Confusion(), 0.01 * an ); + GCPnts_AbscissaPoint Discret( tol, C3d, reverse ? an : -an, Un ); if ( !Discret.IsDone() ) return; double Utgt = Discret.Parameter(); // target value of the last parameter list::reverse_iterator itU = theParams.rbegin(); double Ul = *itU++; // real value of the last parameter double dUn = Utgt - Ul; // parametric error of - if ( Abs(dUn) <= Precision::Confusion() ) - return; double dU = Abs( Ul - *itU ); // parametric length of the last but one segment + if ( Abs(dUn) <= 1e-3 * dU ) + return; if ( adjustNeighbors2an || Abs(dUn) < 0.5 * dU ) { // last segment is a bit shorter than it should // move the last parameter to the edge beginning } @@ -605,7 +597,8 @@ void StdMeshers_Regular_1D::redistributeNearVertices (SMESH_Mesh & theM { if ( !isEnd1 ) vertexLength = -vertexLength; - GCPnts_AbscissaPoint Discret(theC3d, vertexLength, l); + double tol = Min( Precision::Confusion(), 0.01 * vertexLength ); + GCPnts_AbscissaPoint Discret( tol, theC3d, vertexLength, l ); if ( Discret.IsDone() ) { if ( nPar == 0 ) theParameters.push_back( Discret.Parameter()); @@ -694,7 +687,6 @@ bool StdMeshers_Regular_1D::computeInternalParameters(SMESH_Mesh & theMesh, if ( ! SMESH_Algo::GetSortedNodesOnEdge( theMesh.GetMeshDS(), mainEdge, _quadraticMesh, mainEdgeParamsOfNodes, SMDSAbs_Edge )) return error("Bad node parameters on the source edge of Propagation Of Distribution"); - vector< double > segLen( mainEdgeParamsOfNodes.size() - 1 ); double totalLen = 0; BRepAdaptor_Curve mainEdgeCurve( mainEdge ); @@ -716,14 +708,15 @@ bool StdMeshers_Regular_1D::computeInternalParameters(SMESH_Mesh & theMesh, size_t nbParams = 0; for ( int i = 0, nb = segLen.size()-1; i < nb; ++i, iSeg += dSeg ) { - GCPnts_AbscissaPoint Discret( theC3d, segLen[ iSeg ], param ); + double tol = Min( Precision::Confusion(), 0.01 * segLen[ iSeg ]); + GCPnts_AbscissaPoint Discret( tol, theC3d, segLen[ iSeg ], param ); if ( !Discret.IsDone() ) break; param = Discret.Parameter(); theParams.push_back( param ); ++nbParams; } if ( nbParams != segLen.size()-1 ) - return error( SMESH_Comment("Can't divide into ") << segLen.size() << " segements"); + return error( SMESH_Comment("Can't divide into ") << segLen.size() << " segments"); compensateError( segLen[ theReverse ? segLen.size()-1 : 0 ], segLen[ theReverse ? 0 : segLen.size()-1 ], @@ -736,16 +729,16 @@ bool StdMeshers_Regular_1D::computeInternalParameters(SMESH_Mesh & theMesh, { case LOCAL_LENGTH: case MAX_LENGTH: - case NB_SEGMENTS: { - + case NB_SEGMENTS: + { double eltSize = 1; int nbSegments; if ( _hypType == MAX_LENGTH ) { double nbseg = ceil(theLength / _value[ BEG_LENGTH_IND ]); // integer sup if (nbseg <= 0) - nbseg = 1; // degenerated edge - eltSize = theLength / nbseg; + nbseg = 1; // degenerated edge + eltSize = theLength / nbseg * ( 1. - 1e-9 ); nbSegments = (int) nbseg; } else if ( _hypType == LOCAL_LENGTH ) @@ -769,7 +762,7 @@ bool StdMeshers_Regular_1D::computeInternalParameters(SMESH_Mesh & theMesh, } if (computed) { SMESHDS_SubMesh* smds = sm->GetSubMeshDS(); - int nb_segments = smds->NbElements(); + int nb_segments = smds->NbElements(); if (nbseg - 1 <= nb_segments && nb_segments <= nbseg + 1) { isFound = true; nbseg = nb_segments; @@ -813,7 +806,7 @@ bool StdMeshers_Regular_1D::computeInternalParameters(SMESH_Mesh & theMesh, if ( theReverse ) scale = 1.0 / scale; - double alpha = pow(scale, 1.0 / (nbSegments - 1)); + double alpha = pow(scale, 1.0 / (nbSegments - 1)); double factor = (l - f) / (1.0 - pow(alpha, nbSegments)); for (int i = 1; i < nbSegments; i++) { @@ -822,10 +815,12 @@ bool StdMeshers_Regular_1D::computeInternalParameters(SMESH_Mesh & theMesh, } } const double lenFactor = theLength/(l-f); + const double minSegLen = Min( theParams.front() - f, l - theParams.back() ); + const double tol = Min( Precision::Confusion(), 0.01 * minSegLen ); list::iterator u = theParams.begin(), uEnd = theParams.end(); for ( ; u != uEnd; ++u ) { - GCPnts_AbscissaPoint Discret( theC3d, ((*u)-f) * lenFactor, f ); + GCPnts_AbscissaPoint Discret( tol, theC3d, ((*u)-f) * lenFactor, f ); if ( Discret.IsDone() ) *u = Discret.Parameter(); } @@ -855,9 +850,13 @@ bool StdMeshers_Regular_1D::computeInternalParameters(SMESH_Mesh & theMesh, return false; } } - GCPnts_UniformAbscissa Discret(theC3d, eltSize, f, l); + + double tol = Min( Precision::Confusion(), 0.01 * eltSize ); + GCPnts_UniformAbscissa Discret(theC3d, nbSegments + 1, f, l, tol ); if ( !Discret.IsDone() ) return error( "GCPnts_UniformAbscissa failed"); + if ( Discret.NbPoints() < nbSegments + 1 ) + Discret.Initialize(theC3d, nbSegments + 2, f, l, tol ); int NbPoints = Min( Discret.NbPoints(), nbSegments + 1 ); for ( int i = 2; i < NbPoints; i++ ) // skip 1st and last points @@ -869,6 +868,7 @@ bool StdMeshers_Regular_1D::computeInternalParameters(SMESH_Mesh & theMesh, return true; } + case BEG_END_LENGTH: { // geometric progression: SUM(n) = ( a1 - an * q ) / ( 1 - q ) = theLength @@ -880,14 +880,15 @@ bool StdMeshers_Regular_1D::computeInternalParameters(SMESH_Mesh & theMesh, return error ( SMESH_Comment("Invalid segment lengths (")< at the distance // from the point of parameter . - GCPnts_AbscissaPoint Discret( theC3d, eltSize, param ); + GCPnts_AbscissaPoint Discret( tol, theC3d, eltSize, param ); if ( !Discret.IsDone() ) break; param = Discret.Parameter(); if ( f < param && param < l ) @@ -901,23 +902,24 @@ bool StdMeshers_Regular_1D::computeInternalParameters(SMESH_Mesh & theMesh, return true; } - case ARITHMETIC_1D: { - + case ARITHMETIC_1D: + { // arithmetic progression: SUM(n) = ( an - a1 + q ) * ( a1 + an ) / ( 2 * q ) = theLength double a1 = _value[ BEG_LENGTH_IND ]; double an = _value[ END_LENGTH_IND ]; - if ( 1.01*theLength < a1 + an) + if ( 1.01*theLength < a1 + an ) return error ( SMESH_Comment("Invalid segment lengths (")< numeric_limits::min() ? ( 1+( an-a1 )/q ) : ( 1+theLength/a1 )); + double q = ( an - a1 ) / ( 2 *theLength/( a1 + an ) - 1 ); + int n = int(fabs(q) > numeric_limits::min() ? ( 1+( an-a1 )/q ) : ( 1+theLength/a1 )); - double U1 = theReverse ? l : f; - double Un = theReverse ? f : l; - double param = U1; + double U1 = theReverse ? l : f; + double Un = theReverse ? f : l; + double param = U1; double eltSize = a1; + double tol = Min( Precision::Confusion(), 0.01 * Min( a1, an )); if ( theReverse ) { eltSize = -eltSize; q = -q; @@ -925,7 +927,7 @@ bool StdMeshers_Regular_1D::computeInternalParameters(SMESH_Mesh & theMesh, while ( n-- > 0 && eltSize * ( Un - U1 ) > 0 ) { // computes a point on a curve at the distance // from the point of parameter . - GCPnts_AbscissaPoint Discret( theC3d, eltSize, param ); + GCPnts_AbscissaPoint Discret( tol, theC3d, eltSize, param ); if ( !Discret.IsDone() ) break; param = Discret.Parameter(); if ( param > f && param < l ) @@ -935,14 +937,14 @@ bool StdMeshers_Regular_1D::computeInternalParameters(SMESH_Mesh & theMesh, eltSize += q; } compensateError( a1, an, U1, Un, theLength, theC3d, theParams ); - if (theReverse) theParams.reverse(); // NPAL18025 + if ( theReverse ) theParams.reverse(); // NPAL18025 return true; } - case GEOMETRIC_1D: { - - double a1 = _value[ BEG_LENGTH_IND ], an; + case GEOMETRIC_1D: + { + double a1 = _value[ BEG_LENGTH_IND ], an = 0; double q = _value[ END_LENGTH_IND ]; double U1 = theReverse ? l : f; @@ -956,7 +958,8 @@ bool StdMeshers_Regular_1D::computeInternalParameters(SMESH_Mesh & theMesh, while ( true ) { // computes a point on a curve at the distance // from the point of parameter . - GCPnts_AbscissaPoint Discret( theC3d, eltSize, param ); + double tol = Min( Precision::Confusion(), 0.01 * eltSize ); + GCPnts_AbscissaPoint Discret( tol, theC3d, eltSize, param ); if ( !Discret.IsDone() ) break; param = Discret.Parameter(); if ( f < param && param < l ) @@ -985,111 +988,88 @@ bool StdMeshers_Regular_1D::computeInternalParameters(SMESH_Mesh & theMesh, return true; } - case FIXED_POINTS_1D: { + case FIXED_POINTS_1D: + { const std::vector& aPnts = _fpHyp->GetPoints(); - const std::vector& nbsegs = _fpHyp->GetNbSegments(); + std::vector nbsegs = _fpHyp->GetNbSegments(); + if ( theReverse ) + std::reverse( nbsegs.begin(), nbsegs.end() ); + + // sort normalized params, taking into account theReverse TColStd_SequenceOfReal Params; + double tol = 1e-7 / theLength; // GCPnts_UniformAbscissa allows u2-u1 > 1e-7 for ( size_t i = 0; i < aPnts.size(); i++ ) { - if( aPnts[i]<0.0001 || aPnts[i]>0.9999 ) continue; - int j=1; + if( aPnts[i] < tol || aPnts[i] > 1 - tol ) + continue; + double u = theReverse ? ( 1 - aPnts[i] ) : aPnts[i]; + int j = 1; bool IsExist = false; - for(; j<=Params.Length(); j++) { - if( fabs(aPnts[i]-Params.Value(j)) < 1e-4 ) { + for ( ; j <= Params.Length(); j++ ) { + if ( Abs( u - Params.Value(j) ) < tol ) { IsExist = true; break; } - if( aPnts[i] uVec( Params.Length() + 2 ); + uVec[ 0 ] = theFirstU; + double abscissa; + for ( int i = 1; i <= Params.Length(); i++ ) { - int nbseg = ( i > (int)nbsegs.size()-1 ) ? nbsegs[0] : nbsegs[i]; - segmentSize = Params.Value(i+1)*theLength - currAbscissa; - currAbscissa += segmentSize; - GCPnts_AbscissaPoint APnt(theC3d, sign*segmentSize, par1); - if( !APnt.IsDone() ) + abscissa = Params( i ) * theLength; + tol = Min( Precision::Confusion(), 0.01 * abscissa ); + GCPnts_AbscissaPoint APnt( tol, theC3d, abscissa, theFirstU ); + if ( !APnt.IsDone() ) return error( "GCPnts_AbscissaPoint failed"); - par2 = APnt.Parameter(); - eltSize = segmentSize/nbseg; - GCPnts_UniformAbscissa Discret(theC3d, eltSize, par1, par2); - if(theReverse) - Discret.Initialize(theC3d, eltSize, par2, par1); - else - Discret.Initialize(theC3d, eltSize, par1, par2); - if ( !Discret.IsDone() ) - return error( "GCPnts_UniformAbscissa failed"); - int NbPoints = Discret.NbPoints(); - list tmpParams; - for(int i=2; i::iterator itP = tmpParams.begin(); - for(; itP != tmpParams.end(); itP++) { - theParams.push_back( *(itP) ); + else + { + segmentSize = ( Params( i+2 ) - Params( i+1 )) * theLength; + eltSize = segmentSize / nbseg; + tol = Min( Precision::Confusion(), 0.01 * eltSize ); + GCPnts_UniformAbscissa Discret( theC3d, eltSize, par1, par2, tol ); + if ( !Discret.IsDone() ) + return error( "GCPnts_UniformAbscissa failed"); + if ( Discret.NbPoints() < nbseg + 1 ) { + eltSize = segmentSize / ( nbseg + 0.5 ); + Discret.Initialize( theC3d, eltSize, par1, par2, tol ); + } + int NbPoints = Discret.NbPoints(); + for ( int i = 2; i <= NbPoints; i++ ) { + double param = Discret.Parameter(i); + theParams.push_back( param ); + } } - theParams.push_back( par2 ); - - par1 = par2; - } - // add for last - int nbseg = ( (int)nbsegs.size() > Params.Length() ) ? nbsegs[Params.Length()] : nbsegs[0]; - segmentSize = theLength - currAbscissa; - eltSize = segmentSize/nbseg; - GCPnts_UniformAbscissa Discret; - if(theReverse) - Discret.Initialize(theC3d, eltSize, par1, lp); - else - Discret.Initialize(theC3d, eltSize, lp, par1); - if ( !Discret.IsDone() ) - return error( "GCPnts_UniformAbscissa failed"); - int NbPoints = Discret.NbPoints(); - list tmpParams; - for(int i=2; i::iterator itP = tmpParams.begin(); - for(; itP != tmpParams.end(); itP++) { - theParams.push_back( *(itP) ); } + theParams.pop_back(); - if (theReverse) { - theParams.reverse(); // NPAL18025 - } return true; } - case DEFLECTION: { - - GCPnts_UniformDeflection Discret(theC3d, _value[ DEFLECTION_IND ], f, l, true); + case DEFLECTION: + { + GCPnts_UniformDeflection Discret( theC3d, _value[ DEFLECTION_IND ], f, l, true ); if ( !Discret.IsDone() ) return false; @@ -1140,15 +1120,14 @@ bool StdMeshers_Regular_1D::Compute(SMESH_Mesh & theMesh, const TopoDS_Shape & t ASSERT(!VFirst.IsNull()); ASSERT(!VLast.IsNull()); - const SMDS_MeshNode * idFirst = SMESH_Algo::VertexNode( VFirst, meshDS ); - const SMDS_MeshNode * idLast = SMESH_Algo::VertexNode( VLast, meshDS ); - if (!idFirst || !idLast) + const SMDS_MeshNode * nFirst = SMESH_Algo::VertexNode( VFirst, meshDS ); + const SMDS_MeshNode * nLast = SMESH_Algo::VertexNode( VLast, meshDS ); + if ( !nFirst || !nLast ) return error( COMPERR_BAD_INPUT_MESH, "No node on vertex"); // remove elements created by e.g. patern mapping (PAL21999) // CLEAN event is incorrectly ptopagated seemingly due to Propagation hyp // so TEMPORARY solution is to clean the submesh manually - //theMesh.GetSubMesh(theShape)->ComputeStateEngine( SMESH_subMesh::CLEAN ); if (SMESHDS_SubMesh * subMeshDS = meshDS->MeshElements(theShape)) { SMDS_ElemIteratorPtr ite = subMeshDS->GetElements(); @@ -1164,11 +1143,12 @@ bool StdMeshers_Regular_1D::Compute(SMESH_Mesh & theMesh, const TopoDS_Shape & t } } - if (!Curve.IsNull()) + double length = EdgeLength( E ); + if ( !Curve.IsNull() && length > 0 ) { list< double > params; bool reversed = false; - if ( theMesh.GetShapeToMesh().ShapeType() >= TopAbs_WIRE ) { + if ( theMesh.GetShapeToMesh().ShapeType() >= TopAbs_WIRE && _revEdgesIDs.empty() ) { // if the shape to mesh is WIRE or EDGE reversed = ( EE.Orientation() == TopAbs_REVERSED ); } @@ -1187,7 +1167,6 @@ bool StdMeshers_Regular_1D::Compute(SMESH_Mesh & theMesh, const TopoDS_Shape & t reversed = !reversed; BRepAdaptor_Curve C3d( E ); - double length = EdgeLength( E ); if ( ! computeInternalParameters( theMesh, C3d, length, f, l, params, reversed, true )) { return false; } @@ -1196,19 +1175,10 @@ bool StdMeshers_Regular_1D::Compute(SMESH_Mesh & theMesh, const TopoDS_Shape & t // edge extrema (indexes : 1 & NbPoints) already in SMDS (TopoDS_Vertex) // only internal nodes receive an edge position with param on curve - const SMDS_MeshNode * idPrev = idFirst; + const SMDS_MeshNode * nPrev = nFirst; double parPrev = f; double parLast = l; - /* NPAL18025 - if (reversed) { - idPrev = idLast; - idLast = idFirst; - idFirst = idPrev; - parPrev = l; - parLast = f; - } - */ for (list::iterator itU = params.begin(); itU != params.end(); itU++) { double param = *itU; gp_Pnt P = Curve->Value(param); @@ -1220,18 +1190,18 @@ bool StdMeshers_Regular_1D::Compute(SMESH_Mesh & theMesh, const TopoDS_Shape & t if(_quadraticMesh) { // create medium node double prm = ( parPrev + param )/2; - gp_Pnt PM = Curve->Value(prm); + gp_Pnt PM = Curve->Value(prm); SMDS_MeshNode * NM = meshDS->AddNode(PM.X(), PM.Y(), PM.Z()); meshDS->SetNodeOnEdge(NM, shapeID, prm); - SMDS_MeshEdge * edge = meshDS->AddEdge(idPrev, node, NM); + SMDS_MeshEdge * edge = meshDS->AddEdge(nPrev, node, NM); meshDS->SetMeshElementOnShape(edge, shapeID); } else { - SMDS_MeshEdge * edge = meshDS->AddEdge(idPrev, node); + SMDS_MeshEdge * edge = meshDS->AddEdge(nPrev, node); meshDS->SetMeshElementOnShape(edge, shapeID); } - idPrev = node; + nPrev = node; parPrev = param; } if(_quadraticMesh) { @@ -1239,18 +1209,16 @@ bool StdMeshers_Regular_1D::Compute(SMESH_Mesh & theMesh, const TopoDS_Shape & t gp_Pnt PM = Curve->Value(prm); SMDS_MeshNode * NM = meshDS->AddNode(PM.X(), PM.Y(), PM.Z()); meshDS->SetNodeOnEdge(NM, shapeID, prm); - SMDS_MeshEdge * edge = meshDS->AddEdge(idPrev, idLast, NM); + SMDS_MeshEdge * edge = meshDS->AddEdge(nPrev, nLast, NM); meshDS->SetMeshElementOnShape(edge, shapeID); } else { - SMDS_MeshEdge* edge = meshDS->AddEdge(idPrev, idLast); + SMDS_MeshEdge* edge = meshDS->AddEdge(nPrev, nLast); meshDS->SetMeshElementOnShape(edge, shapeID); } } else { - //MESSAGE("************* Degenerated edge! *****************"); - // Edge is a degenerated Edge : We put n = 5 points on the edge. const int NbPoints = 5; BRep_Tool::Range( E, f, l ); // PAL15185 @@ -1258,7 +1226,7 @@ bool StdMeshers_Regular_1D::Compute(SMESH_Mesh & theMesh, const TopoDS_Shape & t gp_Pnt P = BRep_Tool::Pnt(VFirst); - const SMDS_MeshNode * idPrev = idFirst; + const SMDS_MeshNode * nPrev = nFirst; for (int i = 2; i < NbPoints; i++) { double param = f + (i - 1) * du; SMDS_MeshNode * node = meshDS->AddNode(P.X(), P.Y(), P.Z()); @@ -1267,26 +1235,26 @@ bool StdMeshers_Regular_1D::Compute(SMESH_Mesh & theMesh, const TopoDS_Shape & t double prm = param - du/2.; SMDS_MeshNode * NM = meshDS->AddNode(P.X(), P.Y(), P.Z()); meshDS->SetNodeOnEdge(NM, shapeID, prm); - SMDS_MeshEdge * edge = meshDS->AddEdge(idPrev, node, NM); + SMDS_MeshEdge * edge = meshDS->AddEdge(nPrev, node, NM); meshDS->SetMeshElementOnShape(edge, shapeID); } else { - SMDS_MeshEdge * edge = meshDS->AddEdge(idPrev, node); + SMDS_MeshEdge * edge = meshDS->AddEdge(nPrev, node); meshDS->SetMeshElementOnShape(edge, shapeID); } meshDS->SetNodeOnEdge(node, shapeID, param); - idPrev = node; + nPrev = node; } if(_quadraticMesh) { // create medium node double prm = l - du/2.; SMDS_MeshNode * NM = meshDS->AddNode(P.X(), P.Y(), P.Z()); meshDS->SetNodeOnEdge(NM, shapeID, prm); - SMDS_MeshEdge * edge = meshDS->AddEdge(idPrev, idLast, NM); + SMDS_MeshEdge * edge = meshDS->AddEdge(nPrev, nLast, NM); meshDS->SetMeshElementOnShape(edge, shapeID); } else { - SMDS_MeshEdge * edge = meshDS->AddEdge(idPrev, idLast); + SMDS_MeshEdge * edge = meshDS->AddEdge(nPrev, nLast); meshDS->SetMeshElementOnShape(edge, shapeID); } } @@ -1328,11 +1296,11 @@ bool StdMeshers_Regular_1D::Evaluate(SMESH_Mesh & theMesh, std::vector aVec(SMDSEntity_Last,0); - if (!Curve.IsNull()) { + double length = EdgeLength( E ); + if ( !Curve.IsNull() && length > 0 ) + { list< double > params; - BRepAdaptor_Curve C3d( E ); - double length = EdgeLength( E ); if ( ! computeInternalParameters( theMesh, C3d, length, f, l, params, false, true )) { SMESH_subMesh * sm = theMesh.GetSubMesh(theShape); aResMap.insert(std::make_pair(sm,aVec)); @@ -1350,12 +1318,11 @@ bool StdMeshers_Regular_1D::Evaluate(SMESH_Mesh & theMesh, aVec[SMDSEntity_Node] = params.size(); aVec[SMDSEntity_Edge] = params.size() + 1; } - + } else { - //MESSAGE("************* Degenerated edge! *****************"); // Edge is a degenerated Edge : We put n = 5 points on the edge. - if(_quadraticMesh) { + if ( _quadraticMesh ) { aVec[SMDSEntity_Node] = 11; aVec[SMDSEntity_Quad_Edge] = 6; }