X-Git-Url: http://git.salome-platform.org/gitweb/?a=blobdiff_plain;f=src%2FStdMeshers%2FStdMeshers_ViscousLayers.cxx;fp=src%2FStdMeshers%2FStdMeshers_ViscousLayers.cxx;h=552995128d3977846adb1a1b7fcbdb31d2eecdb3;hb=254c02d6e18d97df01ad6840336af9420522480b;hp=fa4853668d343c773397d41e15204a78b3aa44b7;hpb=9fafe89051529cc7c757b7da496727334a2d7f70;p=modules%2Fsmesh.git diff --git a/src/StdMeshers/StdMeshers_ViscousLayers.cxx b/src/StdMeshers/StdMeshers_ViscousLayers.cxx index fa4853668..552995128 100644 --- a/src/StdMeshers/StdMeshers_ViscousLayers.cxx +++ b/src/StdMeshers/StdMeshers_ViscousLayers.cxx @@ -3038,6 +3038,7 @@ void _ViscousBuilder::limitStepSizeByCurvature( _SolidData& data ) cnvFace._face = F; cnvFace._normalsFixed = false; cnvFace._isTooCurved = false; + cnvFace._normalsFixedOnBorders = false; double maxCurvature = cnvFace.GetMaxCurvature( data, eof, surfProp, helper ); if ( maxCurvature > 0 ) @@ -6565,6 +6566,7 @@ void _Smoother1D::prepare(_SolidData& data) _edgeDir[1] = getEdgeDir( E, leOnV[1]->_nodes[0], data.GetHelper() ); _leOnV[0]._cosin = Abs( leOnV[0]->_cosin ); _leOnV[1]._cosin = Abs( leOnV[1]->_cosin ); + _leOnV[0]._flags = _leOnV[1]._flags = 0; if ( _eos._sWOL.IsNull() ) // 3D for ( int iEnd = 0; iEnd < 2; ++iEnd ) _leOnV[iEnd]._cosin = Abs( _edgeDir[iEnd].Normalized() * leOnV[iEnd]->_normal ); @@ -11795,6 +11797,17 @@ bool _ViscousBuilder::shrink(_SolidData& theData) uvPtVec[ i ].param = helper.GetNodeU( E, edges[i]->_nodes[0] ); uvPtVec[ i ].SetUV( helper.GetNodeUV( F, edges[i]->_nodes.back() )); } + if ( uvPtVec[ 0 ].node == uvPtVec.back().node && // closed + helper.IsSeamShape( uvPtVec[ 0 ].node->GetShapeID() )) + { + uvPtVec[ 0 ].SetUV( helper.GetNodeUV( F, + edges[0]->_nodes.back(), + edges[1]->_nodes.back() )); + size_t i = edges.size() - 1; + uvPtVec[ i ].SetUV( helper.GetNodeUV( F, + edges[i ]->_nodes.back(), + edges[i-1]->_nodes.back() )); + } // if ( edges.empty() ) // continue; BRep_Tool::Range( E, uvPtVec[0].param, uvPtVec.back().param ); @@ -11811,8 +11824,12 @@ bool _ViscousBuilder::shrink(_SolidData& theData) smDS->Clear(); // compute the mesh on the FACE + TopTools_IndexedMapOfShape allowed(1); + allowed.Add( sm->GetSubShape() ); + sm->SetAllowedSubShapes( &allowed ); sm->ComputeStateEngine( SMESH_subMesh::CHECK_COMPUTE_STATE ); sm->ComputeStateEngine( SMESH_subMesh::COMPUTE_SUBMESH ); + sm->SetAllowedSubShapes( nullptr ); // re-fill proxy sub-meshes of the FACE for ( size_t i = 0 ; i < _sdVec.size(); ++i ) @@ -12413,17 +12430,16 @@ gp_XY _SmoothNode::computeAngularPos(vector& uv, edgeSize.back() = edgeSize.front(); gp_XY newPos(0,0); - //int nbEdges = 0; - double sumSize = 0; + double sumWgt = 0; for ( size_t i = 1; i < edgeDir.size(); ++i ) { - if ( edgeDir[i-1].X() > 1. ) continue; - int i1 = i-1; + const int i1 = i-1; + if ( edgeDir[i1].X() > 1. ) continue; while ( edgeDir[i].X() > 1. && ++i < edgeDir.size() ); if ( i == edgeDir.size() ) break; gp_XY p = uv[i]; gp_XY norm1( -edgeDir[i1].Y(), edgeDir[i1].X() ); - gp_XY norm2( -edgeDir[i].Y(), edgeDir[i].X() ); + gp_XY norm2( -edgeDir[i ].Y(), edgeDir[i ].X() ); gp_XY bisec = norm1 + norm2; double bisecSize = bisec.Modulus(); if ( bisecSize < numeric_limits::min() ) @@ -12433,16 +12449,16 @@ gp_XY _SmoothNode::computeAngularPos(vector& uv, } bisec /= bisecSize; - gp_XY dirToN = uvToFix - p; - double distToN = dirToN.Modulus(); + gp_XY dirToN = uvToFix - p; + double distToN = bisec * dirToN; if ( bisec * dirToN < 0 ) distToN = -distToN; - newPos += ( p + bisec * distToN ) * ( edgeSize[i1] + edgeSize[i] ); - //++nbEdges; - sumSize += edgeSize[i1] + edgeSize[i]; + double wgt = edgeSize[i1] + edgeSize[i]; + newPos += ( p + bisec * distToN ) * wgt; + sumWgt += wgt; } - newPos /= /*nbEdges * */sumSize; + newPos /= sumWgt; return newPos; }