X-Git-Url: http://git.salome-platform.org/gitweb/?p=modules%2Fsmesh.git;a=blobdiff_plain;f=src%2FStdMeshers%2FStdMeshers_Prism_3D.cxx;h=afac9bebe4ec2cc0f4dad6359f90c5ccb5a9aa2f;hp=79fd9f82e0e7d49f4c043ddfe1384632f4390f8f;hb=f3ce9fcd4028efd124456c5e55c4c4c7983cad9f;hpb=e4f3043d7d0128e2c8806d9bcf5e84ede8d40be1 diff --git a/src/StdMeshers/StdMeshers_Prism_3D.cxx b/src/StdMeshers/StdMeshers_Prism_3D.cxx index 79fd9f82e..afac9bebe 100644 --- a/src/StdMeshers/StdMeshers_Prism_3D.cxx +++ b/src/StdMeshers/StdMeshers_Prism_3D.cxx @@ -65,15 +65,16 @@ using namespace std; #define RETURN_BAD_RESULT(msg) { MESSAGE(")-: Error: " << msg); return false; } -#define gpXYZ(n) gp_XYZ(n->X(),n->Y(),n->Z()) -#define SHOWYXZ(msg, xyz) // {\ -// gp_Pnt p (xyz); \ -// cout << msg << " ("<< p.X() << "; " <NbElements() > 0 ) && ( !theHelper.IsSameElemGeometry( sm, SMDSGeom_QUADRANGLE ) )) { - faceFound; + faceFound = true; break; } if ( !faceFound ) @@ -212,6 +213,7 @@ namespace { quad->side[ QUAD_TOP_SIDE ].grid->Reverse(); quad->side[ QUAD_LEFT_SIDE ].grid->Reverse(); int edgeIndex = 0; + bool isComposite = false; for ( size_t i = 0; i < quad->side.size(); ++i ) { StdMeshers_FaceSidePtr quadSide = quad->side[i]; @@ -219,7 +221,7 @@ namespace { if ( botE.IsSame( quadSide->Edge( iE ))) { if ( quadSide->NbEdges() > 1 ) - return false; + isComposite = true; //return false; edgeIndex = i; i = quad->side.size(); // to quit from the outer loop break; @@ -230,7 +232,7 @@ namespace { quad->face = TopoDS::Face( face ); - return true; + return !isComposite; } //================================================================================ @@ -425,10 +427,10 @@ namespace { */ //================================================================================ - double normAngle(const TopoDS_Edge & E1, const TopoDS_Edge & E2, const TopoDS_Face & F) - { - return SMESH_MesherHelper::GetAngle( E1, E2, F ) / ( 0.5 * M_PI ); - } + // double normAngle(const TopoDS_Edge & E1, const TopoDS_Edge & E2, const TopoDS_Face & F) + // { + // return SMESH_MesherHelper::GetAngle( E1, E2, F ) / ( 0.5 * M_PI ); + // } //================================================================================ /*! @@ -654,6 +656,7 @@ bool StdMeshers_Prism_3D::Compute(SMESH_Mesh& theMesh, const TopoDS_Shape& theSh meshedFaces.splice( meshedFaces.begin(), notQuadMeshedFaces ); Prism_3D::TPrismTopo prism; + myPropagChains = 0; if ( nbSolids == 1 ) { @@ -905,10 +908,17 @@ bool StdMeshers_Prism_3D::getWallFaces( Prism_3D::TPrismTopo & thePrism, if ( !quadList.back() ) return toSM( error(TCom("Side face #") << shapeID( face ) << " not meshable with quadrangles")); - if ( ! setBottomEdge( *edge, quadList.back(), face )) - return toSM( error(TCom("Composite 'horizontal' edges are not supported"))); - thePrism.myWallQuads.push_back( quadList ); - faceMap.Add( face ); + bool isCompositeBase = ! setBottomEdge( *edge, quadList.back(), face ); + if ( isCompositeBase ) + { + // it's OK if all EDGEs of the bottom side belongs to the bottom FACE + StdMeshers_FaceSidePtr botSide = quadList.back()->side[ QUAD_BOTTOM_SIDE ]; + for ( int iE = 0; iE < botSide->NbEdges(); ++iE ) + if ( !myHelper->IsSubShape( botSide->Edge(iE), thePrism.myBottom )) + return toSM( error(TCom("Composite 'horizontal' edges are not supported"))); + } + if ( faceMap.Add( face )) + thePrism.myWallQuads.push_back( quadList ); break; } } @@ -1076,7 +1086,7 @@ bool StdMeshers_Prism_3D::compute(const Prism_3D::TPrismTopo& thePrism) // Projections on the top and bottom faces are taken from nodes existing // on these faces; find correspondence between bottom and top nodes myBotToColumnMap.clear(); - if ( !assocOrProjBottom2Top( bottomToTopTrsf ) ) // it also fills myBotToColumnMap + if ( !assocOrProjBottom2Top( bottomToTopTrsf, thePrism ) ) // it also fills myBotToColumnMap return false; @@ -1193,6 +1203,9 @@ bool StdMeshers_Prism_3D::compute(const Prism_3D::TPrismTopo& thePrism) // create a node node = meshDS->AddNode( coords.X(), coords.Y(), coords.Z() ); meshDS->SetNodeInVolume( node, volumeID ); + + if ( _computeCanceled ) + return false; } } // loop on bottom nodes } @@ -1254,34 +1267,36 @@ bool StdMeshers_Prism_3D::computeWalls(const Prism_3D::TPrismTopo& thePrism) TProjction1dAlgo* projector1D = TProjction1dAlgo::instance( this ); StdMeshers_Quadrangle_2D* quadAlgo = TQuadrangleAlgo::instance( this, myHelper ); - SMESH_HypoFilter hyp1dFilter( SMESH_HypoFilter::IsAlgo(),/*not=*/true); - hyp1dFilter.And( SMESH_HypoFilter::HasDim( 1 )); - hyp1dFilter.And( SMESH_HypoFilter::IsMoreLocalThan( thePrism.myShape3D, *mesh )); + // SMESH_HypoFilter hyp1dFilter( SMESH_HypoFilter::IsAlgo(),/*not=*/true); + // hyp1dFilter.And( SMESH_HypoFilter::HasDim( 1 )); + // hyp1dFilter.And( SMESH_HypoFilter::IsMoreLocalThan( thePrism.myShape3D, *mesh )); // Discretize equally 'vertical' EDGEs // ----------------------------------- // find source FACE sides for projection: either already computed ones or // the 'most composite' ones - multimap< int, int > wgt2quad; - for ( size_t iW = 0; iW != thePrism.myWallQuads.size(); ++iW ) + const size_t nbWalls = thePrism.myWallQuads.size(); + vector< int > wgt( nbWalls, 0 ); // "weight" of a wall + for ( size_t iW = 0; iW != nbWalls; ++iW ) { Prism_3D::TQuadList::const_iterator quad = thePrism.myWallQuads[iW].begin(); - int wgt = 0; // "weight" for ( ; quad != thePrism.myWallQuads[iW].end(); ++quad ) { StdMeshers_FaceSidePtr lftSide = (*quad)->side[ QUAD_LEFT_SIDE ]; for ( int i = 0; i < lftSide->NbEdges(); ++i ) { - ++wgt; + ++wgt[ iW ]; const TopoDS_Edge& E = lftSide->Edge(i); if ( mesh->GetSubMesh( E )->IsMeshComputed() ) - wgt += 10; - else if ( mesh->GetHypothesis( E, hyp1dFilter, true )) // local hypothesis! - wgt += 100; + { + wgt[ iW ] += 100; + wgt[ myHelper->WrapIndex( iW+1, nbWalls)] += 10; + wgt[ myHelper->WrapIndex( iW-1, nbWalls)] += 10; + } + // else if ( mesh->GetHypothesis( E, hyp1dFilter, true )) // local hypothesis! + // wgt += 100; } } - wgt2quad.insert( make_pair( wgt, iW )); - // in quadratic mesh, pass ignoreMediumNodes to quad sides if ( myHelper->GetIsQuadratic() ) { @@ -1291,6 +1306,9 @@ bool StdMeshers_Prism_3D::computeWalls(const Prism_3D::TPrismTopo& thePrism) (*quad)->side[ i ].grid->SetIgnoreMediumNodes( true ); } } + multimap< int, int > wgt2quad; + for ( size_t iW = 0; iW != nbWalls; ++iW ) + wgt2quad.insert( make_pair( wgt[ iW ], iW )); // Project 'vertical' EDGEs, from left to right multimap< int, int >::reverse_iterator w2q = wgt2quad.rbegin(); @@ -1339,7 +1357,11 @@ bool StdMeshers_Prism_3D::computeWalls(const Prism_3D::TPrismTopo& thePrism) { const TopoDS_Edge& tgtE = rgtSide->Edge(i); SMESH_subMesh* tgtSM = mesh->GetSubMesh( tgtE ); - if (( isTgtEdgeComputed[ i ] = tgtSM->IsMeshComputed() )) { + if ( !( isTgtEdgeComputed[ i ] = tgtSM->IsMeshComputed() )) { + tgtSM->ComputeSubMeshStateEngine( SMESH_subMesh::COMPUTE ); + tgtSM->ComputeStateEngine ( SMESH_subMesh::COMPUTE ); + } + if ( tgtSM->IsMeshComputed() ) { ++nbTgtMeshed; nbTgtSegments += tgtSM->GetSubMeshDS()->NbElements(); } @@ -1348,16 +1370,33 @@ bool StdMeshers_Prism_3D::computeWalls(const Prism_3D::TPrismTopo& thePrism) { if ( nbTgtSegments != nbSrcSegments ) { - for ( int i = 0; i < lftSide->NbEdges(); ++i ) - addBadInputElements( meshDS->MeshElements( lftSide->Edge( i ))); + bool badMeshRemoved = false; + // remove just computed segments for ( int i = 0; i < rgtSide->NbEdges(); ++i ) - addBadInputElements( meshDS->MeshElements( rgtSide->Edge( i ))); - return toSM( error( TCom("Different nb of segment on logically vertical edges #") - << shapeID( lftSide->Edge(0) ) << " and #" - << shapeID( rgtSide->Edge(0) ) << ": " - << nbSrcSegments << " != " << nbTgtSegments )); + if ( !isTgtEdgeComputed[ i ]) + { + const TopoDS_Edge& tgtE = rgtSide->Edge(i); + SMESH_subMesh* tgtSM = mesh->GetSubMesh( tgtE ); + tgtSM->ComputeStateEngine( SMESH_subMesh::CLEAN ); + badMeshRemoved = true; + nbTgtMeshed--; + } + if ( !badMeshRemoved ) + { + for ( int i = 0; i < lftSide->NbEdges(); ++i ) + addBadInputElements( meshDS->MeshElements( lftSide->Edge( i ))); + for ( int i = 0; i < rgtSide->NbEdges(); ++i ) + addBadInputElements( meshDS->MeshElements( rgtSide->Edge( i ))); + return toSM( error( TCom("Different nb of segment on logically vertical edges #") + << shapeID( lftSide->Edge(0) ) << " and #" + << shapeID( rgtSide->Edge(0) ) << ": " + << nbSrcSegments << " != " << nbTgtSegments )); + } + } + else // if ( nbTgtSegments == nbSrcSegments ) + { + continue; } - continue; } // Compute 'vertical projection' if ( nbTgtMeshed == 0 ) @@ -1399,13 +1438,22 @@ bool StdMeshers_Prism_3D::computeWalls(const Prism_3D::TPrismTopo& thePrism) // new nodes are on different EDGEs; put one of them on VERTEX const int edgeIndex = rgtSide->EdgeIndex( srcNodeStr[ iN-1 ].normParam ); const double vertexParam = rgtSide->LastParameter( edgeIndex ); - const gp_Pnt p = BRep_Tool::Pnt( rgtSide->LastVertex( edgeIndex )); + TopoDS_Vertex vertex = rgtSide->LastVertex( edgeIndex ); + const SMDS_MeshNode* vn = SMESH_Algo::VertexNode( vertex, meshDS ); + const gp_Pnt p = BRep_Tool::Pnt( vertex ); const int isPrev = ( Abs( srcNodeStr[ iN-1 ].normParam - vertexParam ) < Abs( srcNodeStr[ iN ].normParam - vertexParam )); meshDS->UnSetNodeOnShape( newNodes[ iN-isPrev ] ); - meshDS->SetNodeOnVertex ( newNodes[ iN-isPrev ], rgtSide->LastVertex( edgeIndex )); + meshDS->SetNodeOnVertex ( newNodes[ iN-isPrev ], vertex ); meshDS->MoveNode ( newNodes[ iN-isPrev ], p.X(), p.Y(), p.Z() ); id2type.first = newNodes[ iN-(1-isPrev) ]->getshapeId(); + if ( vn ) + { + SMESH_MeshEditor::TListOfListOfNodes lln( 1, list< const SMDS_MeshNode* >() ); + lln.back().push_back ( vn ); + lln.back().push_front( newNodes[ iN-isPrev ] ); // to keep + SMESH_MeshEditor( mesh ).MergeNodes( lln ); + } } SMDS_MeshElement* newEdge = myHelper->AddEdge( newNodes[ iN-1 ], newNodes[ iN ] ); meshDS->SetMeshElementOnShape( newEdge, id2type.first ); @@ -1442,10 +1490,13 @@ bool StdMeshers_Prism_3D::computeWalls(const Prism_3D::TPrismTopo& thePrism) Prism_3D::TQuadList::const_iterator quad = thePrism.myWallQuads[iW].begin(); for ( ; quad != thePrism.myWallQuads[iW].end(); ++quad ) { - // Top EDGEs must be projections from the bottom ones - // to compute stuctured quad mesh on wall FACEs - // --------------------------------------------------- + const TopoDS_Face& face = (*quad)->face; + SMESH_subMesh* fSM = mesh->GetSubMesh( face ); + if ( ! fSM->IsMeshComputed() ) { + // Top EDGEs must be projections from the bottom ones + // to compute stuctured quad mesh on wall FACEs + // --------------------------------------------------- const TopoDS_Edge& botE = (*quad)->side[ QUAD_BOTTOM_SIDE ].grid->Edge(0); const TopoDS_Edge& topE = (*quad)->side[ QUAD_TOP_SIDE ].grid->Edge(0); SMESH_subMesh* botSM = mesh->GetSubMesh( botE ); @@ -1502,14 +1553,11 @@ bool StdMeshers_Prism_3D::computeWalls(const Prism_3D::TPrismTopo& thePrism) } } tgtSM->ComputeStateEngine( SMESH_subMesh::CHECK_COMPUTE_STATE ); - } - // Compute quad mesh on wall FACEs - // ------------------------------- - const TopoDS_Face& face = (*quad)->face; - SMESH_subMesh* fSM = mesh->GetSubMesh( face ); - if ( ! fSM->IsMeshComputed() ) - { + + // Compute quad mesh on wall FACEs + // ------------------------------- + // make all EDGES meshed fSM->ComputeSubMeshStateEngine( SMESH_subMesh::COMPUTE ); if ( !fSM->SubMeshesComputed() ) @@ -1545,9 +1593,10 @@ bool StdMeshers_Prism_3D::computeWalls(const Prism_3D::TPrismTopo& thePrism) TopoDS_Edge StdMeshers_Prism_3D::findPropagationSource( const TopoDS_Edge& E ) { - for ( size_t i = 0; !myPropagChains[i].IsEmpty(); ++i ) - if ( myPropagChains[i].Contains( E )) - return TopoDS::Edge( myPropagChains[i].FindKey( 1 )); + if ( myPropagChains ) + for ( size_t i = 0; !myPropagChains[i].IsEmpty(); ++i ) + if ( myPropagChains[i].Contains( E )) + return TopoDS::Edge( myPropagChains[i].FindKey( 1 )); return TopoDS_Edge(); } @@ -1801,7 +1850,8 @@ void StdMeshers_Prism_3D::AddPrisms( vector & columns, */ //================================================================================ -bool StdMeshers_Prism_3D::assocOrProjBottom2Top( const gp_Trsf & bottomToTopTrsf ) +bool StdMeshers_Prism_3D::assocOrProjBottom2Top( const gp_Trsf & bottomToTopTrsf, + const Prism_3D::TPrismTopo& thePrism) { SMESH_subMesh * botSM = myBlock.SubMesh( ID_BOT_FACE ); SMESH_subMesh * topSM = myBlock.SubMesh( ID_TOP_FACE ); @@ -1811,14 +1861,14 @@ bool StdMeshers_Prism_3D::assocOrProjBottom2Top( const gp_Trsf & bottomToTopTrsf if ( !botSMDS || botSMDS->NbElements() == 0 ) { - _gen->Compute( *myHelper->GetMesh(), botSM->GetSubShape() ); + _gen->Compute( *myHelper->GetMesh(), botSM->GetSubShape(), /*aShapeOnly=*/true ); botSMDS = botSM->GetSubMeshDS(); if ( !botSMDS || botSMDS->NbElements() == 0 ) return toSM( error(TCom("No elements on face #") << botSM->GetId() )); } bool needProject = !topSM->IsMeshComputed(); - if ( !needProject && + if ( !needProject && (botSMDS->NbElements() != topSMDS->NbElements() || botSMDS->NbNodes() != topSMDS->NbNodes())) { @@ -1844,19 +1894,70 @@ bool StdMeshers_Prism_3D::assocOrProjBottom2Top( const gp_Trsf & bottomToTopTrsf TopoDS_Face topFace = TopoDS::Face( myBlock.Shape( ID_TOP_FACE )); // associate top and bottom faces TAssocTool::TShapeShapeMap shape2ShapeMap; - if ( !TAssocTool::FindSubShapeAssociation( botFace, myBlock.Mesh(), - topFace, myBlock.Mesh(), - shape2ShapeMap) ) - return toSM( error(TCom("Topology of faces #") << botSM->GetId() - <<" and #"<< topSM->GetId() << " seems different" )); + const bool sameTopo = + TAssocTool::FindSubShapeAssociation( botFace, myBlock.Mesh(), + topFace, myBlock.Mesh(), + shape2ShapeMap); + if ( !sameTopo ) + for ( size_t iQ = 0; iQ < thePrism.myWallQuads.size(); ++iQ ) + { + const Prism_3D::TQuadList& quadList = thePrism.myWallQuads[iQ]; + StdMeshers_FaceSidePtr botSide = quadList.front()->side[ QUAD_BOTTOM_SIDE ]; + StdMeshers_FaceSidePtr topSide = quadList.back ()->side[ QUAD_TOP_SIDE ]; + if ( botSide->NbEdges() == topSide->NbEdges() ) + { + for ( int iE = 0; iE < botSide->NbEdges(); ++iE ) + { + TAssocTool::InsertAssociation( botSide->Edge( iE ), + topSide->Edge( iE ), shape2ShapeMap ); + TAssocTool::InsertAssociation( myHelper->IthVertex( 0, botSide->Edge( iE )), + myHelper->IthVertex( 0, topSide->Edge( iE )), + shape2ShapeMap ); + } + } + else + { + TopoDS_Vertex vb, vt; + StdMeshers_FaceSidePtr sideB, sideT; + vb = myHelper->IthVertex( 0, botSide->Edge( 0 )); + vt = myHelper->IthVertex( 0, topSide->Edge( 0 )); + sideB = quadList.front()->side[ QUAD_LEFT_SIDE ]; + sideT = quadList.back ()->side[ QUAD_LEFT_SIDE ]; + if ( vb.IsSame( sideB->FirstVertex() ) && + vt.IsSame( sideT->LastVertex() )) + { + TAssocTool::InsertAssociation( botSide->Edge( 0 ), + topSide->Edge( 0 ), shape2ShapeMap ); + TAssocTool::InsertAssociation( vb, vt, shape2ShapeMap ); + } + vb = myHelper->IthVertex( 1, botSide->Edge( botSide->NbEdges()-1 )); + vt = myHelper->IthVertex( 1, topSide->Edge( topSide->NbEdges()-1 )); + sideB = quadList.front()->side[ QUAD_RIGHT_SIDE ]; + sideT = quadList.back ()->side[ QUAD_RIGHT_SIDE ]; + if ( vb.IsSame( sideB->FirstVertex() ) && + vt.IsSame( sideT->LastVertex() )) + { + TAssocTool::InsertAssociation( botSide->Edge( botSide->NbEdges()-1 ), + topSide->Edge( topSide->NbEdges()-1 ), + shape2ShapeMap ); + TAssocTool::InsertAssociation( vb, vt, shape2ShapeMap ); + } + } + } // Find matching nodes of top and bottom faces TNodeNodeMap n2nMap; if ( ! TAssocTool::FindMatchingNodesOnFaces( botFace, myBlock.Mesh(), topFace, myBlock.Mesh(), shape2ShapeMap, n2nMap )) - return toSM( error(TCom("Mesh on faces #") << botSM->GetId() - <<" and #"<< topSM->GetId() << " seems different" )); + { + if ( sameTopo ) + return toSM( error(TCom("Mesh on faces #") << botSM->GetId() + <<" and #"<< topSM->GetId() << " seems different" )); + else + return toSM( error(TCom("Topology of faces #") << botSM->GetId() + <<" and #"<< topSM->GetId() << " seems different" )); + } // Fill myBotToColumnMap @@ -2496,6 +2597,29 @@ namespace Prism_3D myWallQuads.clear(); } + //================================================================================ + /*! + * \brief Set upside-down + */ + //================================================================================ + + void TPrismTopo::SetUpsideDown() + { + std::swap( myBottom, myTop ); + myBottomEdges.clear(); + std::reverse( myBottomEdges.begin(), myBottomEdges.end() ); + for ( size_t i = 0; i < myWallQuads.size(); ++i ) + { + myWallQuads[i].reverse(); + TQuadList::iterator q = myWallQuads[i].begin(); + for ( ; q != myWallQuads[i].end(); ++q ) + { + (*q)->shift( 2, /*keepUnitOri=*/true ); + } + myBottomEdges.push_back( myWallQuads[i].front()->side[ QUAD_BOTTOM_SIDE ].grid->Edge(0) ); + } + } + } // namespace Prism_3D //================================================================================ @@ -2602,7 +2726,7 @@ bool StdMeshers_Prism_3D::initPrism(Prism_3D::TPrismTopo& thePrism, SMESH_subMesh * botSM = 0; SMESH_subMesh * topSM = 0; - if ( hasNotQuad ) // can chose a bottom FACE + if ( hasNotQuad ) // can choose a bottom FACE { if ( nbNotQuadMeshed > 0 ) botSM = notQuadElemSubMesh.front(); else botSM = notQuadGeomSubMesh.front(); @@ -2710,6 +2834,12 @@ bool StdMeshers_Prism_3D::initPrism(Prism_3D::TPrismTopo& thePrism, "Non-quadrilateral faces are not opposite")); } + if ( thePrism.myBottomEdges.size() > thePrism.myWallQuads.size() ) + { + // composite bottom sides => set thePrism upside-down + thePrism.SetUpsideDown(); + } + return true; } @@ -3634,8 +3764,8 @@ gp_Pnt StdMeshers_PrismAsBlock::TSideFace::Value(const Standard_Real U, } if ( !edge.IsNull() ) { - double u1 = myHelper.GetNodeU( edge, nn[0] ); - double u3 = myHelper.GetNodeU( edge, nn[2] ); + double u1 = myHelper.GetNodeU( edge, nn[0], nn[2] ); + double u3 = myHelper.GetNodeU( edge, nn[2], nn[0] ); double u = u1 * ( 1 - hR ) + u3 * hR; TopLoc_Location loc; double f,l; Handle(Geom_Curve) curve = BRep_Tool::Curve( edge,loc,f,l );