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0020184: EDF SMESH 952: Projection 2D does not work
+ static bool IsBoundaryEdge() + bool AssocGroupsByPropagation()
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@ -85,7 +85,26 @@ using namespace std;
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// cout << endl;\
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// }
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#define HERE StdMeshers_ProjectionUtils
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namespace {
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//================================================================================
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/*!
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* \brief Write shape for debug purposes
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*/
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//================================================================================
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bool _StoreBadShape(const TopoDS_Shape& shape)
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{
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#ifdef _DEBUG_
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const char* type[] ={"COMPOUND","COMPSOLID","SOLID","SHELL","FACE","WIRE","EDGE","VERTEX"};
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BRepTools::Write( shape, SMESH_Comment("/tmp/") << type[shape.ShapeType()] << "_"
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<< shape.TShape().operator->() << ".brep");
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#endif
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return false;
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}
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//================================================================================
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/*!
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* \brief Reverse order of edges in a list and their orientation
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@ -162,8 +181,7 @@ namespace {
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if ( nbEdges == 2 && IsPropagationPossible( theMesh1, theMesh2 ) )
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{
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list< TopoDS_Edge >::iterator eIt2 = ++edges2.begin(); // 2nd edge of the 2nd face
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TopoDS_Edge edge2 =
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StdMeshers_ProjectionUtils::GetPropagationEdge( theMesh1, *eIt2, edges1.front() ).second;
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TopoDS_Edge edge2 = HERE::GetPropagationEdge( theMesh1, *eIt2, edges1.front() ).second;
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if ( !edge2.IsNull() ) { // propagation found for the second edge
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Reverse( edges2, nbEdges );
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return true;
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@ -202,7 +220,135 @@ namespace {
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}
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return TopoDS_Shape();
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}
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//================================================================================
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/*!
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* \brief Find association of groups at top and bottom of prism
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*/
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//================================================================================
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bool AssocGroupsByPropagation(const TopoDS_Shape& theGroup1,
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const TopoDS_Shape& theGroup2,
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SMESH_Mesh& theMesh,
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HERE::TShapeShapeMap& theMap)
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{
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// If groups are on top and bottom of prism then we can associate
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// them using "vertical" (or "side") edges and faces of prism since
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// they connect corresponding vertices and edges of groups.
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TopTools_IndexedMapOfShape subshapes1, subshapes2;
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TopExp::MapShapes( theGroup1, subshapes1 );
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TopExp::MapShapes( theGroup2, subshapes2 );
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TopTools_ListIteratorOfListOfShape ancestIt;
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// Iterate on vertices of group1 to find corresponding vertices in group2
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// and associate adjacent edges and faces
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TopTools_MapOfShape verticShapes;
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TopExp_Explorer vExp1( theGroup1, TopAbs_VERTEX );
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for ( ; vExp1.More(); vExp1.Next() )
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{
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const TopoDS_Vertex& v1 = TopoDS::Vertex( vExp1.Current() );
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if ( theMap.IsBound( v1 )) continue; // already processed
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// Find "vertical" edge ending in v1 and whose other vertex belongs to group2
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TopoDS_Shape verticEdge, v2;
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ancestIt.Initialize( theMesh.GetAncestors( v1 ));
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for ( ; verticEdge.IsNull() && ancestIt.More(); ancestIt.Next() )
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{
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if ( ancestIt.Value().ShapeType() != TopAbs_EDGE ) continue;
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v2 = HERE::GetNextVertex( TopoDS::Edge( ancestIt.Value() ), v1 );
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if ( subshapes2.Contains( v2 ))
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verticEdge = ancestIt.Value();
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}
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if ( verticEdge.IsNull() )
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return false;
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HERE::InsertAssociation( v1, v2, theMap);
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// Associate edges by vertical faces sharing the found vertical edge
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ancestIt.Initialize( theMesh.GetAncestors( verticEdge ) );
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for ( ; ancestIt.More(); ancestIt.Next() )
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{
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if ( ancestIt.Value().ShapeType() != TopAbs_FACE ) continue;
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if ( !verticShapes.Add( ancestIt.Value() )) continue;
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const TopoDS_Face& face = TopoDS::Face( ancestIt.Value() );
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// get edges of the face
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TopoDS_Edge edgeGr1, edgeGr2, verticEdge2;
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list< TopoDS_Edge > edges; list< int > nbEdgesInWire;
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SMESH_Block::GetOrderedEdges( face, v1, edges, nbEdgesInWire);
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if ( nbEdgesInWire.front() != 4 )
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return _StoreBadShape( face );
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list< TopoDS_Edge >::iterator edge = edges.begin();
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if ( verticEdge.IsSame( *edge )) {
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edgeGr2 = *(++edge);
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verticEdge2 = *(++edge);
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edgeGr1 = *(++edge);
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} else {
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edgeGr1 = *(edge++);
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verticEdge2 = *(edge++);
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edgeGr2 = *(edge++);
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}
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HERE::InsertAssociation( edgeGr1, edgeGr2.Reversed(), theMap);
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}
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}
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// Associate faces
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TopoDS_Iterator gr1It( theGroup1 );
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if ( gr1It.Value().ShapeType() == TopAbs_FACE )
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{
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// find a boundary edge of group1 to start from
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TopoDS_Shape bndEdge;
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TopExp_Explorer edgeExp1( theGroup1, TopAbs_EDGE );
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for ( ; bndEdge.IsNull() && edgeExp1.More(); edgeExp1.Next())
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if ( HERE::IsBoundaryEdge( TopoDS::Edge( edgeExp1.Current()), theGroup1, theMesh ))
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bndEdge = edgeExp1.Current();
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if ( bndEdge.IsNull() )
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return false;
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list< TopoDS_Shape > edges(1, bndEdge);
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list< TopoDS_Shape >::iterator edge1 = edges.begin();
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for ( ; edge1 != edges.end(); ++edge1 )
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{
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// there must be one or zero not associated faces between ancestors of edge
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// belonging to theGroup1
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TopoDS_Shape face1;
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ancestIt.Initialize( theMesh.GetAncestors( *edge1 ) );
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for ( ; ancestIt.More() && face1.IsNull(); ancestIt.Next() ) {
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if ( ancestIt.Value().ShapeType() == TopAbs_FACE &&
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!theMap.IsBound( ancestIt.Value() ) &&
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subshapes1.Contains( ancestIt.Value() ))
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face1 = ancestIt.Value();
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// add edges of face1 to start searching for adjacent faces from
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for ( TopExp_Explorer e(face1, TopAbs_EDGE); e.More(); e.Next())
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if ( !edge1->IsSame( e.Current() ))
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edges.push_back( e.Current() );
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}
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if ( !face1.IsNull() ) {
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// find the corresponding face of theGroup2
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TopoDS_Shape edge2 = theMap( *edge1 );
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TopoDS_Shape face2;
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ancestIt.Initialize( theMesh.GetAncestors( edge2 ) );
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for ( ; ancestIt.More() && face2.IsNull(); ancestIt.Next() ) {
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if ( ancestIt.Value().ShapeType() == TopAbs_FACE &&
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!theMap.IsBound( ancestIt.Value() ) &&
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subshapes2.Contains( ancestIt.Value() ))
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face2 = ancestIt.Value();
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}
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if ( face2.IsNull() )
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return false;
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HERE::InsertAssociation( face1, face2, theMap);
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}
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}
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}
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return true;
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}
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} // namespace
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//=======================================================================
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/*!
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@ -311,7 +457,7 @@ bool StdMeshers_ProjectionUtils::FindSubShapeAssociation(const TopoDS_Shape& the
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case TopAbs_SOLID: {
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// ----------------------------------------------------------------------
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TopoDS_Vertex VV1[2], VV2[2];
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// find a not closed edge of shape1 both vertices of which are associated
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// try to find a not closed edge of shape1 both vertices of which are associated
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TopoDS_Edge edge1;
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TopExp_Explorer exp ( theShape1, TopAbs_EDGE );
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for ( ; VV2[ 1 ].IsNull() && exp.More(); exp.Next() ) {
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@ -325,6 +471,7 @@ bool StdMeshers_ProjectionUtils::FindSubShapeAssociation(const TopoDS_Shape& the
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}
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if ( VV2[ 1 ].IsNull() ) // 2 bound vertices not found
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RETURN_BAD_RESULT("2 bound vertices not found" );
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// get an edge2 of theShape2 corresponding to edge1
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TopoDS_Edge edge2 = GetEdgeByVertices( theMesh2, VV2[ 0 ], VV2[ 1 ]);
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if ( edge2.IsNull() )
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RETURN_BAD_RESULT("GetEdgeByVertices() failed");
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@ -775,25 +922,23 @@ bool StdMeshers_ProjectionUtils::FindSubShapeAssociation(const TopoDS_Shape& the
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case TopAbs_COMPOUND: {
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// ----------------------------------------------------------------------
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if ( IsPropagationPossible( theMesh1, theMesh2 )) {
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// try to accosiate all using propagation
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if ( AssocGroupsByPropagation( theShape1, theShape2, *theMesh1, theMap ))
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return true;
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// find a boundary edge for theShape1
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TopoDS_Edge E;
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for(TopExp_Explorer exp(theShape1, TopAbs_EDGE); exp.More(); exp.Next() ) {
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E = TopoDS::Edge( exp.Current() );
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int NbFacesFromShape1 = 0;
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const TopTools_ListOfShape& EAncestors = theMesh1->GetAncestors(E);
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TopTools_ListIteratorOfListOfShape itea(EAncestors);
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for(; itea.More(); itea.Next()) {
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if( itea.Value().ShapeType() != TopAbs_FACE ) continue;
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TopoDS_Face face = TopoDS::Face(itea.Value());
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for(TopExp_Explorer expf(theShape1, TopAbs_FACE); expf.More(); expf.Next() ) {
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if(face.IsSame(expf.Current())) {
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NbFacesFromShape1++;
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if ( IsBoundaryEdge( E, theShape1, *theMesh1 ))
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break;
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else
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E.Nullify();
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}
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}
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}
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if(NbFacesFromShape1==1) break;
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}
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if ( E.IsNull() )
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break; // try by vertex closeness
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// find association for vertices of edge E
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TopoDS_Vertex VV1[2], VV2[2];
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for(TopExp_Explorer eexp(E, TopAbs_VERTEX); eexp.More(); eexp.Next()) {
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@ -953,7 +1098,7 @@ bool StdMeshers_ProjectionUtils::FindSubShapeAssociation(const TopoDS_Shape& the
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* \param face1 - face 1
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* \param VV1 - vertices of face 1
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* \param face2 - face 2
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* \param VV2 - vertices of face 2 associated with oned of face 1
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* \param VV2 - vertices of face 2 associated with ones of face 1
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* \param edges1 - out list of edges of face 1
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* \param edges2 - out list of edges of face 2
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* \retval int - nb of edges in an outer wire in a success case, else zero
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@ -1720,6 +1865,34 @@ int StdMeshers_ProjectionUtils::Count(const TopoDS_Shape& shape,
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}
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}
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//================================================================================
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/*!
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* \brief Return true if edge is a boundary of edgeContainer
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*/
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//================================================================================
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bool StdMeshers_ProjectionUtils::IsBoundaryEdge(const TopoDS_Edge& edge,
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const TopoDS_Shape& edgeContainer,
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SMESH_Mesh& mesh)
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{
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TopTools_IndexedMapOfShape facesOfEdgeContainer, facesNearEdge;
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TopExp::MapShapes( edgeContainer, TopAbs_FACE, facesOfEdgeContainer );
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const TopTools_ListOfShape& EAncestors = mesh.GetAncestors(edge);
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TopTools_ListIteratorOfListOfShape itea(EAncestors);
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for(; itea.More(); itea.Next()) {
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if( itea.Value().ShapeType() == TopAbs_FACE &&
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facesOfEdgeContainer.Contains( itea.Value() ))
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{
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facesNearEdge.Add( itea.Value() );
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if ( facesNearEdge.Extent() > 1 )
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return false;
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}
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}
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return ( facesNearEdge.Extent() == 1 );
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}
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namespace {
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SMESH_subMeshEventListener* GetSrcSubMeshListener();
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TopoDS_Shape srcShape,
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SMESH_Mesh* srcMesh);
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/*!
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* \brief Return true if edge is a boundary of edgeContainer
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*/
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static bool IsBoundaryEdge(const TopoDS_Edge& edge,
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const TopoDS_Shape& edgeContainer,
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SMESH_Mesh& mesh);
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};
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#endif
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