private static bool FaceShouldBeOwnedFace(Edge edge, PolygonalFace face)
{
var otherEdgeVector = face.OtherVertex(edge.From, edge.To).Position.subtract(edge.To.Position, 3);
var isThisNormal = edge.Vector.crossProduct(otherEdgeVector);
return(face.Normal.dotProduct(isThisNormal, 3) > 0);
}
/// <summary>
/// Combines the vertices of edge.
/// </summary>
/// <param name="edge">The edge.</param>
/// <param name="removedVertexOut">The removed vertex out.</param>
/// <param name="removedEdge1Out">The removed edge1 out.</param>
/// <param name="removedEdge2Out">The removed edge2 out.</param>
/// <param name="removedFace1">The removed face1.</param>
/// <param name="removedFace2">The removed face2.</param>
/// <returns><c>true</c> if XXXX, <c>false</c> otherwise.</returns>
private static bool CombineVerticesOfEdge(Edge edge, out Vertex removedVertexOut, out Edge removedEdge1Out,
out Edge removedEdge2Out, out PolygonalFace removedFace1, out PolygonalFace removedFace2)
{
var keepVertex = edge.To; // arbitrarily choose the To as the keep vertex, but this may be swapped below
var removedVertex = edge.From; // if the To has some missing faces
if (keepVertex == removedVertex)
{
removedVertexOut = null;
removedEdge2Out = removedEdge1Out = null;
removedFace1 = removedFace2 = null;
return(false);
}
removedFace1 = edge.OwnedFace;
removedFace2 = edge.OtherFace;
var removedEdge1 = removedFace1 == null ? null : removedFace1.OtherEdge(keepVertex, true);
var removedEdge2 = removedFace2 == null ? null : removedFace2.OtherEdge(keepVertex, true);
var keepEdge1 = removedFace1 == null ? null : removedFace1.OtherEdge(removedVertex, true);
var keepEdge2 = removedFace2 == null ? null : removedFace2.OtherEdge(removedVertex, true);
if (removedEdge1 != null && removedEdge2 != null && (keepEdge1 == null || keepEdge2 == null))
{
// swap with removed.
var tempVertex = keepVertex;
keepVertex = removedVertex;
removedVertex = tempVertex;
var tempEdge = keepEdge1;
keepEdge1 = removedEdge1;
removedEdge1 = tempEdge;
tempEdge = keepEdge2;
keepEdge2 = removedEdge2;
removedEdge2 = tempEdge;
}
var otherEdgesOnTheKeepSide =
keepVertex.Edges.Where(e => e != edge && e != keepEdge1 && e != keepEdge2).ToList();
var otherEdgesOnTheRemoveSide =
removedVertex.Edges.Where(e => e != edge && e != removedEdge1 && e != removedEdge2).ToList();
if ( // this is a topologically important check. It ensures that the edge is not deleted if
// it serves an important role in ensuring the proper topology of the solid
otherEdgesOnTheKeepSide.Select(e => e.OtherVertex(keepVertex))
.Intersect(otherEdgesOnTheRemoveSide.Select(e => e.OtherVertex(removedVertex)))
.Any())
{
removedVertexOut = null;
removedEdge2Out = removedEdge1Out = null;
removedFace1 = removedFace2 = null;
return(false);
}
// move edges connected to removeVertex to the keepVertex and let keepVertex link back to these edges
foreach (var e in otherEdgesOnTheRemoveSide)
{
keepVertex.Edges.Add(e);
if (e.From == removedVertex)
{
e.From = keepVertex;
}
else
{
e.To = keepVertex;
}
}
// move faces connected to removeVertex to the keepVertex and let keepVertex link back to these edges.
foreach (var face in removedVertex.Faces)
{
if (face == removedFace1 || face == removedFace2)
{
continue;
}
keepVertex.Faces.Add(face);
face.Vertices[face.Vertices.IndexOf(removedVertex)] = keepVertex;
}
// conversely keepVertex should forget about the edge and the remove faces
keepVertex.Edges.Remove(edge);
keepVertex.Faces.Remove(removedFace1);
keepVertex.Faces.Remove(removedFace2);
var farVertex = removedFace1 == null ? null : removedFace1.OtherVertex(edge, true);
if (farVertex != null)
{
farVertex.Edges.Remove(removedEdge1);
farVertex.Faces.Remove(removedFace1);
}
farVertex = removedFace2 == null ? null : removedFace2.OtherVertex(edge, true);
if (farVertex != null)
{
farVertex.Edges.Remove(removedEdge2);
farVertex.Faces.Remove(removedFace2);
}
// for the winged edges (removedEdge1 and removedEdge2) that are removed, connected their faces to
// the new edge
// first on the "owned side of edge"
var fromFace = removedEdge1 == null
? null
: removedEdge1.OwnedFace == removedFace1 ? removedEdge1.OtherFace : removedEdge1.OwnedFace;
if (fromFace != null)
{
var index = fromFace.Edges.IndexOf(removedEdge1);
if (index >= 0 && index < fromFace.Edges.Count)
{
fromFace.Edges[index] = keepEdge1;
}
}
if (keepEdge1 != null && keepEdge1.OwnedFace == removedFace1)
{
keepEdge1.OwnedFace = fromFace;
}
else if (keepEdge1 != null)
{
keepEdge1.OtherFace = fromFace;
}
// second on the "other side of edge"
fromFace = removedEdge2 == null
? null
: removedEdge2.OwnedFace == removedFace2 ? removedEdge2.OtherFace : removedEdge2.OwnedFace;
if (fromFace != null)
{
var index = fromFace.Edges.IndexOf(removedEdge2);
if (index >= 0 && index < fromFace.Edges.Count)
{
fromFace.Edges[index] = keepEdge2;
}
}
if (keepEdge2 != null && keepEdge2.OwnedFace == removedFace2)
{
keepEdge2.OwnedFace = fromFace;
}
else if (keepEdge2 != null)
{
keepEdge2.OtherFace = fromFace;
}
keepVertex.Position = DetermineIntermediateVertexPosition(keepVertex, removedVertex);
foreach (var e in keepVertex.Edges)
{
e.Update();
}
foreach (var f in keepVertex.Faces)
{
f.Update();
}
removedVertexOut = removedVertex;
removedEdge1Out = removedEdge1;
removedEdge2Out = removedEdge2;
return(true);
}
