IsIncidentEdge ( IEdge edge ) { AssertValid(); const String MethodName = "IsIncidentEdge"; const String ArgumentName = "edge"; this.ArgumentChecker.CheckArgumentNotNull( MethodName, ArgumentName, edge); IVertex oVertex1, oVertex2; EdgeUtil.EdgeToVertices(edge, this.ClassName, MethodName, out oVertex1, out oVertex2); return(oVertex1 == this || oVertex2 == this); }
Clone ( Boolean copyMetadataValues, Boolean copyTag ) { AssertValid(); const String MethodName = "Clone"; IGraph oNewGraph = new Graph(m_eDirectedness); // Copy the base-class fields to the new edge. this.CopyTo(oNewGraph, copyMetadataValues, copyTag); // The vertices need to be copied to the new graph. Loop through the // vertices in this original graph. IVertexCollection oNewVertices = oNewGraph.Vertices; foreach (IVertex oOriginalVertex in m_oVertexCollection) { IVertex oNewVertex = oOriginalVertex.Clone( copyMetadataValues, copyTag); // To make it easier to copy the edges in this original graph, // temporarily store the ID of the new vertex in the Tag of the // original vertex. Save the Tag so it can be restored later. oOriginalVertex.Tag = new VertexMapper(oOriginalVertex.Tag, oNewVertex); oNewVertices.Add(oNewVertex); } // The edges need to be copied to the new graph. Loop through the // edges in this original graph. IEdgeCollection oNewEdges = oNewGraph.Edges; foreach (IEdge oOriginalEdge in m_oEdgeCollection) { // Get the original edge's vertices. IVertex oOriginalVertex1, oOriginalVertex2; EdgeUtil.EdgeToVertices(oOriginalEdge, this.ClassName, MethodName, out oOriginalVertex1, out oOriginalVertex2); // Retrieve the VertexMapper objects that were temporarily stored // in the vertices' Tags. Debug.Assert(oOriginalVertex1.Tag is VertexMapper); Debug.Assert(oOriginalVertex2.Tag is VertexMapper); VertexMapper oVertexMapper1 = (VertexMapper)oOriginalVertex1.Tag; VertexMapper oVertexMapper2 = (VertexMapper)oOriginalVertex2.Tag; // Get the new vertices that correspond to the original edge's // vertices. IVertex oNewVertex1 = oVertexMapper1.NewVertex; IVertex oNewVertex2 = oVertexMapper2.NewVertex; // Copy the original edge, connecting the new vertices in the // process. IEdge oNewEdge = oOriginalEdge.Clone(copyMetadataValues, copyTag, oNewVertex1, oNewVertex2, oOriginalEdge.IsDirected); oNewEdges.Add(oNewEdge); } // Restore the original vertices' Tags. foreach (IVertex oOriginalVertex in m_oVertexCollection) { Debug.Assert(oOriginalVertex.Tag is VertexMapper); VertexMapper oVertexMapper = (VertexMapper)oOriginalVertex.Tag; oOriginalVertex.Tag = oVertexMapper.OriginalVertexTag; } return(oNewGraph); }
IsParallelTo ( IEdge otherEdge ) { AssertValid(); const String MethodName = "IsParallelTo"; const String ArgumentName = "otherEdge"; this.ArgumentChecker.CheckArgumentNotNull( MethodName, ArgumentName, otherEdge); IVertex oOtherVertex1, oOtherVertex2; // Get the other edge's vertices. EdgeUtil.EdgeToVertices(otherEdge, this.ClassName, MethodName, out oOtherVertex1, out oOtherVertex2); // The following code implements the table in the documentation for // IEdge.IsParallelTo(). if ( !( (m_oVertex1 == oOtherVertex1 && m_oVertex2 == oOtherVertex2) || (m_oVertex1 == oOtherVertex2 && m_oVertex2 == oOtherVertex1) ) ) { // The two edges do not connect the same two vertices. return(false); } switch (this.ParentGraph.Directedness) { case GraphDirectedness.Directed: Debug.Assert(this.IsDirected && otherEdge.IsDirected); return(m_oVertex1 == oOtherVertex1); case GraphDirectedness.Undirected: Debug.Assert(!this.IsDirected && !otherEdge.IsDirected); return(true); case GraphDirectedness.Mixed: if (!this.IsDirected || !otherEdge.IsDirected) { return(true); } return(m_oVertex1 == oOtherVertex1); default: Debug.Assert(false); return(false); } }