"""Unary operations on graphs""" # Copyright (C) 2004-2018 by # Aric Hagberg # Dan Schult # Pieter Swart # All rights reserved. # BSD license. import networkx as nx from networkx.utils import not_implemented_for __author__ = """\n""".join(['Aric Hagberg ', 'Pieter Swart (swart@lanl.gov)', 'Dan Schult(dschult@colgate.edu)']) __all__ = ['complement', 'reverse'] def complement(G): """Return the graph complement of G. Parameters ---------- G : graph A NetworkX graph Returns ------- GC : A new graph. Notes ------ Note that complement() does not create self-loops and also does not produce parallel edges for MultiGraphs. Graph, node, and edge data are not propagated to the new graph. """ R = G.__class__() R.add_nodes_from(G) R.add_edges_from(((n, n2) for n, nbrs in G.adjacency() for n2 in G if n2 not in nbrs if n != n2)) return R def reverse(G, copy=True): """Return the reverse directed graph of G. Parameters ---------- G : directed graph A NetworkX directed graph copy : bool If True, then a new graph is returned. If False, then the graph is reversed in place. Returns ------- H : directed graph The reversed G. """ if not G.is_directed(): raise nx.NetworkXError("Cannot reverse an undirected graph.") else: return G.reverse(copy=copy)