""" Functions related to graph covers.""" from functools import partial from itertools import chain import networkx as nx from networkx.utils import arbitrary_element, not_implemented_for __all__ = ["min_edge_cover", "is_edge_cover"] @not_implemented_for("directed") @not_implemented_for("multigraph") @nx._dispatchable def min_edge_cover(G, matching_algorithm=None): """Returns the min cardinality edge cover of the graph as a set of edges. A smallest edge cover can be found in polynomial time by finding a maximum matching and extending it greedily so that all nodes are covered. This function follows that process. A maximum matching algorithm can be specified for the first step of the algorithm. The resulting set may return a set with one 2-tuple for each edge, (the usual case) or with both 2-tuples `(u, v)` and `(v, u)` for each edge. The latter is only done when a bipartite matching algorithm is specified as `matching_algorithm`. Parameters ---------- G : NetworkX graph An undirected graph. matching_algorithm : function A function that returns a maximum cardinality matching for `G`. The function must take one input, the graph `G`, and return either a set of edges (with only one direction for the pair of nodes) or a dictionary mapping each node to its mate. If not specified, :func:`~networkx.algorithms.matching.max_weight_matching` is used. Common bipartite matching functions include :func:`~networkx.algorithms.bipartite.matching.hopcroft_karp_matching` or :func:`~networkx.algorithms.bipartite.matching.eppstein_matching`. Returns ------- min_cover : set A set of the edges in a minimum edge cover in the form of tuples. It contains only one of the equivalent 2-tuples `(u, v)` and `(v, u)` for each edge. If a bipartite method is used to compute the matching, the returned set contains both the 2-tuples `(u, v)` and `(v, u)` for each edge of a minimum edge cover. Examples -------- >>> G = nx.Graph([(0, 1), (0, 2), (0, 3), (1, 2), (1, 3)]) >>> sorted(nx.min_edge_cover(G)) [(2, 1), (3, 0)] Notes ----- An edge cover of a graph is a set of edges such that every node of the graph is incident to at least one edge of the set. The minimum edge cover is an edge covering of smallest cardinality. Due to its implementation, the worst-case running time of this algorithm is bounded by the worst-case running time of the function ``matching_algorithm``. Minimum edge cover for `G` can also be found using the `min_edge_covering` function in :mod:`networkx.algorithms.bipartite.covering` which is simply this function with a default matching algorithm of :func:`~networkx.algorithms.bipartite.matching.hopcraft_karp_matching` """ if len(G) == 0: return set() if nx.number_of_isolates(G) > 0: # ``min_cover`` does not exist as there is an isolated node raise nx.NetworkXException( "Graph has a node with no edge incident on it, so no edge cover exists." ) if matching_algorithm is None: matching_algorithm = partial(nx.max_weight_matching, maxcardinality=True) maximum_matching = matching_algorithm(G) # ``min_cover`` is superset of ``maximum_matching`` try: # bipartite matching algs return dict so convert if needed min_cover = set(maximum_matching.items()) bipartite_cover = True except AttributeError: min_cover = maximum_matching bipartite_cover = False # iterate for uncovered nodes uncovered_nodes = set(G) - {v for u, v in min_cover} - {u for u, v in min_cover} for v in uncovered_nodes: # Since `v` is uncovered, each edge incident to `v` will join it # with a covered node (otherwise, if there were an edge joining # uncovered nodes `u` and `v`, the maximum matching algorithm # would have found it), so we can choose an arbitrary edge # incident to `v`. (This applies only in a simple graph, not a # multigraph.) u = arbitrary_element(G[v]) min_cover.add((u, v)) if bipartite_cover: min_cover.add((v, u)) return min_cover @not_implemented_for("directed") @nx._dispatchable def is_edge_cover(G, cover): """Decides whether a set of edges is a valid edge cover of the graph. Given a set of edges, whether it is an edge covering can be decided if we just check whether all nodes of the graph has an edge from the set, incident on it. Parameters ---------- G : NetworkX graph An undirected bipartite graph. cover : set Set of edges to be checked. Returns ------- bool Whether the set of edges is a valid edge cover of the graph. Examples -------- >>> G = nx.Graph([(0, 1), (0, 2), (0, 3), (1, 2), (1, 3)]) >>> cover = {(2, 1), (3, 0)} >>> nx.is_edge_cover(G, cover) True Notes ----- An edge cover of a graph is a set of edges such that every node of the graph is incident to at least one edge of the set. """ return set(G) <= set(chain.from_iterable(cover))