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mightyscape-1.1-deprecated/extensions/networkx/algorithms/centrality/voterank_alg.py

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2020-07-30 01:16:18 +02:00
# Copyright (C) 2017 by
# Fredrik Erlandsson <fredrik.e@gmail.com>
# All rights reserved.
# BSD license.
#
"""Algorithm to compute influential seeds in a graph using voterank."""
from networkx.utils.decorators import not_implemented_for
__all__ = ['voterank']
__author__ = """\n""".join(['Fredrik Erlandsson <fredrik.e@gmail.com>',
'Piotr Brodka (piotr.brodka@pwr.edu.pl'])
@not_implemented_for('directed')
def voterank(G, number_of_nodes=None, max_iter=10000):
"""Compute a list of seeds for the nodes in the graph using VoteRank
VoteRank [1]_ computes a ranking of the nodes in the graph G based on a voting
scheme. With VoteRank, all nodes vote for each neighbours and the node with
the highest score is elected iteratively. The voting ability of neighbors of
elected nodes will be decreased in subsequent turn.
Parameters
----------
G : graph
A NetworkX graph.
number_of_nodes : integer, optional
Number of ranked nodes to extract (default all nodes).
max_iter : integer, optional
Maximum number of iterations to rank nodes.
Returns
-------
voterank : list
Ordered list of computed seeds.
Raises
------
NetworkXNotImplemented:
If G is digraph.
References
----------
.. [1] Zhang, J.-X. et al. (2016).
Identifying a set of influential spreaders in complex networks.
Sci. Rep. 6, 27823; doi: 10.1038/srep27823.
"""
voterank = []
if len(G) == 0:
return voterank
if number_of_nodes is None or number_of_nodes > len(G):
number_of_nodes = len(G)
avgDegree = sum(deg for _, deg in G.degree()) / float(len(G))
# step 1 - initiate all nodes to (0,1) (score, voting ability)
for _, v in G.nodes(data=True):
v['voterank'] = [0, 1]
# Repeat steps 1b to 4 until num_seeds are elected.
for _ in range(max_iter):
# step 1b - reset rank
for _, v in G.nodes(data=True):
v['voterank'][0] = 0
# step 2 - vote
for n, nbr in G.edges():
G.nodes[n]['voterank'][0] += G.nodes[nbr]['voterank'][1]
G.nodes[nbr]['voterank'][0] += G.nodes[n]['voterank'][1]
for n in voterank:
G.nodes[n]['voterank'][0] = 0
# step 3 - select top node
n, value = max(G.nodes(data=True),
key=lambda x: x[1]['voterank'][0])
if value['voterank'][0] == 0:
return voterank
voterank.append(n)
if len(voterank) >= number_of_nodes:
return voterank
# weaken the selected node
G.nodes[n]['voterank'] = [0, 0]
# step 4 - update voterank properties
for nbr in G.neighbors(n):
G.nodes[nbr]['voterank'][1] -= 1 / avgDegree
return voterank