GetEigenVectorCentr (SWIG)

GetEigenVectorCentr(Graph, NIdEigenH, Eps=0.0001, MaxIter=100)

Computes eigenvector centrality of all nodes in Graph and stores it in NIdEigenH. Eigenvector Centrality of a node N is defined recursively as the average of centrality values of N’s neighbors in the network.

Parameters:

• Graph: undirected graph (input)

  A Snap.py undirected graph

• NIdEigenH: TIntFltH, a hash table of int keys and float values (output)

  Hash table mapping node ids to their corresponding eigenvector centrality values.

• Eps: float (input)

  Epsilon (stop when accumulated difference in eigenvector centrality value for all nodes in an iteration is less than epsilon).

• MaxIter: int (input)

  Maximum number of iterations (stop when exceeding this number of iterations).

Return value:

• None

The following example shows how to calculate eigenvector centrality values for nodes in TUNGraph:

import snap

UGraph = snap.GenRndGnm(snap.PUNGraph, 100, 1000)
NIdEigenH = snap.TIntFltH()
snap.GetEigenVectorCentr(UGraph, NIdEigenH)
for item in NIdEigenH:
    print("%node: d centrality: %f" % (item, NIdEigenH[item]))