174 lines
3.8 KiB
Python
174 lines
3.8 KiB
Python
"""
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Eigenvalue spectrum of graphs.
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"""
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import networkx as nx
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__all__ = [
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"laplacian_spectrum",
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"adjacency_spectrum",
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"modularity_spectrum",
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"normalized_laplacian_spectrum",
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"bethe_hessian_spectrum",
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]
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def laplacian_spectrum(G, weight="weight"):
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"""Returns eigenvalues of the Laplacian of G
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Parameters
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----------
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G : graph
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A NetworkX graph
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weight : string or None, optional (default='weight')
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The edge data key used to compute each value in the matrix.
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If None, then each edge has weight 1.
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Returns
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-------
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evals : NumPy array
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Eigenvalues
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Notes
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-----
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For MultiGraph/MultiDiGraph, the edges weights are summed.
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See to_numpy_array for other options.
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See Also
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--------
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laplacian_matrix
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"""
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import scipy as sp
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import scipy.linalg # call as sp.linalg
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return sp.linalg.eigvalsh(nx.laplacian_matrix(G, weight=weight).todense())
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def normalized_laplacian_spectrum(G, weight="weight"):
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"""Return eigenvalues of the normalized Laplacian of G
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Parameters
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----------
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G : graph
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A NetworkX graph
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weight : string or None, optional (default='weight')
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The edge data key used to compute each value in the matrix.
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If None, then each edge has weight 1.
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Returns
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-------
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evals : NumPy array
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Eigenvalues
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Notes
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-----
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For MultiGraph/MultiDiGraph, the edges weights are summed.
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See to_numpy_array for other options.
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See Also
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--------
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normalized_laplacian_matrix
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"""
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import scipy as sp
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import scipy.linalg # call as sp.linalg
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return sp.linalg.eigvalsh(
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nx.normalized_laplacian_matrix(G, weight=weight).todense()
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)
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def adjacency_spectrum(G, weight="weight"):
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"""Returns eigenvalues of the adjacency matrix of G.
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Parameters
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----------
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G : graph
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A NetworkX graph
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weight : string or None, optional (default='weight')
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The edge data key used to compute each value in the matrix.
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If None, then each edge has weight 1.
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Returns
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-------
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evals : NumPy array
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Eigenvalues
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Notes
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-----
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For MultiGraph/MultiDiGraph, the edges weights are summed.
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See to_numpy_array for other options.
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See Also
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--------
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adjacency_matrix
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"""
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import scipy as sp
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import scipy.linalg # call as sp.linalg
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return sp.linalg.eigvals(nx.adjacency_matrix(G, weight=weight).todense())
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def modularity_spectrum(G):
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"""Returns eigenvalues of the modularity matrix of G.
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Parameters
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----------
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G : Graph
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A NetworkX Graph or DiGraph
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Returns
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-------
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evals : NumPy array
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Eigenvalues
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See Also
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--------
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modularity_matrix
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References
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----------
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.. [1] M. E. J. Newman, "Modularity and community structure in networks",
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Proc. Natl. Acad. Sci. USA, vol. 103, pp. 8577-8582, 2006.
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"""
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import scipy as sp
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import scipy.linalg # call as sp.linalg
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if G.is_directed():
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return sp.linalg.eigvals(nx.directed_modularity_matrix(G))
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else:
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return sp.linalg.eigvals(nx.modularity_matrix(G))
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def bethe_hessian_spectrum(G, r=None):
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"""Returns eigenvalues of the Bethe Hessian matrix of G.
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Parameters
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----------
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G : Graph
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A NetworkX Graph or DiGraph
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r : float
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Regularizer parameter
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Returns
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-------
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evals : NumPy array
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Eigenvalues
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See Also
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--------
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bethe_hessian_matrix
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References
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----------
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.. [1] A. Saade, F. Krzakala and L. Zdeborová
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"Spectral clustering of graphs with the bethe hessian",
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Advances in Neural Information Processing Systems. 2014.
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"""
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import scipy as sp
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import scipy.linalg # call as sp.linalg
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return sp.linalg.eigvalsh(nx.bethe_hessian_matrix(G, r).todense())
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