160 lines
4.4 KiB
Python
160 lines
4.4 KiB
Python
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"""Trophic levels"""
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import networkx as nx
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from networkx.utils import not_implemented_for
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__all__ = ["trophic_levels", "trophic_differences", "trophic_incoherence_parameter"]
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@not_implemented_for("undirected")
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def trophic_levels(G, weight="weight"):
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r"""Compute the trophic levels of nodes.
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The trophic level of a node $i$ is
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.. math::
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s_i = 1 + \frac{1}{k^{in}_i} \sum_{j} a_{ij} s_j
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where $k^{in}_i$ is the in-degree of i
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.. math::
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k^{in}_i = \sum_{j} a_{ij}
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and nodes with $k^{in}_i = 0$ have $s_i = 1$ by convention.
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These are calculated using the method outlined in Levine [1]_.
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Parameters
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----------
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G : DiGraph
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A directed networkx graph
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Returns
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-------
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nodes : dict
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Dictionary of nodes with trophic level as the value.
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References
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----------
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.. [1] Stephen Levine (1980) J. theor. Biol. 83, 195-207
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"""
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import numpy as np
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# find adjacency matrix
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a = nx.adjacency_matrix(G, weight=weight).T.toarray()
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# drop rows/columns where in-degree is zero
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rowsum = np.sum(a, axis=1)
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p = a[rowsum != 0][:, rowsum != 0]
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# normalise so sum of in-degree weights is 1 along each row
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p = p / rowsum[rowsum != 0][:, np.newaxis]
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# calculate trophic levels
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nn = p.shape[0]
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i = np.eye(nn)
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try:
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n = np.linalg.inv(i - p)
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except np.linalg.LinAlgError as err:
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# LinAlgError is raised when there is a non-basal node
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msg = (
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"Trophic levels are only defined for graphs where every "
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+ "node has a path from a basal node (basal nodes are nodes "
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+ "with no incoming edges)."
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)
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raise nx.NetworkXError(msg) from err
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y = n.sum(axis=1) + 1
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levels = {}
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# all nodes with in-degree zero have trophic level == 1
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zero_node_ids = (node_id for node_id, degree in G.in_degree if degree == 0)
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for node_id in zero_node_ids:
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levels[node_id] = 1
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# all other nodes have levels as calculated
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nonzero_node_ids = (node_id for node_id, degree in G.in_degree if degree != 0)
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for i, node_id in enumerate(nonzero_node_ids):
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levels[node_id] = y[i]
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return levels
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@not_implemented_for("undirected")
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def trophic_differences(G, weight="weight"):
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r"""Compute the trophic differences of the edges of a directed graph.
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The trophic difference $x_ij$ for each edge is defined in Johnson et al.
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[1]_ as:
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.. math::
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x_ij = s_j - s_i
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Where $s_i$ is the trophic level of node $i$.
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Parameters
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----------
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G : DiGraph
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A directed networkx graph
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Returns
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-------
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diffs : dict
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Dictionary of edges with trophic differences as the value.
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References
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----------
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.. [1] Samuel Johnson, Virginia Dominguez-Garcia, Luca Donetti, Miguel A.
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Munoz (2014) PNAS "Trophic coherence determines food-web stability"
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"""
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levels = trophic_levels(G, weight=weight)
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diffs = {}
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for u, v in G.edges:
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diffs[(u, v)] = levels[v] - levels[u]
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return diffs
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@not_implemented_for("undirected")
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def trophic_incoherence_parameter(G, weight="weight", cannibalism=False):
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r"""Compute the trophic incoherence parameter of a graph.
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Trophic coherence is defined as the homogeneity of the distribution of
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trophic distances: the more similar, the more coherent. This is measured by
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the standard deviation of the trophic differences and referred to as the
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trophic incoherence parameter $q$ by [1].
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Parameters
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----------
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G : DiGraph
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A directed networkx graph
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cannibalism: Boolean
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If set to False, self edges are not considered in the calculation
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Returns
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-------
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trophic_incoherence_parameter : float
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The trophic coherence of a graph
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References
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----------
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.. [1] Samuel Johnson, Virginia Dominguez-Garcia, Luca Donetti, Miguel A.
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Munoz (2014) PNAS "Trophic coherence determines food-web stability"
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"""
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import numpy as np
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if cannibalism:
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diffs = trophic_differences(G, weight=weight)
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else:
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# If no cannibalism, remove self-edges
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self_loops = list(nx.selfloop_edges(G))
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if self_loops:
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# Make a copy so we do not change G's edges in memory
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G_2 = G.copy()
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G_2.remove_edges_from(self_loops)
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else:
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# Avoid copy otherwise
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G_2 = G
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diffs = trophic_differences(G_2, weight=weight)
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return np.std(list(diffs.values()))
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