198 lines
4.1 KiB
Python
198 lines
4.1 KiB
Python
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# -*- coding: utf-8 -*-
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# Copyright (C) 2004-2019 by
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# Aric Hagberg <hagberg@lanl.gov>
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# Dan Schult <dschult@colgate.edu>
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# Pieter Swart <swart@lanl.gov>
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# All rights reserved.
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# BSD license.
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#
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# Authors: Eben Kenah
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# Aric Hagberg (hagberg@lanl.gov)
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# Christopher Ellison
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"""Connected components."""
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import warnings as _warnings
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import networkx as nx
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from networkx.utils.decorators import not_implemented_for
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from ...utils import arbitrary_element
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__all__ = [
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'number_connected_components',
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'connected_components',
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'is_connected',
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'node_connected_component',
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]
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@not_implemented_for('directed')
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def connected_components(G):
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"""Generate connected components.
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Parameters
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----------
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G : NetworkX graph
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An undirected graph
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Returns
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-------
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comp : generator of sets
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A generator of sets of nodes, one for each component of G.
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Raises
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------
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NetworkXNotImplemented:
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If G is directed.
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Examples
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--------
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Generate a sorted list of connected components, largest first.
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>>> G = nx.path_graph(4)
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>>> nx.add_path(G, [10, 11, 12])
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>>> [len(c) for c in sorted(nx.connected_components(G), key=len, reverse=True)]
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[4, 3]
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If you only want the largest connected component, it's more
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efficient to use max instead of sort.
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>>> largest_cc = max(nx.connected_components(G), key=len)
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To create the induced subgraph of each component use:
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>>> S = [G.subgraph(c).copy() for c in connected_components(G)]
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See Also
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--------
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strongly_connected_components
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weakly_connected_components
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Notes
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-----
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For undirected graphs only.
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"""
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seen = set()
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for v in G:
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if v not in seen:
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c = set(_plain_bfs(G, v))
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yield c
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seen.update(c)
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def number_connected_components(G):
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"""Returns the number of connected components.
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Parameters
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----------
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G : NetworkX graph
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An undirected graph.
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Returns
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-------
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n : integer
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Number of connected components
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See Also
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--------
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connected_components
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number_weakly_connected_components
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number_strongly_connected_components
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Notes
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-----
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For undirected graphs only.
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"""
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return sum(1 for cc in connected_components(G))
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@not_implemented_for('directed')
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def is_connected(G):
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"""Returns True if the graph is connected, False otherwise.
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Parameters
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----------
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G : NetworkX Graph
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An undirected graph.
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Returns
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-------
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connected : bool
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True if the graph is connected, false otherwise.
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Raises
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------
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NetworkXNotImplemented:
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If G is directed.
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Examples
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--------
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>>> G = nx.path_graph(4)
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>>> print(nx.is_connected(G))
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True
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See Also
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--------
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is_strongly_connected
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is_weakly_connected
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is_semiconnected
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is_biconnected
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connected_components
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Notes
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-----
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For undirected graphs only.
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"""
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if len(G) == 0:
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raise nx.NetworkXPointlessConcept('Connectivity is undefined ',
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'for the null graph.')
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return sum(1 for node in _plain_bfs(G, arbitrary_element(G))) == len(G)
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@not_implemented_for('directed')
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def node_connected_component(G, n):
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"""Returns the set of nodes in the component of graph containing node n.
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Parameters
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----------
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G : NetworkX Graph
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An undirected graph.
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n : node label
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A node in G
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Returns
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-------
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comp : set
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A set of nodes in the component of G containing node n.
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Raises
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------
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NetworkXNotImplemented:
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If G is directed.
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See Also
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--------
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connected_components
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Notes
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-----
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For undirected graphs only.
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"""
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return set(_plain_bfs(G, n))
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def _plain_bfs(G, source):
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"""A fast BFS node generator"""
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G_adj = G.adj
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seen = set()
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nextlevel = {source}
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while nextlevel:
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thislevel = nextlevel
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nextlevel = set()
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for v in thislevel:
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if v not in seen:
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yield v
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seen.add(v)
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nextlevel.update(G_adj[v])
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