Note
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Spanning Trees
This example shows how to generate a spanning tree from an input graph using igraph.Graph.spanning_tree(). For the related idea of finding a minimum spanning tree, see Minimum Spanning Trees.
import igraph as ig
import matplotlib.pyplot as plt
import random
First we create a two-dimensional, 6 by 6 lattice graph:
g = ig.Graph.Lattice([6, 6], circular=False)
We can compute the 2D layout of the graph:
To spice things up a little, we rearrange the vertex ids and compute a new layout. While not terribly useful in this context, it does make for a more interesting-looking spanning tree ;-)
random.seed(0)
permutation = list(range(g.vcount()))
random.shuffle(permutation)
g = g.permute_vertices(permutation)
new_layout = g.layout("grid")
for i in range(36):
new_layout[i] = layout[permutation[i]]
layout = new_layout
We can now generate a spanning tree:
spanning_tree = g.spanning_tree(weights=None, return_tree=False)
Finally, we can plot the graph with a highlight color for the spanning tree.
We follow the usual recipe: first we set a few aesthetic options and then we
leverage igraph.plot() and matplotlib for the
heavy lifting: