1

I want to plot a graph in Sage with edges colored differently according to whether they meet a certain condition. Nothing in the documentation I have read so far has information on coloring a specific edge of a graph.

I do not know what function could do this, but I have set the code up, which I will show:

for edge in g.edges()
    if edge[2] == -1:
        edge = ? # not sure how to change color of the edge
1

Plotting different edges in different colors is built into Sage!

See the edge_color and edge_colors optional arguments of the plot method of graphs listed in the table of graph plotting options in the "Graph plotting" page of the SageMath reference manual and the example there that says "This example shows off the coloring of edges".

See also the examples illustrating the set_edges method of graphs.

To illustrate one way to achieve the requested coloring, start from the Petersen graph and label the edges by 1 if they join vertices of different parity, and by -1 otherwise.

sage: g = graphs.PetersenGraph()
sage: for u, v, c in g.edge_iterator():
....:     g.set_edge_label(u, v, (u - v) % 2 - (u - v + 1) % 2)
....:

Observe the result:

sage: g.edges()
[(0, 1, 1),
 (0, 4, -1),
 (0, 5, 1),
 (1, 2, 1),
 (1, 6, 1),
 (2, 3, 1),
 (2, 7, 1),
 (3, 4, 1),
 (3, 8, 1),
 (4, 9, 1),
 (5, 7, -1),
 (5, 8, 1),
 (6, 8, -1),
 (6, 9, 1),
 (7, 9, -1)]

To plot the edges blue or red accordingly:

sage: red_edges = [e for e in g.edge_iterator() if e[2] == -1]
sage: g.plot(edge_color='blue', edge_colors={'red': red_edges})
Launched png viewer for Graphics object consisting of 26 graphics primitives

Petersen graph colored by parity

One could also have done:

sage: blue_edges = [e for e in g.edge_iterator() if e[2] != -1]
sage: red_edges = [e for e in g.edge_iterator() if e[2] == -1]
sage: g.plot(edge_colors={'blue': blue_edges, 'red': red_edges})
Launched png viewer for Graphics object consisting of 26 graphics primitives

The rest of this answer explains how we could do this by hand: create a subgraph for each edge color, and then plot these subgraphs together.

To illustrate this, start from the Petersen graph, and color edges differently depending on whether they are between vertices of same parity.

sage: g = graphs.PetersenGraph()

sage: a = copy(g)  # edges between vertices of different parity
sage: b = copy(g)  # edges between vertices of same parity

sage: for u, v, c in g.edge_iterator():
....:     if (u - v) % 2:
....:         b.delete_edge(u, v)
....:     else:
....:         a.delete_edge(u, v)

sage: pa = a.plot(axes=False, edge_color='blue')
sage: pb = b.plot(axes=False, edge_color='red')
sage: p = pa + pb
sage: p.show()
Launched png viewer for Graphics object consisting of 37 graphics primitives

Petersen graph colored by parity

To save the plot:

sage: p.save('Petersen_graph_by_parity.png')

For the original problem, use if c == -1 instead of if (u - v) % 2 to decide whether to delete the edge from b or from a. Also, the Petersen graph comes with vertex positions already set, which might not be true of the graph g in the question, in which case replace the two lines defining pa and pb by:

sage: pa = a.plot(axes=False, edge_color='blue', save_pos=True)
sage: pb = b.plot(axes=False, edge_color='red', pos=pa.get_pos())

This answer is inspired by Thierry Monteil's answer to a similar question:

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.