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I need help since I'm not expert in programming.

How can I draw a planar graph (A graph is said to be planar if it can be drawn in the plane such that there are no edge-crossings) for a given graph with n nodes and E edges. and then flip the edges to have another planar graph.( for loop until we get all the possibilities).

Thanks in advance,and I appreciate your help.


>>>#visualize with pygraphviz
    File "<stdin>", line 6
    SyntaxError: invalid syntax
>>> A.add_edges_from(G.edges())
    Traceback (most recent call last):
    File "<stdin>", line 1, in <module>
    NameError: name 'A' is not defined
>>> A.layout(prog='dot')
    Traceback (most recent call last):
    File "<stdin>", line 1, in <module>
    NameError: name 'A' is not defined
>>> A.draw('planar.png')
    Traceback (most recent call last):
    File "<stdin>", line 1, in <module>
    NameError: name 'A' is not defined
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closed as not a real question by casperOne Feb 8 '12 at 14:43

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center. If this question can be reworded to fit the rules in the help center, please edit the question.

Welcome to StackOverflow. This is a questions-and-answer site. Please review the FAQ: stackoverflow.com/faq –  NPE Feb 7 '12 at 9:07
Do you need to draw a planar graph that also "visually" looks planar? –  Max Li Feb 7 '12 at 11:00
A related question: Are there any online algorithms for planarity testing? –  ypercube Feb 7 '12 at 14:29

1 Answer 1

There are several hard computational problems involved in your question.

First, some theory. If the graph G is planar, then every subgraph of G is planar. Flipping edges from G (that has e edges), would give 2^e-1 planar subgraphs (if we don't care about connectivity), which is exponential (i.e. huge and "bad"). Probably, you'd like to find "maximal" planar subgraphs.

If you'd like to draw planar graphs which also look like planar is computationally hard, i.e. it's one thing to know that there exists a graphical representation where the edges don't cross and another to find such a representation.

To implementation. It seems like networkx doesn't have the function that checks if a graph is planar. Some other packages that work with graphs have (for instance, sage has g.is_planar() function where g is a graph object). Below, I wrote a "naive" (there must be more efficient methods) planarity check with networkx, based on Kuratowski theorem.

import pygraphviz as pgv
import networkx as nx
import itertools as it
from networkx.algorithms import bipartite

def is_planar(G):
    function checks if graph G has K(5) or K(3,3) as minors,
    returns True /False on planarity and nodes of "bad_minor"
    if n>5:
        for subnodes in it.combinations(G.nodes(),6):
            if bipartite.is_bipartite(G):# check if the graph G has a subgraph K(3,3)
                X, Y = bipartite.sets(G)
                if len(X)==3:
    if n>4 and result:
        for subnodes in it.combinations(G.nodes(),5):
            if len(subG.edges())==10:# check if the graph G has a subgraph K(5)
    return result,bad_minor

#create random planar graph with n nodes and p probability of growing
while True:
    if is_planar(G)[0]:
#visualize with pygraphviz

Edit2. If you face troubles with pygraphviz, try to draw with networkx, maybe you find the results ok. So, instead of "visualize with pygraphviz" block try the following:

import matplotlib.pyplot as plt
# comment the line above and uncomment one of the 3 lines below (try each of them):

End of edit2.

The result looks like this.Random planar graph

You see there's one crossing on the picture (but the graph is planar), it's actually a good result (don't forget the problem is computationally hard), pygraphviz is a wrapper to Graphviz which use heuristic algorithms. In the line A.layout(prog='dot') you may try replace 'dot' with 'twopi', 'neato', 'circo' etc to see if you achieve a better visualization.

Edit. Let's also consider your question on planar subgraphs. Let's generate a non-planar graph:

while True:
    if is_planar(J)[0]==False:

I think the most efficient way in finding a planar subgraph is to eliminate nodes from the "bad minor" (i.e. K(5) or K(3,3)). Here is my implementation:

def find_planar_subgraph(G):
    if len(G)<3:
        return G
        if is_planar_boolean:
            return G
            return find_planar_subgraph(G)


>> True

Now you have a planar subgraph L (a networkx graph object) of the non-planar graph G.

share|improve this answer
Planarity testing is not that hard. –  ypercube Feb 7 '12 at 14:28
@ypercube I didn't claim that planarity testing is hard, I claimed it's computationally hard to draw planar graphs with no crossing points –  Max Li Feb 7 '12 at 14:45
Max is right that NetworkX doesn't contain code for planarity testing and drawing. But there is a wrapper for Boyer's C planarity code that interoperates with NetworkX smoothly and contains is_planar() and drawing functions. See bitbucket.org/hagberg/nxtools-planarity for the code and especially the examples at bitbucket.org/hagberg/nxtools-planarity/src/ee97b7dc9807/… –  Aric Feb 7 '12 at 15:46
possibly one of the best SO answers I've seen... good work –  Gareth Davis Feb 8 '12 at 10:26
I wonder if the method of checking for subgraphs will detect graphs homeomorphs as explained here: en.wikipedia.org/wiki/File:Nonplanar_no_subgraph_K_3_3.svg –  Josep Valls Feb 27 '13 at 9:08

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