# I'm trying to perform the transitive reduction of directed graph in Python

As a warning, I'm still a bit inexperienced in python

I'm trying to perform the transitive reduction of directed graph using the networkx library. I've figured out an algorithm but I'm having trouble implementing it. After a quick search, I found algorithms similar to mine in other stack exchange questions but no demonstrations of how to actually code the algorithm.

Here's my algorthm:

``````    For X in Nodes
For Y in Nodes
For z in Nodes
if (x,y) != (y,z) and (x,y) != (x,z)
if edges xy and yz are in Graph
delete xz
``````

Here's my attempt at expressing this in python :

``````    G = graph
N = G.Nodes()
for  x in N:
for y in N:
for z in N:
if (x,y) != (y,z) and (x,y) != (x,z):
if (x,y) and (y,z) in G:
G.remove_edge(x,z)
``````

I don't think I'm properly calling every permutation of edges in the network and was thinking of trying to use itertools. Even if I had every possible permutation, I don't know how to implement the algorithm with that information.

Any help would be wonderful. Thanks!

-
Do you have a sample graph `G` and expected output? –  jedwards Jun 13 '13 at 3:42
I have created a small toy network to try the code on. It's about 10 nodes and I already reduced it by hand. The main problem I ran into is that my network showed not a single deleted edge after implementing the algorithm. edit: I will eventually have to reduce a graph imported from an .graphml file –  Ghaleon Jun 13 '13 at 4:23

The following seems to work, at least for the sample data I provided. If you have a specific case that doesn't it'd be helpful to see it.

``````import random
import pprint

class Graph:
nodes = []
edges = []
removed_edges = []
def remove_edge(self,x,y):
e = (x,y)
try:
self.edges.remove(e)
print("Removed edge %s" % str(e))
self.removed_edges.append(e)
except:
print("Attempted to remove edge %s, but it wasn't there" % str(e))

def Nodes(self):
return self.nodes

# Sample data
def __init__(self):
self.nodes = [1,2,3,4,5]
self.edges = [
(1,2),
(1,3),
(1,4),
(1,5),
(2,4),
(3,4),
(3,5),
(4,5),
]

G = Graph()
N = G.Nodes()
for  x in N:
for y in N:
for z in N:
#print("(%d,%d,%d)" % (x,y,z))
if (x,y) != (y,z) and (x,y) != (x,z):
if (x,y) in G.edges and (y,z) in G.edges:
G.remove_edge(x,z)

print("Removed edges:")
pprint.pprint(G.removed_edges)
print("Remaining edges:")
pprint.pprint(G.edges)
``````

Output:

``````Removed edge (1, 4)
Attempted to remove edge (1, 4), but it wasn't there
Removed edge (1, 5)
Attempted to remove edge (2, 5), but it wasn't there
Removed edge (3, 5)
Removed edges:
[(1, 4), (1, 5), (3, 5)]
Remaining edges:
[(1, 2), (1, 3), (2, 4), (3, 4), (4, 5)]
``````
-
This worked for my network, Thanks! Can you explain why you added the rest of the code and what it actually does? It seems that the initial code I wrote wasn't defining how to remove an edge correctly. –  Ghaleon Jun 13 '13 at 4:36
I didn't change much. I simply incorporated John Kugelman's answer, and created a Graph class that would act as I expected it should. You can augment your old class with the various print statements I have to see where you error is. –  jedwards Jun 13 '13 at 4:49
This is not correct. For example if we have a graph with edges `a->b->c->d` and `a->d`, it will not discover `a->d` to properly perform transitive reduction. –  koo May 28 at 12:52
``````if (x,y) and (y,z) in G:
``````

This needs to be written as:

``````if (x,y) in G and (y,z) in G:
``````
-
Unfortunately, that did not work. Do you think my problem is python recognizing (x,y) and such as edges in the network? –  Ghaleon Jun 13 '13 at 3:30