Find all paths between two vertices (nodes) in a graph using Python

I have the following Python code, and it works perfect with the directed graph. My question is how to modify the code in such way to find all the paths with ignoring the directions of the edges.

For example, if we have the following connections:

1->2

3->2

My code will not return a path between 1 and 3, which is expected as it is directed. But with ignoring the directions of edges the code should find a path from 1 to 3.

I want the code to ignore the direction and finds all the paths between the two given nodes.

I tried the proposed solution and it works really nice, the solution is: "The simplest solution might be to pre-process your graph by adding the arc B->A for every A->B that's in the graph."

What I really wanted is to modify the algorithm itself to deal with the graph as is.

Python Code:

``````# a sample graph
graph = {'A': ['B', 'C','E'],
'B': ['A','C', 'D'],
'C': ['D'],
'D': ['C'],
'E': ['F','D'],
'F': ['C']}

class MyQUEUE: # just an implementation of a queue

def __init__(self):
self.holder = []

def enqueue(self,val):
self.holder.append(val)

def dequeue(self):
val = None
try:
val = self.holder[0]
if len(self.holder) == 1:
self.holder = []
else:
self.holder = self.holder[1:]
except:
pass

return val

def IsEmpty(self):
result = False
if len(self.holder) == 0:
result = True
return result

path_queue = MyQUEUE() # now we make a queue

def BFS(graph,start,end,q):

temp_path = [start]

q.enqueue(temp_path)

while q.IsEmpty() == False:
tmp_path = q.dequeue()
last_node = tmp_path[len(tmp_path)-1]
#print tmp_path
if last_node == end:
print "VALID_PATH : ",tmp_path
new_path = []
q.enqueue(new_path)

BFS(graph,"A","D",path_queue)
``````

-------------Output of the Code-------------------

``````['A', 'B', 'D']
['A', 'C', 'D']
['A', 'E', 'D']
['A', 'B', 'C', 'D']
['A', 'E', 'F', 'C', 'D']
``````

Note: I taged Java, in case someone has a solution to the same problem in Java

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this is more of an algorithm based question did you search on google? –  Bhavik Shah Dec 14 '12 at 17:21
Yes, I was looking for any algorithm that would solve the problem. I found tons of them, I wasn't able to find one that works with undirected graphs to find ALL paths between two nodes. For example: All shortest paths, BFS, DFS, etc. they all work with directed edges as the one here in the question. –  user1899713 Dec 14 '12 at 19:52
why not use the already available solutions like `networkx` and `igraph` or you just want to use your code? –  namit Dec 15 '12 at 5:11
@Namit Kewat, honestly I didn't try networkx or igraph as while my search I couldn't find any clue for algorithm in their documentation to find all paths in undirected graphs. –  user1899713 Dec 15 '12 at 5:39
check this post for the solution; it is using both `igraph` and `networkx` modules: stackoverflow.com/questions/2606018/… –  namit Dec 15 '12 at 5:44

The simplest solution might be to pre-process your graph by adding the arc `B->A` for every `A->B` that's in the graph. Then you should be able to use your algorithm as-is.

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I tried your approach and it works fine. But what I really wanted is to modify the algorithm itself for this task. I'm new to the graph theories but searching for a solution to this problem gave me the chance to learn about different graph algorithms. –  user1899713 Dec 14 '12 at 20:26
That is in your case replace line `for link_node in graph[last_node]:` by some more complicated expression which goes through whole adjacency list.