# DFS on a graph using a python generator

I am using a generator to do a full search on a graph, the real data set is fairly large, here is a portion of the code i wrote on a small data set:

``````

class dfs:
def __init__(self):
self.start_nodes = [1,2]  # not used, see below explanation
self.end_nodes = [5,7] # not used, see below explanation
_graph={
1 : [4,5,6,2],
2 : [1,3,5],
4 : [1,5],
3 : [5,2],
5 : [3,1,4,6,2,7],
6 : [1,5],
7 : [5],
}

def __iter__(self):
return self.find_path(self._graph, 2, 7)

def find_path(self, graph, start, end, path=[]):
path = path + [start]
if start == end:
yield path
if not graph.has_key(start):
return
for node in graph[start]:
if node not in path:
for new_path in self.find_path(graph, node, end, path):
if new_path:
yield new_path

d = dfs()
print list(d)
```
```

when run this outputs all the paths from '2' to '7' as expected:

```[[2, 1, 4, 5, 7], [2, 1, 5, 7], [2, 1, 6, 5, 7], [2, 3, 5, 7], [2, 5, 7]]
```

What I would like to do is modify this generator so that it does the same thing except i get the paths back for a set number of start and end points, ie self.start_nodes and self.end_nodes.

Since my generator is a recursive function it makes it difficult to loop on the different start and end points, been scratching my head over this any ideas?

-
Be careful using a list as a default argument! See stackoverflow.com/questions/1534407/… and stackoverflow.com/questions/1011431/common-pitfalls-in-python –  blinsay Jul 21 '11 at 7:02

Perhaps I'm misunderstanding your question, but it seems to me that you want to replace your `__iter__` function with something like this:

``````def __iter__(self):
for start in self.start_nodes:
for end in self.end_nodes:
for path in self.find_path(self._graph, start, end):
yield path
``````