# Python DFS and BFS

Here http://www.python.org/doc/essays/graphs/ is DFS right ?

I try to do something with 'siblings', but it does not work. Can anyone write BFS similar to code from this site.

-
DFS - Depth First Search –  Mark0978 Mar 21 '11 at 15:34

Here's an O(N * max(vertex degree)) breadth-first search implementation. The bfs function generates nodes in breadth-first order, and for each a generator that can be used to trace a shortest path back to the start point. The lazy nature of the paths means that you can iterate through the generated node to find points you're interested in without paying the cost of building all the intermediate paths.

``````import collections

GRAPH = {'A': ['B', 'C'],
'B': ['C', 'D'],
'C': ['D'],
'D': ['C'],
'E': ['F'],
'F': ['C']}

def build_path(node, previous_map):
while node:
yield node
node = previous_map.get(node)

def bfs(start, graph):
previous_map = {}
todo = collections.deque()
todo.append(start)
while todo:
node = todo.popleft()
yield node, build_path(node, previous)
for next_node in graph.get(node, []):
if next_node not in previous_map:
previous_map[next_node] = node
todo.append(next_node)

for node, path in bfs('A', GRAPH):
print node, list(path)
``````
-

Yes, it is DFS.

To write a BFS you just need to keep a "todo" queue. You probably also want to turn the function into a generator because often a BFS is deliberately ended before it generates all possible paths. Thus this function can be used to be find_path or find_all_paths.

``````def paths(graph, start, end):
todo = [[start, [start]]]
while 0 < len(todo):
(node, path) = todo.pop(0)
for next_node in graph[node]:
if next_node in path:
continue
elif next_node == end:
yield path + [next_node]
else:
todo.append([next_node, path + [next_node]])
``````

And an example of how to use it:

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

for path in paths(graph, 'A', 'D'):
print path
``````
-