Apart from the obvious way where you actually perform all possible DFS and BFS traversals you could try this approach:
In a dfs traversal starting from the root A transform the adjacency list of the currently visited node like so: First remove the parent of the node from the list. Second generate all permutations of the remaining nodes in the adj list.
So if you are at node C having come from node A you will do:
C -> ADE transform into C -> DE transform into C -> [DE, ED]
After step 1 you have the following transformed adj list:
A -> [CB, BC]
B -> 
C -> [DE, ED]
D -> 
E -> 
Now you launch a processing starting from (A,0), where the first item in the pair is the traversal path and the second is an index. Lets assume we have two queues. A BFS queue and a DFS queue. We put this pair into both queues.
Now we repeat the following, first for one queue until it is empty and then for the other queue.
We pop the first pair off the queue. We get (A,0). The node A maps to [BC, CB]. So we generate two new paths (ACB,1) and (ABC,1). Put these new paths in the queue.
Take the first one of these off the queue to get (ACB,1). The index is 1 so we look at the second character in the path string. This is C. Node C maps to [DE, ED].
- The BFS children of this path would be (ACBDE,2) and (ACBED,2) which we obtained by appending the child permutation.
- The DFS children of this path would be (ACDEB,2) and (ACEDB,2) which we obtained by inserting the child permutation right after C into the path string.
We generate the new paths according to which queue we are working on, based on the above and put them in the queue. So if we are working on the BFS queue we put in (ACBDE,2) and (ACBED,2). The contents of our queue are now : (ABC,1) , (ACBDE,2), (ACBED,2).
We pop (ABC,1) off the queue. Generate (ABC,2) since B has no children. And get the queue :
(ACBDE,2), (ACBED,2), (ABC,2) and so on. At some point we will end up with a bunch of pairs where the index is not contained in the path. For example if we get (ACBED,5) we know this is a finished path.