There are indeed several other alternatives to BFS and DFS.
One that is quite adequate to computing shortest path is: http://en.wikipedia.org/wiki/Dijkstra's_algorithm
Dijsktra's Algorithm is basically an adaptation of a BFS algorithm, and it's much more efficient than searching the entire graph, if your graph is weighted.
Like a @ThomasH said, Djikstra is only relevant if you have a weighted graph, if the weight of every edge is the same, it basically defaults back to BFS.
If the choice is between BFS and DFS, then BFS is more adequate to finding shortest paths, because you explore the immediate vicinity of a node completely before moving on to nodes that are at a greater distance.
This means that if there's a path of size 3, it'll be explored before the algorithm moves on to exploring nodes at distance 4, for instance.
With DFS, you don't have such a guarantee, since you explore nodes in depth, you can find a longer path that just happened to be explored earlier, and you'll need to explore the entire graph to make sure that that is the shortest path.
As to why you're getting downvotes, most SO questions should show a little effort has been put into finding a solution, for instance, there are several related questions on the pros and cons of DFS versus BFS.
Next time try to make sure that you've searched a bit, and then ask questions about any specific doubts that you have.