this is from a problem set for data structures class.

G(V,E) is a directed weighted graph with positive weights D(i,j) is a given matrix with shortest possible paths from i to j (like the result of a floyd warshall algorithm)

- given nodes S,U,V,T return the length of the shortest possible path that passes through U and V

my idea is to break this into 2 possible paths (S-U-V-T) and (S-V-U-T) , retrieve the shortest paths from the matrix D and sum them up

d(s,u)+d(u,v)+d(v,t) and d(s,v)+d(v,u)+d(u,t)

and now simply return the minimum one.

now here is my question sort of :

i cant tell why but on the graph i examined each of these different paths always gives the same weight, meaning there was no significance to the U-V formation in the path so there was no need to check both for the minimal one, could be just the graph i examined, i was wondering if you have any input on this phenomena ? or is it just my specific graph giving these results. i think my lecturer hinted about this happening but im confused as to why...

- given nodes S and T return a list of all Nodes that exist within any shortest path between S and T the algorithm must run at O(|V|) worst case (V=vertices) matrix D contains only length of shortest path D(i,j)