Ok, I posted this question because of this exercise:
Can we modify Dijkstra’s algorithm to solve the single-source longest path problem by changing minimum to maximum? If so, then prove your algorithm correct. If not, then provide a counterexample.
For this exercise or all things related to Dijkstra's algorithm, I assume there are no negative weights in the graph. Otherwise, it makes not much sense, as even for shortest path problem, Dijkstra can't work properly if negative edge exists.
Ok, my intuition answered it for me:
Yes, I think it can be modified.
- initialise distance array to MININT
distance[w] > distance[v]+weightto
distance[w] < distance[v]+weight
Then I did some research to verify my answer. I found this post:
First I thought my answer was wrong because of the post above. But I found that maybe the answer in the post above is wrong. It mixed up The Single-Source Longest Path Problem with The Longest Path Problem.
Also in wiki of Bellman–Ford algorithm, it said correctly :
The Bellman–Ford algorithm computes single-source shortest paths in a weighted digraph. For graphs with only non-negative edge weights, the faster Dijkstra's algorithm also solves the problem. Thus, Bellman–Ford is used primarily for graphs with negative edge weights.
So I think my answer is correct, right? Dijkstra can really be The Single-Source Longest Path Problem and my modifications are also correct, right?