What algorithm can be used to find the longest path in an unweighted directed acyclic graph?
Dynamic programming. It is also referenced in Longest path problem, given that it is a DAG.
The following code from Wikipedia:
algorithm daglongestpath is
input:
Directed acyclic graph G
output:
Length of the longest path
length_to = array with V(G) elements of type int with default value 0
for each vertex v in topOrder(G) do
for each edge (v, w) in E(G) do
if length_to[w] <= length_to[v] + weight(G,(v,w)) then
length_to[w] = length_to[v] + weight(G, (v,w))
return max(length_to[v] for v in V(G))

1This returns just the length of the path. Can the code easily be modified to return the path? – oschrenk Apr 2 '12 at 20:46

1Yes, the same way with most DP problems  keep track of the previous and go back on it. – Larry Jul 17 '12 at 16:34

3

the loop therefore starts from the 'sources' (no incoming edges) and ends with the 'sinks' (no outgoing edges) – Andre Holzner Oct 29 '16 at 14:57

a paper with same algorithm but easier to follow the rationale in case you need it. – AndreiNiculae Petre Apr 19 '17 at 20:16
As long as the graph is acyclic, all you need to do is negate the edge weights and run any shortestpath algorithm.
EDIT: Obviously, you need a shortestpath algorithm that supports negative weights. Also, the algorithm from Wikipedia seems to have better time complexity, but I'll leave my answer here for reference.


@Hellnar: nope, if you have negative weights in the original graph, they should become positive. w' = (w) – Can Berk Güder Mar 27 '10 at 9:55
Wikipedia has an algorithm: http://en.wikipedia.org/wiki/Longest_path_problem
Looks like they use weightings, but should work with weightings all set to 1.
Can be solved by critical path method:
1. find a topological ordering
2. find the critical path
see [Horowitz 1995], Fundamentals of Data Structures in C++, Computer Science Press, New York.
Greedy strategy(e.g. Dijkstra) will not work, no matter:1. use "max" instead of "min" 2. convert positive weights to negative 3. give a very large number M and use Mw as weight.