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I'm trying to implement the topological-sort algorithm for a DAG. ( First step of this simple algorithm is finding nodes with zero degree, and I cannot find any way to do this without a quadratic algorithm.

My graph implementation is a simple adjacency list and the basic process is to loop through every node and for every node go through each adjacency list so the complexity will be O(|V| * |V|).

The complexity of topological-sort is O(|V| + |E|) so i think there must be a way to calculate the degree for all nodes in a linear way.

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up vote 1 down vote accepted

You can maintain the indegree of all vertices while removing nodes from the graph and maintain a linked list of zero indegree nodes:

indeg[x] = indegree of node x (compute this by going through the adjacency lists)
zero = [ x in nodes | indeg[x] = 0 ]
result = []
while zero != []:
    x = zero.pop()
    for y in adj(x):
        if indeg[y] = 0:

That said, topological sort using DFS is conceptionally much simpler, IMHO:

result = []
visited = {}
    if x in visited: return
    for y in adj(x):
for x in V: dfs(x)
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I think he is asking how to quickly calculate indeg() in your code. – Leo Mar 7 '14 at 0:09
@linwei: Oh, now I see what you meant by your comment. indeg(y) is a variable, not a function. It already has the correct value, we just need to read it. I tried to make that a bit more clear now – Niklas B. Mar 7 '14 at 0:35
I understood that. It's just that after I read OP' question now I am curious too, how could you initially get all the indeg of every nodes in linear time ? – Leo Mar 7 '14 at 0:49
@Linwei: Initialize indeg[x] = 0 for all x. For every edge (v,w), increment indeg[w] – Niklas B. Mar 7 '14 at 1:01

You can also use DFS for topological sorting. You won't need additional pass to calculate in-degree after processing each node.

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