Let's say that there is one vertex with the following property in a DAG:

  1. All vertices are connected to it

  2. It is not connected to any vertex

This is usually called a sink vertex.

Is it possible to detect this vertex in O(n), where n is number of vertices in graph?

  • Can the graph have more than one edge A -> B, for some vertices A and B?
    – Heatsink
    Commented Nov 9, 2010 at 19:17
  • no, just one edge for a pair of vertices Commented Nov 9, 2010 at 19:17

3 Answers 3


As there are no cycles in the graph, and all vertex connect with the sink, just select any starting node and start walking randomly. When you can't continue walking, you are at the sink, in at most n steps.

Once you walked n steps (or less and you can't continue), as the problem does not guarantee that there is a sink, you should check if you are at one. That adds another O(n). So the problem is O(2 n) = O(n)

  • As Jason said its O(n+m) not n. Commented Nov 9, 2010 at 19:42
  • It's not guaranteed that a unique sink exists--the DAG might be disconnected. This method won't tell you whether all vertices are connected to the node you find.
    – Heatsink
    Commented Nov 9, 2010 at 19:43
  • If disconnected then all vertices can't be connected to it, can they ? Commented Nov 9, 2010 at 19:44
  • EVERY vertex in connected to the sink. This arrives sooner to the sink if the graph has less edges. You can't stop at any vertex that is not the sink, because that vertex IS connected to the sink by definition. Commented Nov 9, 2010 at 19:45
  • @SaeedAlg I need to traverse at most n edges, selecting any (the first) edge at each vertex I visit. If you assume that selecting the first edge on a vertex is costless, it's O(n) Commented Nov 9, 2010 at 19:51

The best I can think of is O(n + m) which is O(n) if m is O(n).

Assuming a sink exists, do a topological sort of the graph. The minimal node in the sort is a sink. Note that topological sort is O(n + m).

I have previously provided an implementation here which can easily be modified for this problem.

  • topological sort in this case is O(n+m) if the graph representation is by Adjacency list. Commented Nov 9, 2010 at 19:32
  • You can update your answer : to check if it's a sink (there might be no sink in this graph), invert the adjacency list and not a DFS and count the number of nodes reached. Commented Nov 9, 2010 at 20:01
  • You need first to know and how to do (implement) a "find topological sort algorithm"
    – nbro
    Commented Jul 27, 2015 at 19:01

Provided you can count the number of edges in/out of a node in linear time, it's possible. First, find the vertices that have no outgoing edges (O(n) to scan all nodes). Your conditions are satisfied only if there's exactly one such vertex. Then, count its incoming edges (O(n) to scan all input edges). Your conditions are satisfied if there are exactly n-1 incoming edges. If either test fails, there's no sink vertex.

I'm assuming by "connected" you mean "connected by an edge", not "reachable by a path".

  • Not good : it's a DAG, this node might not have n-1 inputs. Think A->B->C. C is a sink. Commented Nov 9, 2010 at 19:34
  • @Loïc I think "all vertices are connected to it" is a stronger property than "there is a path to it from any vertex" which is I think your take
    – piccolbo
    Commented Nov 9, 2010 at 19:38
  • If "all connected" then what's the interest to have a DAG ? Connected here means path. Commented Nov 9, 2010 at 19:39
  • @Loïc Février, think a is a star node, b->a, c->a, b->c it's DAG and there is two path to a from b no problem Commented Nov 9, 2010 at 19:46
  • @Loïc You're probably right that bronzebeard cares about paths rather than edges.
    – Heatsink
    Commented Nov 9, 2010 at 19:49

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.