When I am asked to design an O(|E|)algorithm, is it acceptable to design a O(|E|+|V|)algorithm and call it O(|E|)? (If the graph is connected)

2 Answers 2


Short answer:
O(|E|) refers to that each edge should be only traversed (processed) a constant number of times (on average), so yes, you are supposed to also process vertices with O(|E|+|V|) complexity.

A bit longer answer:
The question you need to ask yourself is:

If I double the amount of edges (for large edge numbers), will the algorithm take approximately twice as long to execute. If the answer is yes, then your complexity is O(|E|).

Finally keep in mind that in a connected graph, the maximum amount of |V| is |E|+1 because |E|>=|V|-1. Therefore in worse case scenario O(|E|+|V|) is O(2|E|+1) = O(|E|)

  • 2
    The maximum amount of |V| is |E|+1, not |E|-1. This doesn't change the rest of the answer. Oct 15, 2019 at 21:47
  • @Kostas Why did you undo my edit?! In a connected graph, |E|>=|V|-1 which implies |V| <= |E|+1. The answer you edited is wrong. Nov 23, 2022 at 1:21

If the graph is connected, the number of edges (i.e |E|) is at least one less than the number of vertices (i.e. |E| >= |V|-1). Therefore, |E|+|V| = O(|E|+|E|+1) = O(|E|). So if your algorithm is O(|E|) it is also O(|E|+|V|).

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