I have read that Trees are special cases of Graphs. Graphs can be directed or undirected. But if we consider tree as a data structure is it directed or undirected graph?


Unless qualified otherwise, trees in Mathematics or Graph Theory are usually assumed to be undirected, but in Computer Science or Programming or Data Structure, trees are usually assumed to be directed and rooted.

You need to be aware of the context of discussion.


See Tree on Wikipedia :

A tree is an undirected graph.

  • Thanks, I should have seen Wikipedia :P
    – Faizan
    Jan 14 '13 at 9:17
  • @KimKulling Why not tree cannot be directed graph? Feb 24 '16 at 15:24
  • Because there is no dorection defined between the two vertices.
    – KimKulling
    Feb 29 '16 at 14:27

Both are acceptable. You may have some cases where you want to be able to go up from a leaf and then go back down (usually in another branch), or you may want to be able to go only down.

  • If both are possible(Directed graph and undirected graph) then why wiki is saying only tree is an undirected graph Feb 21 '16 at 5:02
  • 3
    @VinothKumar The Wikipedia page describes trees in the context of graph theory, where a tree is indeed an special case of an undirected graph. In the context of programming however, what we call trees are most of the time rooted trees with an implied direction from root to leaves. Many algorithms don't need the reverse direction from the leaves to the root, so storing the lighter directed rooted tree is often sufficient.
    – Khaur
    Feb 23 '16 at 14:03
  • 1
    Agree with your points. Finally tree can be directed graph too. Am i correct? Feb 24 '16 at 15:27

Trees are connected acyclic graphs. that means you should be able to traverse from any node u to any node v. If we say trees are directed then it may not be possible to traverse from every node u to every node v.

In context of rooted trees, direction just tells which node of tree is treated as root (starting point) or to show parent child relationship between nodes and that's it all it says ... this direction does not limit the connectivity of graph or a connection between any node u to node v of tree.[1]

[1] if we considered directions in rooted as actual path which can be traversed in tree to go from node u to node v, then connectivity would be broken and that graph would not be a tree any more.

  • the last sentence is a bit confusing: it's just another illustration of a fact already shown.
    – Wolf
    Jun 6 '19 at 8:40
  • 1
    ...I transformed the last (illustrating) sentence into a footnote, hope this isn't against the author's intention
    – Wolf
    Jun 6 '19 at 8:50

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