# S-expression for directed acyclic graph?

as we know tree structure could be represented in S-expressions. For example

`````` (5 (4 (11 (7 () ()) (2 () ()) ) ()) (8 (13 () ()) (4 () (1 () ()) ) ) )
``````

But is it possible to use S-expression for a graph (esp. DAG)? e.g.

My second question is what is topology limit of S-expression can represent?

I Googled this quesion and couldn't find a clue, without a formal CS background, I am having trouble figuring this out myself. Please don't close this question. Thanks in advance!

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Not as a recursive structure, like your binary tree.

• You could use a list of nodes, and for each store which nodes it is has an edge to.

``````( (2 ())
(3 (8 10))
(5 (11))
(7 (8 11))
(8 (9))
(9 ())
(10 ())
(11 (2 9 10)) )
``````
• You could store a list of nodes and edges.

``````( (2 3 5 7 8 9 10 11)
( (3 8)
(3 10)
(5 11)
(7 8)
(7 11)
(8 9)
(11 2)
(11 9)
(11 10) ) )
``````
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that's cool, thanks. I Googled some spanning tree solution, still trying to figur it out –  est Jun 5 '13 at 3:08
A spanning tree doesn't make much sense for a directed graph. You'd need at least one for every source-node (3, 5, 7). –  Markus Jarderot Jun 5 '13 at 6:38