# Common table expressions, how to avoid infinite recusion when traversing a graph?

I have a simple weighted graph

``````    A
1 / \\ 0.5
/   \\0.5
B     C
``````

Suppose this describes a family and A is the father, B is the son and C is the mother. Let's say B is studying in an university and A has bought an apartment for him. A is living with C in a house which is commonly owned, 50-50.

I want to transform the graph into a tree, starting from A: ie.

• A owns 50% of the place C is living in
• A owns 100% of the place B is living in
• C owns 50% of the place A is living in

The graph and the generated tree could be more elaborate but I hope you get the more general picture.

On SQL Server 2005 I have

``````Drop Table #graph;
Create Table #graph
(FirstVertex VarChar(1) Not Null,
SecondVertex VarChar(1) Not Null,
Weight float);

Insert #graph Values('A','B',1);
Insert #graph Values('A','C',0.5);
Insert #graph Values('C','A',0.5);
``````

and I'm using the following common table expression to traverse the graph, starting from 'A':

``````With GraphRecursion (FirstVertex, SecondVertex, Weight, Level)
As
(
Select FirstVertex, SecondVertex, Weight, 0 As Level
From #graph
Where FirstVertex='A'

Union all

Select a.FirstVertex, a.SecondVertex, a.Weight, b.Level+1
From #graph a
Inner Join GraphRecursion b
On a.FirstVertex=b.SecondVertex --And b.Level<=1
)
Select * From GraphRecursion;
``````

This causes

``````Msg 530, Level 16, State 1, Line 11
The statement terminated. The maximum recursion 100 has
been exhausted before statement completion.
``````

Limiting the level of recursion by uncommenting the `And b.Level<=1` gives the expected results, but that's obviously not very useful for any practical use.

Is there a way to reference the previous iterations so that in the above example edges (ie. the FirstVertex, SecondVertex pairs) would not be repeated?

-
Not sure if this helps but have you looked into the MAXRECURSION hint: msdn.microsoft.com/en-us/library/ms186243.aspx –  Kane Mar 5 '10 at 7:27

You could build up a list of visited nodes in another column and then prevent re-visiting them in your recursion. Something like this (not sure I've picked the right columns):

``````With GraphRecursion (FirstVertex, SecondVertex, Weight, Level,Nodes)
As
(
Select FirstVertex, SecondVertex, Weight, 0 As Level,CONVERT(varchar(8000),':' + FirstVertex + ':' + SecondVertex + ':')
From #graph
Where FirstVertex='A'

Union all

Select a.FirstVertex, a.SecondVertex, a.Weight, b.Level+1,b.Nodes + ':' + a.SecondVertex  + ':'
From #graph a
Inner Join GraphRecursion b
On a.FirstVertex=b.SecondVertex --And b.Level<=1
where not b.Nodes like '%:' + a.SecondVertex + ':%'
)
Select * From GraphRecursion;
``````

If you want to avoid every re-traversing an edge, rather than ever re-visiting a vertex, you'd build up your links as e.g. ':' + FirstVertex + '@' + SecondVertex + ':'. In these examples, I'm just using ':' and '@' as characters that don't appear in vertex names. (Avoiding re-traversal - closer to results with b.Level <= 1, but not quite):

``````With GraphRecursion (FirstVertex, SecondVertex, Weight, Level,Nodes)
As
(
Select FirstVertex, SecondVertex, Weight, 0 As Level,CONVERT(varchar(8000),':' + FirstVertex + '@' + SecondVertex + ':')
From #graph
Where FirstVertex='A'

Union all

Select a.FirstVertex, a.SecondVertex, a.Weight, b.Level+1,b.Nodes + ':' + a.FirstVertex + '@' + a.SecondVertex  + ':'
From #graph a
Inner Join GraphRecursion b
On a.FirstVertex=b.SecondVertex --And b.Level<=1
where not b.Nodes like '%:' + a.FirstVertex + '@' + a.SecondVertex + ':%'
)
``````

(Note that the original b.Level <= 1 version gets 5 rows from this sample, rather than the four from my second example above). But I believe it's correct. The b.Level <= 1 version returns a Level 2 row for a->c, c->a, a->c, which I don't think we want

-
Very nice! Longer vertex IDs might cause problems though. In fact I'd like to get just a three row result and not to have A,B repeated. Too bad I only provided such a small graph as an example, it doesn't illustrate the problem well enough. –  Ville Koskinen Mar 5 '10 at 8:32
If you can add your expected results and explain why the second a,b (which is added for a-> c, c->a, a->b) isn't wanted, to your question, I might be able to make another try. –  Damien_The_Unbeliever Mar 5 '10 at 8:52
Well OK, I made up a story :) –  Ville Koskinen Mar 5 '10 at 9:26