Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a tree with a structure like this:

     __2__3__4
    /   \__5__6
0__1___7/__8__9
   \\
    \\__10__11__12
     \__  __  __
        13  14  15

Node 1 has four children (2,7,10,13), nodes 2 and 7 have two children each (both sharing node 5 as a child). What I am trying to do is create a CTE that provide records containing the parent node, the node, the distance away from the root, and the branch (or fork) its contained in.

IF (OBJECT_ID('tempdb..#Discovered') IS NOT NULL)
BEGIN
    DROP TABLE #Discovered
END

CREATE TABLE #Discovered
(
    ID int PRIMARY KEY NOT NULL,
    Predecessor int NULL,
    OrderDiscovered int
);

INSERT INTO #Discovered (ID, Predecessor, OrderDiscovered)
VALUES (@nodeId, NULL, 0);

    --loop through node connections table in a breadth first manner
WHILE @@ROWCOUNT > 0
BEGIN
    INSERT INTO #Discovered (ID, Predecessor, OrderDiscovered)
    SELECT c.node2_id
               ,MIN(c.node1_id)
               ,MIN(d.OrderDiscovered) + 1

    FROM #Discovered d JOIN node_connections c ON d.ID = c.node1_id
    WHERE c.node2_id NOT IN (SELECT ID FROM #Discovered)
    GROUP BY c.node2_id
END;

SELECT * FROM #Discovered;

WITH BacktraceCTE(Id, Predecessor, OrderDiscovered, Path, fork)

 AS 

 (  

     SELECT d.ID, d.Predecessor, d.OrderDiscovered, CAST(d.ID AS varchar(MAX)), 0

     FROM #Discovered d

     WHERE d.Id = @itemId


     UNION ALL             

     -- Recursive member, select all the nodes which have the previous

     SELECT d.ID, d.Predecessor, d.OrderDiscovered,  

         CAST(cte.Path + '->' + CAST(d.ID as varchar(10)) as varchar(MAX)),
         fork + CONVERT ( Integer, ROW_NUMBER() OVER (ORDER BY d.ID)) - 1

     FROM #Discovered d JOIN BacktraceCTE cte ON d.Predecessor = cte.ID

 )          

 SELECT  Predecessor as node1_id, OrderDiscovered as hop, fork, ID as node2_id, Path FROM BacktraceCTE  
 ORDER BY fork, OrderDiscovered;

The problem is with how the fork is calculated. Every time the CTE returns back to a previous level it only has the row numbers available and what the fork number was at that level. What I'd like to achieve is records where each combination of hop and fork are unique.

However, with the above code I'll get results that say node 2 to 5 end up being hop 3 fork 1 AND node 7 to 5 also end up being hop 3 fork 1.

Here is the tree again with the labeling of the branches with how they should appear:

     __2__3__4      :0
    /   \__5__6     :1,2
0__1___7/__8__9     :3
   \\
    \\__10__11__12  :4
     \__  __  __
        13  14  15  :5

As you can see for forks 1 and 2 I think that the best method would be to count the branch twice giving it its own identifier thus preserving the uniqueness of the combination of hop and fork.

Please help me figure out what I need to do in order to achieve this. I feel this should be possible with a CTE but perhaps I am wrong and if I am I'd love to know what the better method to tackle this would be.

EDIT The result set would look like:

Predecessor, ID, Order Discovered, Path, Fork

  • null, 0, 0, 0, 0

  • 0, 1, 1, 0->1, 0

  • 1, 2, 2, 0->1->2, 0

  • 2, 3, 3, 0->1->2->3, 0

  • 3, 4, 4, 0->1->2->3->4, 0

  • 2, 5, 3, 0->1->2->5, 1

  • 5, 6, 4, 0->1->2->5->6, 1

  • 1, 7, 2, 0->1->7, 2

  • 7, 5, 3, 0->1->7->5, 2

  • 5, 6, 4, 0->1->7->5->6, 2

  • 7, 8, 3, 0->1->7->8, 3

  • 8, 9, 4, 0->1->7->8->9, 3

  • 1, 10, 2, 0->1->10, 4

  • 10, 11, 3, 0->1->10->11, 4

  • 11, 12, 4, 0->1->10->11->12, 4

  • 1, 13, 2, 0->1->13, 5

  • 13, 14, 3, 0->1->13->14, 5

  • 14, 15, 4, 0->1->13->14->15, 5

share|improve this question
4  
Since node 5 has two parents, this is not a tree, but simply a graph –  AakashM Jan 20 '12 at 16:24
    
Can you provide a script with your table structure and example data and show what your desired result set is for that data? –  Martin Smith Jan 20 '12 at 17:39
2  
@AakashM - Not simply a graph, but a directed graph (aka digraph). –  HABO Jan 23 '12 at 2:18

1 Answer 1

up vote 3 down vote accepted
+50

Okay, I'll try to refrain from tweaking this answer again. It's just been so fun learning about the sort order of VarBinary, finding the POWER function, CTEs beating on one another, ... .

Are you looking for anything like:

declare @Nodes as Table ( NodeId Int Identity(0,1), Name VarChar(10) )
declare @Relations as Table ( ParentNodeId Int, ChildNodeId Int, SiblingOrder Int )
insert into @Nodes ( Name ) values
--  ( '0' ), ( '1' ), ( '2' ), ( '3' ), ( '4' ), ( '5' ), ( '6' ), ( '7' ), ( '8' ),
--  ( '9' ), ( '10' ), ( '11' ), ( '12' ), ( '13' ), ( '14' ), ( '15' )
  ( 'zero' ), ( 'one' ), ( 'two' ), ( 'three' ), ( 'four' ), ( 'five' ), ( 'six' ), ( 'seven' ), ( 'eight' ),
  ( 'nine' ), ( 'ten' ), ( 'eleven' ), ( 'twelve' ), ( 'thirteen' ), ( 'fourteen' ), ( 'fifteen' )

insert into @Relations ( ParentNodeId, ChildNodeId, SiblingOrder ) values
  ( 0, 1, 0 ),
  ( 1, 2, 0 ), ( 1, 7, 1 ), ( 1, 10, 2 ), ( 1, 13, 3 ),
  ( 2, 3, 0 ), ( 2, 5, 1 ),
  ( 3, 4, 0 ),
  ( 5, 6, 0 ),
  ( 7, 5, 0 ), ( 7, 8, 1 ),
  ( 8, 9, 0 ),
  ( 10, 11, 0 ),
  ( 11, 12, 0 ),
  ( 13, 14, 0 ),
  ( 14, 15, 0 )

declare @MaxSiblings as BigInt = 100
; with
DiGraph ( NodeId, Name, Depth, ParentNodeId, Path, ForkIndex, DepthFirstOrder )
as (
  -- Start with the root node(s).
  select NodeId, Name, 0, Cast( NULL as Int ), Cast( Name as VarChar(1024) ),
    Cast( 0 as BigInt ), Cast( Right( '00' + Cast( 0 as VarChar(2) ), 2 ) as VarChar(128) )
    from @Nodes
    where not exists ( select 42 from @Relations where ChildNodeId = NodeId )
  union all
  -- Add children one generation at a time.
  select R.ChildNodeId, N.Name, DG.Depth + 1, R.ParentNodeId, Cast( DG.Path + ' > ' + N.Name as VarChar(1024) ),
    DG.ForkIndex + R.SiblingOrder * Power( @MaxSiblings, DG.Depth - 1 ),
    Cast( DG.DepthFirstOrder + Right( '00' + Cast( R.SiblingOrder as VarChar(2) ), 2 ) as VarChar(128) )
    from @Relations as R inner join
      DiGraph as DG on DG.NodeId = R.ParentNodeId inner join
      @Nodes as N on N.NodeId = R.ChildNodeId inner join
      @Nodes as Parent on Parent.NodeId = R.ParentNodeId
  ),

DiGraphSorted ( NodeId, Name, Depth, ParentNodeId, Path, ForkIndex, DepthFirstOrder, RowNumber )
as ( select *, Row_Number() over ( order by DepthFirstOrder ) as 'RowNumber' from DiGraph )

select ParentNodeId, NodeId, Depth, Path,
  ( select Count(*) from DiGraphSorted as L
    left outer join DiGraphSorted as R on R.RowNumber = L.RowNumber - 1 where
    R.RowNumber < DG.RowNumber and L.ForkIndex <> R.ForkIndex ) as 'ForkNumber' -- , '', *
  from DiGraphSorted as DG
  order by RowNumber
share|improve this answer
3  
BTW: If you edit your answer more than about 10 times it automatically becomes Community Wiki so you might consider creating a fresh new answer and deleting this while it is still on zero votes. –  Martin Smith Jan 23 '12 at 21:17
    
This looks very promising, looking through to see if it'll do the trick. –  Kavet Kerek Jan 23 '12 at 21:24
1  
@MartinSmith - Thanks for the Community Wiki tip. I'll stop mucking about with this answer. Having avoided cursors and removed the temporary table there isn't much left to hack out. –  HABO Jan 23 '12 at 22:30
    
This does the trick, thanks very much. The only thing I needed to add was a loop that basically calculates what you call siblings. Thanks for the idea! –  Kavet Kerek Jan 27 '12 at 15:54

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

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