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I have a historical transitive closure table that represents a tree.

    CHILD_NODE_ID number not null enable,
    ANCESTOR_NODE_ID number not null enable,
    DISTANCE number not null enable,
    FROM_DATE date not null enable,
    TO_DATE date not null enable,

Here's some sample data:

1             | 1                | 0
2             | 1                | 1
2             | 2                | 0
3             | 1                | 2
3             | 2                | 1
3             | 3                | 0

Unfortunately, my current query for finding the root node causes a full table scan:

select *
from transitive_closure tc
  distance = 0
  and not exists (
  select null
  from transitive_closure tci
  where tc.child_node_id = tci.child_node_id
    and tci.distance <> 0

On the surface, it doesn't look too expensive, but as I approach 1 million rows, this particular query is starting to get nasty... especially when it's part of a view that grabs the adjacency tree for legacy support.

Is there a better way to find the root node of a transitive closure? I would like to rewrite all of our old legacy code, but I can't... so I need to build the adjacency list somehow. Getting everything except the root node is easy, so is there a better way? Am I thinking about this problem the wrong way?

Query plan on a table with 800k rows.

OPERATION                                  OBJECT_NAME        OPTIONS         COST 
SELECT STATEMENT                                                              2301 
  HASH JOIN                                                   RIGHT ANTI      2301 
    Access Predicates
    TABLE ACCESS                           TRANSITIVE_CLOSURE FULL            961 
      Filter Predicates 
        TCI.DISTANCE = 1 
    TABLE ACCESS                           TRANSITIVE_CLOSURE FULL            962 
      Filter Predicates 
share|improve this question
Do you think using tci.distance = tc.distance + 1 would help? –  Jordão Mar 10 '11 at 19:44
That, and tci.distance <> tc.distance have no effect on the query plan. (Whose cost is 3178). –  JBristow Mar 10 '11 at 19:49
Better: tci.distance = 1 ? –  Jordão Mar 10 '11 at 19:53
That knocks us down to 2363, which is an improvement... it's still going to be nasty when joined to a 1mil row table. It's also still doing a full table scan. –  JBristow Mar 10 '11 at 19:56
The query plan might help. Have you considered a smaller index, on just child_node_id? Is partitioning an option - you could partition on distance which might help the outer query. Just ideas. –  Jeffrey Kemp Mar 11 '11 at 2:06

3 Answers 3

up vote 2 down vote accepted

How long does the query take to execute, and how long do you want it to take? (You usually do not want to use the cost for tuning. Very few people know what the explain plan cost really means.)

On my slow desktop the query only took 1.5 seconds for 800K rows. And then 0.5 seconds after the data was in memory. Are you getting something significantly worse, or will this query be run very frequently?

I don't know what your data looks like, but I'd guess that a full table scan will always be best for this query. Assuming that your hierarchical data is relatively shallow, i.e. there are many distances of 0 and 1 but very few distances of 100, the most important column will not be very distinct. This means that any of the index entries for distance will point to a large number of blocks. It will be much cheaper to read the whole table at once using multi-block reads than to read a large amount of it one block at a time.

Also, what do you mean by historical? Can you store the results of this query in a materialized view?

Another possible idea is to use analytic functions. This replaces the second table scan with a sort. This approach is usually faster, but for me this query actually takes longer, 5.5 seconds instead of 1.5. But maybe it will do better in your environment.

select * from
        max(case when distance <> 0 then 1 else 0 end)
            over (partition by child_node_id) has_non_zero_distance
    from transitive_closure
where distance = 0
    and has_non_zero_distance = 0;
share|improve this answer

Can you try adding an index on distance and child_node_id, or change the order of these column in the existing unique index? I think it should then be possible for the outer query to access the table by the index by distance while the inner query needs only access to the index.

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Add ONE root node from which all your current root nodes are descended. Then you would simply query the children of your one root. Problem solved.

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