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I currently have a closure table used for hierarchical data that has 5 million nodes which results in ~75 million rows in the closure table. Using SqLite my query time is rising exponentially due to the size of the closure table.

CREATE TABLE `Closure` (`Ancestor` INTEGER NOT NULL ,`Descendant` INTEGER NOT NULL ,`Depth` INTEGER, PRIMARY KEY (`Ancestor`,`Descendant`) )
CREATE INDEX `Closure_AncestorDescendant` ON `Closure` (`Ancestor` ASC, `Descendant` ASC);
CREATE INDEX `Closure_DescendantAncestor` ON `Closure` (`Descendant` ASC, `Ancestor` ASC);

My query to find the nodes that are roots takes about 20 minutes with this many nodes even though only about 5 or 6 nodes meet the query.

SELECT `Closure`.`Ancestor` FROM `Closure` 
LEFT OUTER JOIN `Closure` AS `Anc` ON `Anc`.`Descendant` = `Closure`.`Descendant` 
AND `Anc`.`Ancestor` <> `Closure`.`Ancestor` WHERE `Anc`.`Ancestor` IS NULL;

20 minutes is to long so right now I'm storing a bool for if the node is a root and modifying the Nodes.Root column when the node is moved.. I'm not exactly happy with the duplicate data but my query times are now in the single digit milliseconds for every query.

I also have a lot of queries that require knowledge of how many descendants a given node has (mostly if Descendants > 1 to know if this object can be virtualized/expanded in a tree view). I used to query this every time I needed it but across a gigantic database like I have even with indexes the queries seemed to take to long (more than 1 second) so I also reduced them to the Nodes.Descendants column which I also update every time a node is moved. Unfortunate this is another duplication of data I would like to avoid.

The query I used to use was like below. If anyone can explain how to increase the performance of this (consider that I already have an index starting with Ancestor) I would appreciate it.

SELECT COUNT(*) FROM `Closure` WHERE `Ancestor`=@Node
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What is the schema of your closure table? Are there indexes? Also, what do you mean by "find the nodes that roots"? – Mark Canlas Jan 20 '12 at 21:36
Sorry that was a typo. I meant "Find the nodes that are roots" and it has been corrected. Anyway I've mostly re-written my question because we figured out how to correctly write our indexes which increased the performance of every query except for the Root query and the Count Descendants query. – NtscCobalt Jan 21 '12 at 7:01

1 Answer 1

up vote 1 down vote accepted

Does the version of SQLite you're developing on support Foreign Keys? If so, your closure table design should have a FK referencing the hierarchy table you're supporting with the closure table. In TSQL:

constraint fk_a FOREIGN KEY (ancestor) REFERENCES <hierarchy_tablename> (nodeid)
constraint fk_d FOREIGN KEY (descendant) REFERENCES <hierarchy_tablename> (nodeid)

You'll have to look up the relevant SQLite syntax, sorry.

Since you are already maintaining a depth field, which is the distance between the descendant and its ancestor, you could make use of it to tell if a given node has children.

select top 1 'EXPANDABLE' as whatever
from closure C
where exists (select ancestor from closure where depth > 0 and ancestor = C.ancestor)
and ancestor = @Node

That should come back fairly quick regardless of the size of your closure table. If you get an empty set from that, then your given node cannot be expanded any more, because it has no children. Exists returns true as soon as it finds one instance that meets your criteria, and you're only taking the top 1 so you don't return a row for every row in your closure table for the passed @Node.

As for improving the performance of finding the roots, try something like the below. It's what I use for finding roots, but my closure table is only ~200,000 rows. I compared the plans generated for each though, and your code uses a Hash, which could be impacting performance due to processor requirements on the device (I'm assuming here that SQLite is for iPhone/iPad or sometype of small distribution on devices). The below uses less processing power and more reads from indexes in its plan and makes use of the relationship of the hierarchy to the closure table. I cannot be certain that it will improve your performance woes but it's worth a shot.

select a.node_name, a.node_id
from test.hier a left outer join 
                 (select coo.descendant /* coo = CHILD OF OTHER */
                  from test.closure_tree coo right outer join test.closure_tree ro
                        on coo.ancestor <> ro.descendant /* ignore its self reference */
                        and coo.descendant = ro.descendant /* belongs to another node besides itself */)lo 
    on a.node_id = lo.descendant
where lo.descendant is null
share|improve this answer
Foreign keys does seem like a good idea and I actually have a flat table with a list of all nodes that exist for other types of lookup so I could foreign key off of that and use that table for deletion. I like your suggestion about using EXISTS and will test it next week. SQLite doesn't support right outer joins so we just added a Root column to our flat list of nodes and that has been working pretty well since it can be indexed. – NtscCobalt Feb 3 '12 at 23:43

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