I have an application that needs to update nodes in a hierarchical structure, upwards from a particular node whose ID is known. I use the following MySQL statement to do this:
update node as A join node as B on A.lft<=B.lft and A.rgt>=B.rgt set A.count=A.count+1 where B.id=?
The table has a primary key on id, and indexes on lft and rgt. The statement works, but I found that it had performance problems. Looking at the EXPLAIN results for the corresponding select statement, I saw that the number of rows inspected for the "B" table was very large (maybe the entire table).
I can easily pull the query apart into two separate ones:
select lft, rgt from node where id=? LFT=result.lft RGT=result.rgt update node set count=count+1 where lft<=LFT and rgt>=RGT
But why does the original statement not perform as expected, and how would I need to reformulate it to work better?
By request, here's an abbreviated version of the create table:
CREATE TABLE `node` ( `id` int(11) NOT NULL auto_increment, `name` varchar(255) NOT NULL, `lft` decimal(64,0) NOT NULL, `rgt` decimal(64,0) NOT NULL, `count` int(11) NOT NULL default '0', PRIMARY KEY (`id`), KEY `name` (`name`), KEY `location` (`location`(255)), KEY `lft` (`lft`), KEY `rgt` (`rgt`), ) ENGINE=InnoDB
I have not tried to add the composite index (actually, I don't have the access level required to do that on the spot); but I don't see how it would help, trying to think through how the database engine would try to resolve the dual inequalities.