I used to struggle with the same problem 10 years ago. Here's my personal solution to this problem. But before I start explaining, I would like to mention its pros and cons.
You can select subbranches of a given node within any number of
desired depths, with the lowest imaginable cost.
The same can be done to select parent nodes.
No RDBMS specific feature is needed. So the same technique can be
implemented in any of them.
It is all implemented using a single field.
You should be able to define a maximum number of depth for your
tree. You also need to define the maximum number of direct children
for the nodes.
Restructuring the tree is more expensive than traversing it. But not
as expensive as Nest Set Model. Adding a new branch is the matter of
finding the right value for the field. And in order to move a branch
into a new parent you need to update that node and all its children
(direct and indirect). The good news is that deleting a node and its
children is as easy as traversing it (which is absolutely nothing).
Consider the following table as your tree holder:
CREATE TABLE IF NOT EXISTS `product_category` (
`product_category_id` bigint(20) unsigned NOT NULL AUTO_INCREMENT,
`name` varchar(20) NOT NULL,
`category_code` varchar(62) NOT NULL,
PRIMARY KEY (`product_category_id`),
UNIQUE KEY `uni_category_code` (`category_code`)
) DEFAULT CHARSET=utf8 ;
All the magic is done in
category_code field. You need to encode your branch address into a text value as follow:
**node_name -> category_code**
Root -> 01
First child -> 01:01
Second child -> 01:02
First grandchild -> 01:01:01
First child of second child -> 01:02:01
In the above example, each node can have up to 99 direct children (assuming we are thinking in decimal). And since
category_code is of type
varchar(62), we can have up to (62-2)/3 = 20 depth. It's a trade off between the depth you want and the number of direct children each node can have and the size of your field. Scientifically speaking, this is an implementation of a complete tree in which unused branches are not actually created but reserved.
The good parts:
Now imagine you want to select nodes under
01:02. You can do this using a single query:
category_code LIKE '01:02:%'
Selecting direct nodes under the
category_code LIKE '01:02:__'
Selecting all the ancestors of
'01:02' LIKE CONCAT(category_code, ':%')
The bad parts:
Inserting a new node into the tree is the matter of finding the right
category_code. This can be done using a stored procedure or even in a programming language like PHP.
Since the tree is limited in the number of direct children and depth, an insert can fail. But I believe in most practical cases we can assume such a limitation.