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Im getting back into database design and i realize that I have huge gaps in my knowledge.

I have a table that contains categories. Each category can have many subcategories and each subcategory can belong to many super-categories.

I want to create a folder with a category name which will contain all the subcategories folders. (visual object like windows folders) So i need to preform quick searches of the subcategories.

I wonder what are the benefits of using 1:M or M:N relationship in this case? And how to implement each design?

I have create a ERD model which is a 1:M unary relationship. (the diagram also contains an expense table which stores all the expense values but is irrelevant in this case)

1:M unary relationship

is this design correct?

will many to many unary relationship allow for faster searches of super-categories and is the best design by default?

I would prefer an answer which contains an ERD

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Out of curiousity, what is a "1:M unary relationship"? I use the term "unary" for "1:1" relationship (or, perhaps, "0-1:0-1" in some cases). –  Gordon Linoff Jul 20 '12 at 18:26
    
In Database Systems - Design, Implementation, and Management (9th Edition) A unary M:N relationship is explained by giving an example of courses: The M:N recursive relationship might be more familiar in a school environment. For instance, note how the M:N “COURSE requires COURSE” relationship illustrated in Figure 4.17 is implemented in Figure 4.21. In this example, MATH-243 is a prerequisite to QM-261 and QM-362, while both MATH-243 and QM-261 are prerequisites to QM-362 –  Xitcod13 Jul 20 '12 at 18:49

2 Answers 2

up vote 2 down vote accepted

If I understand you correctly, a single sub-category can have at most one (direct) super-category, in which case you don't need a separate table. Something like this should be enough:

enter image description here

Obviously, you'd need a recursive query to get the sub-categories from all levels, but it should be fairly efficient provided you put an index on PARENT_ID.

Going in the opposite direction (and getting all ancestors) would also require a recursive query. Since this would entail searching on PK (which is automatically indexed), this should be reasonably efficient as well.

For some more ideas and different performance tradeoffs, take a look at this slide-show.

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Alright awesome so there is no need to panic. I was reading a book and I saw all sorts of diagrams and I didnt remember them at all so I jumped to conclusions. Thank you for your answer and the link :) –  Xitcod13 Jul 20 '12 at 18:54

In some cases the easiest way to maintain a multilevel hierarchy in a relational database is the Nested Set Model, sometimes also called "modified preorder tree traversal" (MPTT).

Basically the tree nodes store not only the parent id but also the ids of the left-most and right-most leaf:

spending_category
-----------------
parent_id    int
left_id      int
right_id     int
name        char

The major benefit from doing this is that now you are able to get an entire subtree of a node with a single query: the ids of subtree nodes are between left_id and right_id. There are many variations; others store the depth of the node in addition to or instead of the parent node id.

A drawback is that left_id and right_id have to be updated when nodes are inserted or deleted, which means this approach is useful only for trees of moderate size.

The wikipedia article and the slideshow mentioned by Branko explains the technique better than I can. Also check out this list of resources if you want to know more about different ways of storing hierarchical data in a relational database.

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1  
very interesting. I will read into it just seems like a lot of work to maintain when you insert new values. –  Xitcod13 Jul 20 '12 at 19:03

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