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When I want to design database tables that model a finite parent-child relationship, for e.g., computer as parent, and the components inside as the child; or a simple organizational hierarchy, I am usually torn at which approach to use -

  1. A 'specialized table' approach, in which I create a table for each of the possible entity. In the computer component example, I would have a Computer table and a Component table, with the ComputerID as FK in the Component table referencing back to Computer.ComputerID. or
  2. A 'generalized table approach, in which I have one table table called Component, with ComponentID as PK, and a ParentComponentID as FK referencing to its parent's ComponentID.
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The reason I choose option 1 over 2 most of the time is because it is easier to pull my parent rows out of the database. Otherwise, you have to write the sql statement such that you get the rows from the table that have children rows, but only those. It gets messy quick.

If you're using any of the common relational databases, then use them the way they're designed to be used.

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There's a great danger in relational design when you try to create generalisations that aren't actually true, but look elegant. If you have a general table with a type field, that introduces a form of indirection that has to be resolved in your code instead, which can hurt both performance and the clarity of the code.

On the other hand, such indirection can have its uses, and for certain purposes I use it quite a lot. The question you have to ask is whether Computer and Component really are aspects of the same thing, or whether you're just fudging them together because it sounds good.

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thanks for your reply, check my own reply below. – chethong Jan 23 '09 at 16:14
    
Very good point Marcus. In this example, components are things inside of a Computer, and the computer itself is probably not a component. However, if you had several types of components (i.e. RAM, Processor, Fan, Motherboard) those could be typed easily. – Jay S Jan 23 '09 at 16:15

I prefer the generalized table if I know I need the ability to extend the model to support new levels in a hierarchy.

The disadvantage with a generalized table is losing the strong typing, which I've usually solved by adding a 'Type' table (i.e. 'ComponentType' for the generic 'Component' table).

This allows for a model that can be extended, and still provides strong typing of each component in the hierarchy.

EDIT: Marcus brought up the question of Computer being the same as a Component. I should clarify that the generalized table approach should be used for like objects.

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Jay makes good points too. Basically, both ways are fine, but comes down to preference (or company policy). – Nick DeVore Jan 23 '09 at 15:51
    
I share your opinion – Guillermo Gutiérrez Aug 9 '12 at 15:38

In my experience, a Generalized table approach is tempting, because it gives you more power, but in the long term you will find it is complicated to follow and maintain.

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Having used both, the former is definitely easier to grasp by new programmers. It is also simpler to deal with in most simple cases.

Where the latter comes in handy, is where the hierarchy of things could change; or an object changes its hierarchical order or the hierarchy itself changes. It is also useful when the hierarchy is complex, as you don't have to model it as tables in the database.

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