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What are the best practices for modeling inheritance in databases?

What are the trade-offs (e.g. queriability)?

(I'm most interested in SQL Server and .NET, but I also want to understand how other platforms address this issue.)

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3  
If you are interested in "best practice", most of the answers are simply incorrect. Best practice dictates that the RDb and the app are independent; they have completely different design criteria. Therefore "modelling inheritance" in a database (or modelling the RDb to suit a single app or app language) is a very bad practice, uninformed, and breaks basic RDb design rules, and cripples it. –  PerformanceDBA Nov 10 '10 at 21:29
    
possible duplicate of Something like inheritance in database design –  Steve Chambers May 14 at 14:45
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8 Answers 8

up vote 55 down vote accepted

There are several ways to model inheritance in a database. Which you choose depends on your needs. Here are a few options:

Table-Per-Type (TPT)

Each class has its own table. The base class has all the base class elements in it, and each class which derives from it has its own table, with a primary key which is also a foreign key to the base class table; the derived table's class contains only the different elements.

So for example:

class Person {
    public int ID;
    public string FirstName;
    public string LastName;
}

class Employee : Person {
    public DateTime StartDate;
}

Would result in tables like:

table Person
------------
int id (PK)
string firstname
string lastname

table Employee
--------------
int id (PK, FK)
datetime startdate

Table-Per-Hierarchy (TPH)

There is a single table which represents all the inheritance hierarchy, which means several of the columns will probably be sparse. A discriminator column is added which tells the system what type of row this is.

Given the classes above, you end up with this table:

table Person
------------
int id (PK)
int rowtype (0 = "Person", 1 = "Employee")
string firstname
string lastname
datetime startdate

For any rows which are rowtype 0 (Person), the startdate will always be null.

Table-Per-Concrete (TPC)

Each class has its own fully formed table with no references off to any other tables.

Given the classes above, you end up with these tables:

table Person
------------
int id (PK)
string firstname
string lastname

table Employee
--------------
int id (PK)
string firstname
string lastname
datetime startdate
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4  
'Which you choose depends on your needs' - please elaborate, as I think the reasons for choices form the core of the question. –  Alex Jul 7 '09 at 11:11
    
As with most things in a database, you're trading off storage cost vs. performance. TPH stores everything in one table, so selects are fast. TPT is more compact than TPC, but more expensive because of the joins. Finding things in TPC means checking multiple tables. Each of these is a tradeoff, and your decision has to be based on what's most important to your application. –  Brad Wilson Aug 1 '10 at 16:36
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See my comment on the question. Using funny new names for Rdb technical terms that have existed leads to confusion. "TPT" is supertype-subtype. "TPH" is Unnormalised, a gross error. "TPH" is even less Normalised, another gross error. –  PerformanceDBA Nov 10 '10 at 21:33
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Only a DBA would presume that denormalization is always an error. :) –  Brad Wilson Nov 19 '10 at 17:04
    
@PerformanceDBA, why is denormalisation always an error? I really dislike denormalisation, but I'm not experienced with DBs, so I don't have the experience to really know. –  Sam Apr 18 '13 at 6:32
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Proper database design is nothing like proper object design.

If you are planning to use the database for anything other than simply serializing your objects (such as reports, querying, multi-application use, business intelligence, etc.) then I do not recommend any kind of a simple mapping from objects to tables.

Many people think of a row in a database table as an entity (I spent many years thinking in those terms), but a row is not an entity. It is a proposition. A database relation (i.e., table) represents some statement of fact about the world. The presence of the row indicates the fact is true (and conversely, it's absence indicates the fact is false).

With this understanding, you can see that a single type in an object-oriented program may be stored across a dozen different relations. And a variety of types (united by inheritance, association, aggregation, or completely unaffiliated) may be partially stored in a single relation.

It is best to ask yourself, what facts do you want to store, what questions are you going to want answers to, what reports do you want to generate.

Once the proper DB design is created, then it is a simple matter to create queries/views that allow you to serialize your objects to those relations.

Example:

In a hotel booking system, you may need to store the fact that Jane Doe has a reservation for a room at the Seaview Inn for April 10-12. Is that an attribute of the customer entity? Is it an attribute of the hotel entity? Is it a reservation entity with properties that include customer and hotel? It could be any or all of those things in an object oriented system. In a database, it is none of those things. It is simply a bare fact.

To see the difference, consider the following two queries. (1) How many hotel reservations does Jane Doe have for next year? (2) How many rooms are booked for April 10 at the Seaview Inn?

In an object-oriented system, query (1) is an attribute of the customer entity, and query (2) is an attribute of the hotel entity. Those are the objects that the would expose those properties in their APIs. (Though, obviously the internal mechanisms by which those values are obtained may involve references to other objects.)

In a relational database system, both queries would examine the reservation relation to get their numbers, and conceptually there is no need to bother with any other "entity".

Thus, it is by attempting to store facts about the world—rather than attempting to store entities with attributes—that a proper relational database is constructed. And once it is property designed, then useful queries that were undreamt of during the design phase can be easily constructed, since all the facts needed to fulfill those queries are in their proper places.

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+1 Finally, an island of genuine knowledge in a sea of ignorance (and refusal to learn anything outside their ambit). Agreed, it is not magic: if the RDb is designed using RDb priciples, it is effortless to "map" or "project" any "class". Forcing the RDb into a class-based requirements is simply incorrect. –  PerformanceDBA Nov 10 '10 at 21:38
1  
+1, great answer. Anyway, could you provide some examples of facts and how they're not entities? It is still difficult to me to find out the difference between 'facts' and entities. Thank you –  fra Feb 14 '11 at 8:12
    
@fra - OK, I added an example. –  Jeffrey L Whitledge Feb 17 '11 at 14:47
    
Great! Exactly what I needed! –  fra Feb 18 '11 at 4:06
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There are two main types of inheritance you can setup in a DB, table per entity and table per Hierarchy.

Table per entity is where you have a base entity table that has shared properties of all child classes. You then have per child class another table each with only properties applicable to that class. They are linked 1:1 by their PK's

alt text

Table per hierarchy is where all classes shared a table, and optional properties are nullable. Their is also a discriminator field which is a number that denotes the type that the record currently holds

alt text SessionTypeID is discriminator

Target per hierarchy is faster to query for as you do not need joins(only the discriminator value), whereas target per entity you need to do complex joins in order to detect what type something is as well as retreiuve all its data..

Edit: The images I show here are screen shots of a project I am working on. The Asset image is not complete, hence the emptyness of it, but it was mainly to show how its setup, not what to put inside your tables. That is up to you ;). The session table holds Virtual collaboration session information, and can be of several types of sessions depending on what type of collaboration is involved.

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I would also consider Target per Concrete class to not really model inheritance well and so i did not show. –  mattlant Oct 10 '08 at 6:20
    
Could you add a reference where the illustration is from? –  chryss Oct 10 '08 at 7:03
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Short answer: you don't.

If you need to serialize your objects, use an ORM, or even better something like activerecord or prevaylence.

If you need to store data, store it in a relational manner (being careful about what you are storing, and paying attention to what Jeffrey L Whitledge just said), not one affected by your object design.

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+1 Attempting to model inheritance in a database is a waste of good, relational resources. –  Daniel Spiewak Oct 10 '08 at 22:35
    
+1 See my comments above. –  PerformanceDBA Nov 10 '10 at 21:39
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You would normalize of your database and that would actually mirror your inheritance. It might have performance degradance, but that's how it is with normalizing. You probably will have to use good common sense to find the balance.

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1  
why do people believe that normalizing a database degrades performance? do people also think that the DRY principle degrades code performance? where does this misperception come from? –  Steven A. Lowe Oct 10 '08 at 6:12
    
Possibly because denormalising can improve performance, hence normalising degrades it, relatively speaking. Can't say I agree with it, but that's probably how it came about. –  Matthew Scharley Oct 10 '08 at 7:04
1  
At the start, normalisation might have a small effect on performance, but over time, as the number of rows increases, efficient JOINs will begin to outperform the bulkier tables. Of course, normalisation has other, greater benefits - consistency and lack of redundancy, etc. –  Rob Oct 10 '08 at 22:24
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repeat of similar thread answer

in O-R mapping, inheritance maps to a parent table where the parent and child tables use the same identifier

for example

create table Object (
    Id int NOT NULL --primary key, auto-increment
    Name varchar(32)
)
create table SubObject (
    Id int NOT NULL  --primary key and also foreign key to Object
    Description varchar(32)
)

SubObject has a foreign-key relationship to Object. when you create a SubObject row, you must first create an Object row and use the Id in both rows

EDIT: if you're looking to model behavior also, you would need a Type table that listed the inheritance relationships between tables, and specified the assembly and class name that implemented each table's behavior

seems like overkill, but that all depends on what you want to use it for!

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That discussion ended up being about adding a couple columns to every table, not about modeling inheritance. I think the title of that discussion should be changed to better reflect the nature of the question and discussion. –  Even Mien Oct 10 '08 at 6:18
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Using SQL ALchemy (Python ORM), you can do two types of inheritance.

The one I've had experience is using a singe-table, and having a discriminant column. For instances, a Sheep database (no joke!) stored all Sheep in the one table, and Rams and Ewes were handled using a gender column in that table.

Thus, you can query for all Sheep, and get all Sheep. Or you can query by Ram only, and it will only get Rams. You can also do things like have a relation that can only be a Ram (ie, the Sire of a Sheep), and so on.

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Note that some database engines already provides inheritance mechanisms natively like Postgres. Look at the documentation.

For an example, you would query the Person/Employee system described in a response above like this:

  /* This shows the first name of all persons or employees */
  SELECT firstname FROM Person ; 

  /* This shows the start date of all employees only */
  SELECT startdate FROM Employee ;

In that is your database's choice, you don't need to be particularly smart !

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