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I have tons of instances where I need to implement some sort of Polymorphic Association in my database. I always waste tons of time thinking through all the options all over again. Here are the 3 I can think of. I'm hoping there is a best practice for SQL Server.

Here is the multiple column approach

Multiple Column approach

Here is the no foreign key approach

No Foreign Key Approach

And here is the base table approach

Base table approach

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Look here: stackoverflow.com/questions/2002985/…. It advocates you 3rd approach, which I think is the best, because it allows adding a new table without adding a new (sparse) column to the association table and it has referential integrity. – Gert Arnold Nov 17 '11 at 13:08
    
Method 1 is a maintenance nightmare. Adding Object4, for example, will require full-stack changes because the Something table/classes/models/views will all have to be changed. Method 2 is better, but any referential integrity must be enforced outside the database. The last approach is the most flexible because you can (potentially) create more generic logic and UI layers on top of it, allowing for fewer changes down the road to both the schema and the things that use it. – David Godwin Apr 6 at 13:01
    
Not a direct answer, but something to think about. If I don't actually need my values denormalized (say documents or device configurations), I'll store objects as SQLXML. Doing so takes this issue away and SQL has pretty good native support for queries against it. When the use case fits, it can save you a lot of effort. These types of challenges also push me to think of No-SQL solutions such as MongoDB. I often use both SQL and MongoDB in my products as each has its own strength. – SteveJ May 26 at 15:04

The two most common approaches are Table Per Class (i.e. a table for the base class and another table for each subclass that contains the additional columns necessary to describe the subclass) and Table Per Hierarchy (i.e. all columns in one table, with one ore more columns to allow for the discrimination of subclasses. Which is the better approach really depends on the particulars of your application and data access strategy.

You would have Table Per Class in your first example by reversing the direction of the FK and removing the extra ids from the parent. The other two are essentially variants of table per class.

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I believe you are most likely describing inheritance here and not polymorphic association. Yes they are related in the sense that you only have polymorphic association when you do have inheritence, but I'm still not sure how to solve the association part. Object1, Object2 and Object3 all inherit or implement "Object", however, how should "Something" associate with it. – Mark Aug 9 '11 at 19:07
    
In a purely database way, table per class is going to be more difficult than table per hierarchy. If you were using table per hierarchy then all you would need is an FK to Object. This would allow you to treat any Object sub class polymorphically and you could get specific instances by adding the discriminator to the where or Join. – cmsjr Aug 9 '11 at 19:28

According to me your first type of approach is the best way you can define the data as well as your classes but As your all primary data should be avail for the child.

So you can check your requirement and define the Database.

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I have used what I guess you would call the base table approach. For example, I had tables for names, addresses, and phonenumbers, each with an identity as PK. Then I had a main entity table entity(entityID), and a linking table: attribute(entityKey, attributeType, attributeKey), wherein the attributeKey could point to any of the first three tables, depending on the attributeType.

Some advantages: allows as many names, addresses, and phonenumbers per entity as we like, easy to add new attribute types, extreme normalization, easy to mine common attributes (i.e. identify duplicate people), some other business-specific security advantages

Disadvantages: quite complex queries to build simple result sets made it difficult to manage (i.e. I had trouble hiring people with good enough T-SQL chops); performance is optimal for VERY specific use cases rather than general; query optimization can be tricky

Having lived with this structure for several years out of much longer career, I would hesitate to use it again unless I had the same weird business logic constraints and access patterns. For general usage, I strongly recommend your typed tables directly reference your entities. That is, Entity(entityID), Name(NameID, EntityID, Name), Phone(PhoneID, EntityID, Phone), Email(EmailID, EntityID, Email). You will have some data repetition and some common columns, but it will be much easier to program to and optimize.

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Approach 1 is best but association between something and object1, object2 ,object3 should be one to one.

I mean FK in child (object1, object2, object3) table should be non null unique key or Primary key for child table.

object1, object2 ,object3 can have Polymorphic object value .

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Another common Name for this model is the Supertype Model, where one has a base set of attributes that can be expanded via joining to another entity. In Oracle books, it is taught both as a logical model and physical implementation. The model without the relations would allow data to grow into invalid state and orphan records I would strongly validate the needs before selecting that model. The top model with the relation stored in the base object would cause nulls, and in a case where fields were mutually exclusive you would always have a null. The bottom diagram where the key is enforced in the child object would eliminate the nulls but also make the dependency a soft depenendency and allow orphans if cascading was not enforced. I think assessing those traits will help you select the model that fits best. I have used all three in the past.

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