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Modeling Aggregation and Composition

Many modelers overuse aggregation. Remember that the aggregation and composition notation do not generate any unique code. Use the notation to convey your intent to the implementers.

Composition:

As we know, inheritance gives us an 'is-a' relationship. To make the understanding of composition easier, we can say that composition gives us a 'part-of' relationship. Composition is shown on a UML diagram as a filled diamond (see figure below).

Composition indicates that Engine is part of a car.
Composition indicates that Engine is part of a car.



Aggregation:

If inheritance gives us 'is-a' and composition gives us 'part-of', we could argue that aggregation gives us a 'has-a' relationship. Within aggregation, the lifetime of the part is not managed by the whole. To make this clearer, we need an example.
For the past 12 months I have been involved with the implementation of a CRM system, so I am going to use part of this as an example.
The CRM system has a database of customers and a separate database that holds all addresses within a geographic area. Aggregation would make sense in this situation, as a
Customer 'has-a' Address.

It would nor make sense to say that an Address is 'part-of' the Customer, because it i not.
Consider it this way, if the customer ceases to exist, does the address? I would argue that it does not cease to exist.
Aggregation is shown on a UML diagram as an unfilled diamond (see figure below).

Aggregation where the address will continue to exist even if the person dies.
Aggregation where the address will continue to exist even if the person dies.