UML Structure
Here is an example of the Bridge pattern.
Source: Downloaded from http://www.dofactory.com/Patterns/PatternBridge.aspx
Here is another example of the Bridge pattern where it decouples the abstraction from its implementation so that the two can vary independently
Source: Downloaded from http://home.earthlink.net/~huston2/dp/all_uml.html
Applicability
The Bridge pattern is applicable when:
- we want to avoid a permanent binding between an abstraction and its implementation
- both the abstractions and their implementations should be extensible by subclassing
- changes in the implementation of an abstraction should have no impact on clients
- we want to hide the implementation of an abstraction completely from clients
- we want to share an implementation among multiple objects, and this fact should be hiddent from the client
Participants
The classes and/or objects participating in this pattern are:
- Abstraction
- defines the abstraction's interface
- maintains a reference to an object of type Implementor
- Refined Abstraction
- extends the interface defined by Abstraction.
- Implementor
- defines the interface for implementation classes. This interface does not have to correspond exactly to Abstraction's interface; in fact the two interfaces can be quite different. The Implementation interface provides only primitive operations, and Abstraction defines high-level operations based on these primitives.
- Concrete Implementor
- implements the Implementor interface and defines its concrete implementation.
Consequences
The Bridge pattern has the following consequence:
- Decoupling interface and implementation - inheritance tightly couples an abstraction with an implementation at compile time. Bridge pattern can be used to avoid the binding between abstraction and implementation and to select implenetation at run time
- Improved extensibility - extend the Abstraction and Implementor hierarchies independently
- Hiding implementation detail from clients - shield clients from implentation details, like the sharing of implemntor objects and accompanying reference count merchanism
- Interface and implementation can be varied independently - maintaining two different class hierarchies for interface and implementation entitles to vary one independent of the other
- Lossely coupled client code - Abstraction separates the client code from the implementation
- Reduction in the number of sub classes
- Cleaner code and Reduction in executable size
Implementation
When applying the Bridge pattern, consider the following implementation issues:
- Only one Implementor
- Creating the right Implementor object
- Sharing implementors
- Using multiple inheritance
Code Examples
References
- Wikipedia.com - Bridge pattern
- A Survey of Common Design Patterns
- DoFactory.com - Bridge Design Pattern
- Design Class Diagrams - Bridge
- Gamma, E., Helm, R., Johnson, R., Vlissides, J. (1995). Design Patterns: Elements of Reusable Object-Oriented Software. Addison-Wesley. ISBN 0-201-63361-2