I was looking at the Proxy Pattern, and to me it seems an awful lot like the Decorator, Adapter, and Bridge patterns. Am I misunderstanding something? What's the difference? Why would I use the Proxy pattern versus the others? How have you used them in the past in real world projects?
Proxy, Decorator, Adapter, and Bridge are all variations on "wrapping" a class. But their uses are different.
The entries and discussions there are quite extensive, and they also link to other relevant articles. By the way, the c2 wiki is excellent when wondering about the nuances between different patterns.
To sum the c2 entries up, I would say a decorator adds/changes behavior, but a proxy has more to do with access control (lazy instantiation, remote access, security etc). But like I said, the lines between them are gray, and I see references to proxies that could easily be viewed as decorators and vice versa.
My take on the subject.
All four patterns have a lot in common, all four are sometimes informally called wrappers, or wrapper patterns. All use composition, wrapping subject and delegating the execution to the subject at some point, do mapping one method call to another one. They spare client the necessity of having to construct a different object and copy over all relevant data. If used wisely, they save memory and processor.
By promoting loose coupling they make once stable code less exposed to inevitable changes and better readable for fellow developers.
Adapter adapts subject (adaptee) to a different interface. This way we can add object be placed to a collection of nominally different types.
Adapter expose only relevant methods to client, can restrict all others, revealing usage intents for particular contexts, like adapting external library, make it appear less general and more focused on our application needs. Adapters increase readability and self description of our code.
Adapters shields one team from volatile code from other teams; a life savior tool when dealing with offshore teams ;-)
Less mentioned purpose it to prevent the subject class from excess of annotations. With so many frameworks based on annotations this becomes more important usage then ever.
Adapter helps to get around Java limitation of only single inheritance. It can combine several adaptees under one envelope giving impression of multiple inheritance.
Code wise, Adapter is “thin”. It should not add much code to the adaptee class, besides simply calling the adaptee method and occasional data conversions necessary to make such calls.
There are not many good adapter examples in JDK or basic libraries. Application developers create Adapters, to adapt libraries to application specific interfaces.
Decorator not only delegate, not only maps one method to another, they do more, they modify behaviour of some subject methods, it can decide not call subject method at all, delegate to a different object, a helper object.
Decorators typically add (transparently) functionality to wrapped object like logging, encryption, formatting, or compression to subject. This New functionality may bring a lot of new code. Hence, decorators are usually much “fatter” then Adapters.
Decorator must be a sub-class of subject's interface. They can be used transparently instead of its subjects. See BufferedOutputStream, it is still OutputStream and can be used as such. That is a major technical difference from Adapters.
Text book examples of whole decorators family is readily in JDK - the Java IO. All classes like BufferedOutputStream, FilterOutputStream and ObjectOutputStream are decorators of OutputStream. They can be onion layered, where one one decorator is decorated again, adding more functionality.
Proxy is not a typical wrapper. The wrapped object, the proxy subject, may not yet exist at the time of proxy creation. Proxy often creates it internally. It may be a heavy object created on demand, or it is remote object in different JVM or different network node and even a non-Java object, a component in native code. It does not have to necessary wrap or delegate to another object at all.
Most typical examples are remote proxies, heavy object initializers and access proxies.
Facade is closely associated with design Principle of Least Knowledge (Law of Demeter). Facade is very similar to Adapter. They both wrap, they both map one object to another, but they differ in the intent. Facade flattens complex structure of a subject, complex object graph, simplifying access to a complex structure.
Facade wraps a complex structure, providing a flat interface to it. This prevents client object from being exposed to inner relations in subject structure hence promoting loose coupling.
More complex variant of Adapter pattern where not only implementation varies but also abstraction. It adds one more indirection to the delegation. The extra delegation is the bridge. It decouples Adapter even from adapting interface. It increases complexity more than any other of the other wrapping patterns, so apply with care.
Differences in constructors
Pattern differences are also obvious when looking at their constructors.
Real life example – JAXB Marshalling Adapter. Purpose of this adapter is mapping of a simple flat class to more complex structure required externally and to prevent "polluting" subject class with excessive annotations.
This is quote from Head First Design Patterns
Definitions belongs to book. Examples belongs to me.
Decorator - Doesn’t alter the interface, but adds responsibility. Assume you have a car interface, when you implement this for different model of the car (s, sv, sl) you may need to add more responsibility for some models. Like has sunroof, airbag etc..
Adapter - Converts one interface to another. You have a car interface and you would like it to act like jeep. So you take the car, modify it and turn into a jeep. Since it is not a real jeep. But acts like a jeep.
Facade - Makes an interface simpler. Assume you have car, airplane, ship interfaces. Actually all you need is a class which sends people from one location to another. You want facade to decide what vehicle to use. Then you collect all those interface references under 1 umbrella and let it decide/delegate to keep it simple.
Head First: "A facade not only simplifies an interface, it decouples a client from a subsystem of components. Facades and adapters may wrap multiple classes, but a facade’s intent is to simplify, while an adapter’s is to convert the interface to something different."
Design pattern is not mathematics, it is combination of art and software engineering. There is nothing like for this requirment you have to use proxy, bridge etc. Design patterns are created to solve the problems. If you anticipate a design problem, then use it. Based on experience, you will come to know for specific problem, which pattern to use. If you are good in solid design principles, you would have implemented design pattern without knowing it is pattern. Common example is statergy and factory patterns
Hence concentrate more on solid desighn principles, clean coding principles and ttd
All of the four patterns involve wrapping inner object/class with outer one, so they are very similar structurally. I would outline difference by the purpose:
And by interface variation between inner and outer objects:
There's a great deal of overlap in many of the GoF patterns. They're all built on the power of polymorphism and sometimes only really differ in intent. (strategy vs. state)
My understanding of patterns increased 100 fold after reading Head First Design Patterns.
I highly recommend it!
Speaking detail implementation, I find a difference between Proxy and Decorator, Adapter, Facade ... In common implementation of these patterns there's a target object wrapped by a enclosing object. Client uses enclosing object instead of target object. And the target object actually play an important part inside some of methods of enclosing object.
However, in case of Proxy, enclosing object can play some methods by itself, it just initialize target object when client calls some methods that it needs target object take part in. This is lazy initialization. In case of other patterns, enclosing object is virtually based on target object. So target object is always initialized along with enclosing object in constructors/setters.
Another thing, a proxy does exactly what a target does whereas other patterns add more functionality to target.
So are their structures.
I use it quite often when consuming web services. The Proxy Pattern should probably be renamed to something more pragmatic, like 'Wrapper Pattern". I also have a library that is a Proxy to MS Excel. It makes it very easy to automate Excel, without having to worry about background details such as what version is installed (if any).