Are there any differences between interceptors and decorators in Java? Strictly speaking, can I implementing things with decorators which are not possible with interceptors and vice versa?

Except the problem that I would have to examine the method name to add method-specific behavior in an interceptor:


public class NiceGreeterInterceptor {
  public Object decorate(InvocationContext ic) throws Exception {
    Method method = ic.getMethod();
    String methodName = method.getName();
    Object result = ic.proceed();
    if (methodName.equals("greet")) {
      return "NEW " + result;


public class GreeterDecorator implements Greeter {
  private Greeter greeter;

  public String greet() {
    return "NEW " + greeter.greet();

Or is it legitimate to say that I can reproduce all the behavior of decorators with interceptors but it is more comfortable to use decorators?


One difference would be, as your example shows it, with decorator you usually write 1 decorator per 1 decorated class/interface.

With interceptors, which are part of the AOP concept, you write 1 interceptor for a bunch of classes / methods, e.g. you intercept all DAO methods and make sure a transaction is open before the invocation and closed after it.

An example of an interceptor in spring AOP, firstly you declare a pointcut (what to match), here you match any method from the MyDao class that starts with insert, has any arguments and any return type.

@Pointcut("execution(* com.example.dao.MyDao.insert*(..))")
public void insertPointcut() {

Then you declare an around advice which references the pointcut

@Around(value = "com.example.SystemArchitecture.insertPointcut()")
public void interceptMethod(ProceedingJoinPoint pjp) {
        // do pre-work
        Object retVal = pjp.proceed();
        // do post work
        return retVal;

Still, each part has its own pro/cons. E.g. interceptors are more flexible but imagine you change the method name, if you use a decorator, you'll probably get a compiler error, with interceptors, it will just not match and not execute your 'around' logic.

  • A decorator is automatically applied to classes that implement the same interface (except using a custom qualifier). So more than one decorated class. – ammerzon Feb 29 '16 at 18:27
  • Agree, it's one to one or one to multiple, but again, you have the interface, so it's heavily object oriented. With AOP, it's more flexible because you can use type filters (e.g. proxy all methods of some class) as well as bare string reg ex matching filters (e.g. proxy all methods that start with select and are part of the com.example.dao package). – Bax Feb 29 '16 at 18:35
  • Can you please add your comment to your answer with an example of regex matching filters – ammerzon Feb 29 '16 at 18:44
  • Added, there's no full reg-ex support but you do have some wildcard matching. – Bax Feb 29 '16 at 19:26
  • Thanks. So theoretically I can reproduce all the behavior of decorators with interceptors? – ammerzon Feb 29 '16 at 19:29

In general, a decorator is used to add new functionality or modify existing functionality. It uses composition as an alternative to inheritance. Decorators often provide additional APIs (methods) that are not available in the decorated classes.

On the other hand, AOP (e.g. an interceptor) is used to enhance existing behavior. It does not add additional APIs and generally does not modify existing functionality. It is triggered by invocation of existing functionality and responds by taking some action; but the existing functionality as well as the existing API remain unchanged.

I am not familiar with the JEE implementations, so they may have blurred the lines between these two patterns. Important points to compare would be,

  • Can @Interceptor introduce new methods or only execute around existing methods?
  • Can @Interceptor override existing methods or only append additional behavior?
  • Can @Decorator be applied across packages & class hierarchies, or is it constrained by one of these?

In addition to functional differences between the two patterns, it may also be interesting to consider potential performance differences. I would expect @Interceptor to be considerably slower, since it needs to examine method calls at runtime, whereas @Decorator invocations can be resolved at compile time.


Decorators very similar to interceptors with two interesting differences:

  1. A decorator must implement the interface it is decorating (and yet can be abstract, so it does not have to implement the methods)

  2. A decorator can have a reference to the object it decorates. It is done through injection

Ref: https://blog.frankel.ch/cdi-an-overview-part-2

  • But an interceptor can also get the reference with ic.getTarget() – ammerzon Feb 29 '16 at 18:21

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