I have class with many methods:

public class A {
    public string method1() {
        return "method1";
    public string method2() {
        return "method2";
    public string method3() {
        return "method3";
    public string methodN() {
        return "methodN";

I would like to add call to doSomething() in each method, for example:

public string methodi() {
    return "methodi";

What is the best way to do so? Is there any suitable design pattern?

4 Answers 4


This is a typical use case for AOP (aspect oriented programming). You'd define the insertion points for the method calls and the AOP engine adds the correct code to the class file. This is often used when you want to add log statements without cluttering your source files.

For java you could add the aspectj library

For C# and .NET have look at this blog. Looks like a good starter.

  • It's only appropriate to use AOP if doSomething() is a cross-cutting concern (like you suggest, logging). If it's relevant to the core business of the class, AOP will just confuse matters.
    – artbristol
    Commented Mar 27, 2012 at 9:00
  • @artbristol - agree - I had the impression that ths question was about cross-cutting concerns: a practical way to have all methods call doSomething() (like log.info("Just entered method")) without having to write the source line into the methods. Commented Mar 27, 2012 at 9:03
  • Actually, I do think what @Naor need is a typical usage of proxy pattern, and CGLIB(cglib.sourceforge.net) and Dynamic proxy(docs.oracle.com/javase/1.3/docs/guide/reflection/proxy.html) will do the job. Actually, AOP in Spring framework use them a lot internally.
    – Jerry Tian
    Commented Mar 27, 2012 at 9:08
  • It is a bit difficult to move from my asp.net project to aspectj just to save a few lines..
    – Naor
    Commented Mar 27, 2012 at 9:10
  • (the question is tagged c# and java, you didn't tell us, that you have an asp.net project...) Commented Mar 27, 2012 at 9:13

Using AOP is already a good answer, it was my first idea too.

I tried to figure out a good way doing it without AOP though and came up with this idea (using the Decorator pattern):

interface I {
  String method1();
  String method2();
  String methodN();

class IDoSomethingDecorator implements I {
  private final I contents;
  private final Runnable commonAction;

  IDoSomethingDecorator(I decoratee, Runnable commonAction){
    this.contents = decoratee;
    this.commonAction = commonAction;

  String methodi() {
    return contents.methodi();

You could then decorate the construction of A (which implements I):

I a = new IDoSomethingDecorator(new A(),doSomething);

It is basically no rocket science and in fact results in more code than your first idea, but you are able to inject the common action and you separate the additional action from the class A itself. Further, you can turn it off easily or use it only in tests, for instance.

  • Nice to pass in the common operation as ctor parameter. Hmm, wondering if someone has used java dynamic proxies (C# transparent proxy) to allow for a generic wrapper class... Commented Mar 27, 2012 at 9:34
  • 1
    I think, he wanted to do this.commonAction().run(); in every method and avoid repeating the code. Commented Mar 27, 2012 at 11:28
  • Good enough! this is what I was after for. just use I instead of A in private final A contents; Thanks.
    – Naor
    Commented Mar 27, 2012 at 12:08

Why not having a single function?

public string methodi(int i) {
    return "method" + i.toString();

Or you may write a function which takes an Func parameter and call this function instead of your functions.

    public string Wrapper(Func<string> action)
        return action();

and call your functions from this function;

string temp = Wrapper(method1);
  • about your "single function" suggest - each method does something else. It was only an example..
    – Naor
    Commented Mar 27, 2012 at 9:07
  • then the second part is just the answer.
    – daryal
    Commented Mar 27, 2012 at 9:09

You could use reflection.

public String callMethod(int i) {
  java.lang.reflect.Method method;    
  try {
    method = this.getClass().getMethod("method" + i);
  } catch (NoSuchMethodException e) {
    // ...
  String retVal = null;
  try {
    retVal = method.invoke();
  } catch (IllegalArgumentException e) {
  } catch (IllegalAccessException e) {
  } catch (InvocationTargetException e) { }
  return retVal;

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