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I have seen in many libraries like Spring which use a lot of interfaces with single methods in them like BeanNameAware, etc.

And the implementer class will implement many interfaces with single methods.

In what scenarios does it make sense to keep single method interfaces? Is it done to avoid making one single interface bulky for example ResultSet? Or is there some design standard which advocates the use of these type of interfaces?

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up vote 10 down vote accepted

With Java 8, keeping the single method interface is quite useful, since single method interfaces will allow the usage of closures and "function pointers". So, whenever your code is written against a single method interface, the client code may hand in a closure or a method (which must have a compatible signature to the method declared in the single method interface) instead of having to create an anonymous class. In contrast, if you make one interface with more than one method, the client code will not have that possibility. It must always use a class that implements all methods of the interface.

So as a common guideline, one can say: If a class that only exposes a single method to the client code might be useful to some client, then using a single method interface for that method is a good idea. A counter example to this is the Iterator interface: Here, it would not be useful having only a next() method without a hasNext() method. Since having a class that only implements one of these methods is no use, splitting this interface is not a good idea here.


interface SingleMethod{ //The single method interface
    void foo(int i);

class X implements SingleMethod { //A class implementing it (and probably other ones)
    void foo(int i){...}

class Y { //An unrelated class that has methods with matching signature
    void bar(int i){...}
    static void bar2(int i){...}

class Framework{ // A framework that uses the interface
    //Takes a single method object and does something with it
    //(probably invoking the method)
    void consume(SingleMethod m){...}

class Client{ //Client code that uses the framework
    Framework f = ...;
    X x = new X();
    Y y = new Y();
    f.consume(x); //Fine, also in Java 7

    //Java 8
    //ALL these calls are only possible since SingleMethod has only ONE method!
    f.consume(y::bar); //Simply hand in a method. Object y is bound implicitly
    f.consume(Y::bar2); //Static methods are fine, too
    f.consume(i -> { System.out.println(i); }) //lambda expression. Super concise.

    //This is the only way if the interface has MORE THAN ONE method:
    //Calling Y.bar2 Without that closure stuff (super verbose)
    f.consume(new SingleMethod(){
         @Override void foo(int i){ Y.bar2(i); }
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f.consume(i -> { System.out.println(i); }) can be summarized as follow: f.consume(System.out::println); – Olivier Grégoire Oct 13 '15 at 10:59

Interfaces with only one (or few) methods is the key to the highly useful Strategy pattern, which is "some design standard which advocates the use of these type of interfaces".

Another common scenario is when you want a callback. Foo calls Bar as an asynchronous task, and when Bar is finished with something, the result is sent back to Foo using a callback -- which can be an interface containing only one method. (An example of this is the many listeners in Android, Event Listeners in Swing...)

Also, if you have two classes that are tightly coupled with one another (let's call them Foo and Bar). Foo uses nearly all of Bar's methods, but Bar only needs some a few of those from Foo. Foo can implement FooInterface which is then sent to Bar. Now the coupling is looser, because Bar only knows about the FooInterface, but does not care about the other methods the implementing class contains.

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this is more a comment then an answer. – AlexWien Mar 4 '13 at 11:25
True. Are there any further advantages to it? – Narendra Pathai Mar 4 '13 at 11:26
I'd say that the strategy pattern itself is enough of an advantage. But I can try to expand my answer. – Simon Forsberg Mar 4 '13 at 11:27
One of the advantages would be being prepared for the lambda expressions in the next Java. – Joop Eggen Mar 4 '13 at 11:27
@SimonAndréForsberg I have seen this being followed at many places and not necessarily for strategy. That's why I asked to see if there are some other advantageous sides to it. :) – Narendra Pathai Mar 4 '13 at 11:29

Its definitely good to be suspicious of single-method interfaces, so +1 for the question.

But you know, you create an interface to support a bunch of related methods. If you really do have a method in there which is not obviously related to any of the other methods, then a single-method interface is justified.

Where the suspicion comes in is where you take a step back and say, "Now is this method really not related to anything else?" If you're happy that it isn't, then that's the "right" time.

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In what scenarios does it make sense to keep single method interfaces?

In such a scenarios when you need an interface with only one method.

Interfaces are used to encapsulate a common behavior of several classes. So if you have several places in your code where you need to call only limited set of class methods, it's time to introduce an interface. The number of methods depends on what exactly do you need to call. Sometimes you need one method, sometimes two or more, sometimes you don't need methods at all. What matters is that you can separate behavior from implementation.

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Favor Composition over Inheritance tutorial of Head First Design Pattern book recommends this approach to add functionality dynamically to a class. Let's take below case:

public interface Quackable {
   public void quack();

public class Quacks implements Quackable {
   public void quack(){
       //quack behavior

public class DontQuack implements Quackable {
     public void quack(){
         //dont quack

public class QuackableDuck{
    Quackable quack;  //add behavior dynamicall


So QuackableDuck class can add feature dynamically.

   quack = new Quacks();
   quack = new DontQuack();

So similarly you can add multiple behavior to the class dynamically.

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