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From my understanding if you implement an interface in java, the methods specified in that interface have to be used by the sub classes implementing the said interface.

I've noticed that in some interfaces such as the Collection interface there are methods which are commented as optional, but what exactly does this mean? Its thrown me a bit as I thought all methods specified in the interface would be required?

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Which methods are you referring to? I can't find it in the JavaDoc or the source code – dcpomero May 13 '12 at 14:49
up vote 22 down vote accepted

In order to compile an implementing (non abstract) class for an interface - all methods must be implemented.

However, if we think of a method that its implementation is a simple exception throw as a 'non implemented' (like some methods in the Collection interface), then the Collection interface is the exception in this case, not the regular case. Usually, implementing class should (and will) implement all methods.

The "optional" in collection means that the implementing class doesn't have to 'implement' (according to the terminology above) it, and it will just throw NotSupportedException).

A good example- add() method for immutable collections - the concrete will just implement a method that does nothing but throwing NotSupportedException

In the case of Collection it is done to prevent messy inheritence trees, that will make programmers miserable - but for most cases, this paradigm is not advised, and should be avoided if possible.


As of java 8, a default method was introduced.

That means, an interface can define a method - including its implementation.
This was added in order to allow adding functionality to interfaces, while still supporting backward compatability for pieces of code that does not need the new functionality.

Note that the method is still implemented by all classes that declare it, but using the interface's definition.

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Instead of "not messing up", I think it's more of "that's just how it is". – user166390 May 13 '12 at 15:02
@pst: I believe that what the designers were thinking when implementing it in the first place, but I have no way to know it for certain. I think any different approach would just create a mess, but again - could be wrong. The point I was trying to show here is: This example is the exception, not the usual - and though it sometimes might be useful - for the general case - it should be avoided, if possible. – amit May 13 '12 at 15:04
"doesn't have to implement it (It will probably just create a method that throws ...)". That is implementing the method. – EJP May 14 '12 at 0:19
As this unfortunately has been the accepted answer, I'd suggest to rewrite it. The 'Usually, implementing class should (and will) implement all methods' is misleading as EJP already pointed out. – Alberto May 14 '12 at 14:11
The "optional" in collection means that the implementing class doesn't have to implement it." -- this is plain false. By "doesn't have to implement" you mean something else. – djechlin Mar 10 '13 at 15:29

There seems to be an awful lot of confusion in the answers here.

The Java language requires that every method in an interface is implemented by every implementation of that interface. Period. There are no exceptions to this rule. To say "Collections are an exception" suggests a very fuzzy understanding of what's really going on here.

It's important to realize that there are sort of two levels of conforming to an interface:

  1. What the Java language can check. This pretty much just boils down to: is there some implementation for each of the methods?

  2. Actually fulfilling the contract. That is, does the implementation do what the documentation in the interface says it should?

    Well written interfaces will include documentation explaining exactly what is expected from implementations. Your compiler can't check this for you. You need to read the docs, and do what they say. If you don't do what the contract says then you'll have an implementation of the interface as far as the compiler is concerned, but it will be a defective/invalid implementation.

When designing the Collections API Joshua Bloch decided that instead of having very fine-grained interfaces to distinguish between different variants of collections (eg: readable, writable, random-access, etc.) he'd only have very coarse set of interfaces, primarily Collection, List, Set and Map, and then document certain operations as "optional". This was to avoid the combinatorial explosion that would result from fine-grained interfaces. From the Java Collections API Design FAQ:

To illustrate the problem in gory detail, suppose you want to add the notion of modifiability to the Hierarchy. You need four new interfaces: ModifiableCollection, ModifiableSet, ModifiableList, and ModifiableMap. What was previously a simple hierarchy is now a messy heterarchy. Also, you need a new Iterator interface for use with unmodifiable Collections, that does not contain the remove operation. Now can you do away with UnsupportedOperationException? Unfortunately not.

Consider arrays. They implement most of the List operations, but not remove and add. They are "fixed-size" Lists. If you want to capture this notion in the hierarchy, you have to add two new interfaces: VariableSizeList and VariableSizeMap. You don't have to add VariableSizeCollection and VariableSizeSet, because they'd be identical to ModifiableCollection and ModifiableSet, but you might choose to add them anyway for consistency's sake. Also, you need a new variety of ListIterator that doesn't support the add and remove operations, to go along with unmodifiable List. Now we're up to ten or twelve interfaces, plus two new Iterator interfaces, instead of our original four. Are we done? No.

Consider logs (such as error logs, audit logs and journals for recoverable data objects). They are natural append-only sequences, that support all of the List operations except for remove and set (replace). They require a new core interface, and a new iterator.

And what about immutable Collections, as opposed to unmodifiable ones? (i.e., Collections that cannot be changed by the client AND will never change for any other reason). Many argue that this is the most important distinction of all, because it allows multiple threads to access a collection concurrently without the need for synchronization. Adding this support to the type hierarchy requires four more interfaces.

Now we're up to twenty or so interfaces and five iterators, and it's almost certain that there are still collections arising in practice that don't fit cleanly into any of the interfaces. For example, the collection-views returned by Map are natural delete-only collections. Also, there are collections that will reject certain elements on the basis of their value, so we still haven't done away with runtime exceptions.

When all was said and done, we felt that it was a sound engineering compromise to sidestep the whole issue by providing a very small set of core interfaces that can throw a runtime exception.

When methods in the Collections API are documented as being "optional operations", it does not mean that you can just leave the method implementation out in the implementation, nor does it mean you can use an empty method body (for one thing, many of them need to return a result). Rather, it means that a valid implementation choice (one that still conforms to the contract) is to throw an UnsupportedOperationException.

Note that because UnsupportedOperationException is a RuntimeException you can throw it from any method implementation, as far as the compiler is concerned. For example, you could throw it from an implementation of Collection.size(). However, such an implementation would violate the contract as the documentation for Collection.size() does not say that this is permitted.

Aside: The approach used by Java's Collections API is somewhat controversial (probably less now than when it was first introduced, however). In a perfect world, interfaces would not have optional operations, and fine grained interfaces would instead be used. The problem is that Java supports neither inferred structural types or intersection types, which is why attempting to do things the "right way" ends up becoming extremely unwieldy in the case of collections.

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+1 for There are no exceptions to this rule. Wondering why this answer is not marked as accepted. Others are good but you have given more than enough. – xyz Jul 25 '12 at 13:52
"The Java language requires that every method in an interface is implemented by every implementation of that interface. Period. There are no exceptions to this rule." Except... when there are. :-) Java 8 interfaces can specify a default method implementation, Thus, in Java 8... it is NOT true that every method in an interface must be IMPLEMENTED BY every implementation of the interface, at least not in the sense that you must code the implementation in the conrete class. – DaBlick Apr 4 '14 at 16:09
@DaBlick When I said "is implemented by every implementation" I did not mean that said method implementation must reside in the source of the implementing class. Even prior to Java 8, one can inherit an implementation of an interface method, even from a class that doesn't implement said interface. eg: create Foo that doesn't implement Runnable with public method void run(). Now create a class Bar that extends Foo and implements Runnable without overiding run. It still implements the method, albeit indirectly. Likewise, a default method implementation is still an implementation. – Laurence Gonsalves Apr 5 '14 at 1:10
Apologies. I wasn't trying to be pedantically critical so much as to draw attention to a Java 8 feature which might be relevant to the original post. In Java 8, you now have the option of having implementations that are not coded in ANY super-class nor subclass. This (IMHO) opens a new world of design patterns including some that may be appropriate in cases where the prohibition on multiple-inheritance might have presented some challenges. I think this will spawn a new set of highly useful design patterns.\ – DaBlick Apr 5 '14 at 13:18
@AndrewS because in Java 8 remove was given a default implementation. If you don't implement it, then your class gets the default implementation. The other two methods you mention do not have default implementations. – Laurence Gonsalves Oct 9 '15 at 20:38

The optional methods in the Collection interface mean that the implementation of the method is allowed to throw an exception, but it has to be implemented anyway. As specified in the docs:

Some collection implementations have restrictions on the elements that they may contain. For example, some implementations prohibit null elements, and some have restrictions on the types of their elements. Attempting to add an ineligible element throws an unchecked exception, typically NullPointerException or ClassCastException. Attempting to query the presence of an ineligible element may throw an exception, or it may simply return false; some implementations will exhibit the former behavior and some will exhibit the latter. More generally, attempting an operation on an ineligible element whose completion would not result in the insertion of an ineligible element into the collection may throw an exception or it may succeed, at the option of the implementation. Such exceptions are marked as "optional" in the specification for this interface.

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I never really understood what the javadocs meant by optional. I believe they meant as you said. But most methods are optional by that standard: new Runnable ( ) { @ Override public void run ( ) { throw new UnsupportedOperationException ( ) ; } }; – emory May 13 '12 at 15:02
This is not seem to apply to optional methods, but rather that, for instance, add((T)null) may be valid in one case but not another. That is, this talks about optional exceptions/behavior and for arguments ("restrictions on elements" ... "ineligible element" ... "exceptions marked as optional") and does not address optional methods. – user166390 May 13 '12 at 15:03

An interface in Java just declares the contract for implementing classes. All methods in that interface must be implemented, but the implementing classes are free to leave them unimplemented, viz., blank. As a contrived example,

interface Foo {
  void doSomething();
  void doSomethingElse();

class MyClass implements Foo {
  public void doSomething() {
     /* All of my code goes here */

  public void doSomethingElse() {
    // I leave this unimplemented

Now I have left doSomethingElse() unimplemented, leaving it free for my subclasses to implement. That is optional.

class SubClass extends MyClass {
    public void doSomethingElse() {
      // Here's my implementation. 

However, if you're talking about Collection interfaces, as others have said, they are an exception. If certain methods are left unimplemented and you call those, they may throw UnsupportedOperationException exceptions.

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I could kiss you my friend. – MicroR May 20 at 20:14

All methods have to be implemented, but the implementations may be blank (an empty method.)

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If we go through the code of in grepCode which is a ancestor class for all collection implementations, it will help us to understand the meaning of optional methods. Here is the code for add(e) method in AbstractCollection class. add(e) method is optional according to collection interface

public boolean  add(E e) {

        throw new UnsupportedOperationException();

Optional method means it is already implemented in ancestor classes and it throws UnsupportedOperationException upon invocation. If we want to make our collection modifiable then we should override the optional methods in collection interface.

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In fact, I am inspired by SurfaceView.Callback2 . I think this is the official way

public class Foo {
    public interface Callback {
        public void requiredMethod1();
        public void requiredMethod2();

    public interface CallbackExtended extends Callback {
        public void optionalMethod1();
        public void optionalMethod2();

    private Callback mCallback;

If your class doesnt need to implement optional methods, just "implements Callback". If your class need to implement optional methods, just "implements CallbackExtended".

Sorry for shit English.

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Although it does not answer the OP's question, it is worth noting that as of Java 8 adding default methods to interfaces is in fact doable. The default keyword placed in an interface's method signature will result in a class having the option to override the method, but not require it to.

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I was looking for a way to implement the call back interface, so implementing optional methods was necessary since I didn't want to implement every method for each call back.

So, instead of using an interface, I used a class with empty implementation such as:

public class MyCallBack{
    public void didResponseCameBack(String response){}

And you can set member variable CallBack like this,

c.setCallBack(new MyCallBack() {
    public void didResponseCameBack(String response) {
        //your implementation here

then call it like this.

if(mMyCallBack != null) {

This way, you wouldn't need to worry about implementing every methods per call back, but only override the ones you need.

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