Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

People say that asList method convert the array into list and its not copying, so every change in 'aList' will reflect into 'a'. So add new values in 'aList' is illegal, since array have fixed size.

But, asList() method returns ArrayList<T>. How the compiler differentiates line 3 from 5. Line 3 gives me exception (UnsupportedOperationException).

        String[] a = {"a","b","c","d"};//1
        List<String> aList =  Arrays.asList(a);//2
        List<String> b = new ArrayList<String>();//4
share|improve this question
It doesn't matter what 'people say'. It matters what the Javadoc says. – EJP Jan 26 '11 at 1:52

This List implementation you receive from Arrays.asList is a special view on the array - you can't change it's size.

The return type of Arrays.asList() is java.util.Arrays.ArrayList which is often confused with java.util.ArrayList. Arrays.ArrayList simply shows the array as a list.

share|improve this answer
+1 I think this is basically the crux of the question. The OP sees that the return type is ArrayList, and is wondering why it behaves differently from an ArrayList. Perfectly valid question. – Joeri Hendrickx Jan 25 '11 at 10:30

Read again, the type of Arrays.asList is:

public static <T> List<T> asList(T... a)

which clearly states that asList returns an object that implements interface java.util.List, nowhere does it says it will return an instance of class java.util.ArrayList.

Next, notice that the documentation on List.add says:

boolean add(E e)

     Appends the specified element to the end of this list (optional operation).

Technically, everytime you use a variable typed as List (instead of ArrayList), you should always be careful to expect that this method may throw UnsupportedOperationException. If you are sure that you will only receive a List implementation that always have the correct semantic of .add(), then you can omit the check at the risk of a bug when your assumption is invalidated.

share|improve this answer


The Return type of Arrays.List is some unknown internal implementation of the List interface and not java.util.ArrayList, so you can assign it only to a List type.

If you assign it to an ArrayList for instance it will give you compile time error "Type mismatch: cannot convert from List to ArrayList"

  ArrayList<String> aList =  Arrays.asList(a);// gives Compile time error

From the Javadoc "Arrays.asList Returns a fixed-size list backed by the specified array. (Changes to the returned list "write through" to the array.) " that means that you are only provided a list view of the Array which IMO is created at runtime and ofcourse you cannot change the size of an array so you can't change size of "Arrays.asList" also.

IMO the internal implementation of Arrays.asList has all the implemented methods which can change the size of the Array as -

void add(E e)
//some unknown code

so whenever you attempt to alter the size of the Array it throws the UnsupportedOperationException.

Still if you want to add some new items to an ArrayList by using such a syntax, you can do so by creating a subclass of Arraylist(preferably by using anonymous subclass of ArrayList). You can pass the return type of Arrays.List to the constructor of ArrayList, (ie. public ArrayList(Collection c)) something like this -

List<String> girlFriends = new java.util.ArrayList<String>(Arrays.asList("Rose", "Leena", "Kim", "Tina"));

Now you can easily add Sarah to your GF list using the same syntax.

PS - Please select this one or another one as your answer because evrything has been explained. Your low Acceptance rate is very discouraging.

share|improve this answer

asList() doesn't return a java.util.ArrayList, it returns a java.util.Arrays$ArrayList. This class doesn't even extend java.util.ArrayList, so its behaviour can be (and is) completely different.

The add() method is inherited from java.util.AbstractList, which by default just throws UnsupportedOperationException.

share|improve this answer
No, asList returns a List. What you are describing may be true for a specific Java implementation, but is not anything you can rely on. – jarnbjo Jan 25 '11 at 10:20
@jarnbjo - This is true for both Sun Java and GNU Classpath and probably any other implementations as it's the easiest way to do it. As the question was about how the compiler can tell, I though a concrete example would be easiest to understand. – OrangeDog Jan 25 '11 at 14:23

You're assuming that Arrays.asList() returns an ArrayList, but that's not the case. Arrays.asList() returns an unspecified List implementation. That implementaton simply throws an UnsupportedOperationException on each unsupported method.

share|improve this answer

It's an exception and not a compiler error. It is thrown when the program is run and not at the compile time. Basically the actual class that Arrays.asList will return has a throw UnsupporteOperationException inside the add() method.

To be more specific Arrays.asList will return an inner class defined inside the Arrays class that is derived from AbstractList and does not implement the add method. The add method from the AbstractList is actually throwing the exception.

share|improve this answer

The key to this is the List implementation returned by

List<String> aList =  Arrays.asList(a);

If you look at the source code in Arrays you will see that it contains an internal private static class ArrayList. This is not the same as java.util.ArrayList.

share|improve this answer

asList returns a fixed-size list, so that you cannot add new elements to it. Because the list it returns is really a "view" of the array it was created from ('a' in your case), it makes sense that you won't be able to add elements - just like you can't add elements to an array. See the docs for asList

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.