Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.
ArrayList aList = new ArrayList();

List aList = new ArrayList();

What's the difference between these two and which is better to use and why?

share|improve this question
the correct answer, if there's such a thing, is the 1st form. see my answer below. –  irreputable Sep 22 '10 at 22:24

8 Answers 8

up vote 4 down vote accepted

List<T> is interface, where ArrayList<T> is class, and this class implements List<T> interface.

I would prefer 2nd form, which is more general, ie if you do not use methods specific to ArrayList<T> you can declare its type as interface List<T> type. With 2nd form it will be easier to change implementation from ArrayList<T> to other class that implements List<T> interface.

EDIT: As many of SO users commented both forms can be arguments to any method that accept List<T> or ArrrayList<T>. But when I declare method I would prefer interface:

 void showAll(List <String> sl) ...

and use:

 void showAllAS(ArrayList <String> sl) ...

only when my method uses method specific to ArrayList<T>, like ensureCapacity().

Response with information that we should use typed List<T> instead of just List is very good (of course if we do not use ancient Java).

share|improve this answer
This sounds worded backwards (wrong) to me. The 1st form ArrayList aList can be passed as an argument to any method that takes a List or ArrayList parameter. The 2nd form List aList can be passed as an argument to only methods that take a List parameter. Although the variable List aList references an ArrayList, strong typing would prevent the reference variable aList from matching as an argument to an ArrayList parameter. –  Bert F Sep 22 '10 at 12:09
-1 It's exactly the other way around; you can pass an ArrayList to methods that want a List. You can't pass an List to a method asking for a ArrayList. –  Ishtar Sep 22 '10 at 12:14
@Ishtar, Bert, exactly. But you forgot to mention that a method should almost never expect an ArrayList. In 99% of cases, any List and in 50% any Collection will do. –  Sean Patrick Floyd Sep 22 '10 at 12:28
+1 I think Michal got a bit misunderstood here. If you create an interface, it's better to use a List if no ArrayList specific features are used inside. This way you do not impose an implementation upon the user. ArrayList is one of the possible implementations of a List. –  Roalt Sep 22 '10 at 12:39
@Bert F: If he would have said " can pass a List (or ArrayList) to methods that operate on List parameter..." there would have been less confusion, right? I can see that it's now not right. –  Roalt Sep 22 '10 at 13:46

List is an Interface, whereas ArrayList is an implementation of that interface.

The second is better because it means you can change your ArrayList for another implementation of List later without needing to change the rest of your application. You may want to do this for performance reasons, or because of other aspects of the behaviour of the List implementation that you have chosen/will choose.

share|improve this answer
Exactly. If you ever find you need to ensure you are working with an ArrayList later, you can change the declaration then. Otherwise, the rest of your code really doesn't need to know what kind of List is being used, so that you can swap for a different implementation later (perhaps LinkedList) if performance or other considerations warrant it. –  Bill Michell Sep 22 '10 at 12:51
@Bill everyone always mentions LinkedList at the implementation you might switch too, but I think the case gets stronger if you mention Collections.unmodifiableList(), Collections.checkedList(), or Collections.synchronizedList(). –  ILMTitan Sep 22 '10 at 14:37
@ILMTitan not to mention other collections like the Immutable ones from Google Collections. –  Jorn Sep 22 '10 at 22:25
+1 Cut and dry. Researching topic and wish I had found this earlier because these words answered more questions than a thousand bloated, repetitive essays on the subject. </poeticlicense> –  Steve Aug 29 '11 at 23:55

Both are deprecated since Java 1.5.

It should be:

List<String> list = new ArrayList<String>();
// or whatever data type you are using in your list

Please read Effective Java by Joshua Bloch, especially these two items:

  • 23: Don't use raw types in new code (this is even available online)
  • 52: Refer to objects by their interfaces

BTW, if you use Guava, you have a factory method for constructing an ArrayList so you don't have to repeat the type parameter:

List<String> list = Lists.newArraylist();
share|improve this answer
I hope everyone knows that you should use the template-version of List by now (e.g. eclipse will nag you about it if you don't). But your 2nd remark about Guava is quite interesting! –  Roalt Sep 22 '10 at 12:43
+1 for "Effective Java", it's a really good book. –  dertoni Sep 22 '10 at 12:44
@dertoni I agree, it's the only one book that every java developer should read. –  Sean Patrick Floyd Sep 22 '10 at 12:47
I'd say it's the first book every Java developer should read ;) –  Jorn Sep 22 '10 at 22:26

I prefer the second in most cases because it signifies that you're not using anything specific in the ArrayList api, and if you need to later you can substitute any other type of List without having to change any code except the first line.

share|improve this answer

If you are using Java 1.4 or earlier, then I would use the second one. It's always better to declare your fields as generically as possible, in case you need to make it into something else later on, like a Vector, etc.

Since 1.5 I would go with the following

List<String> x = new ArrayList<String>();

It gives you a little bit of type safety. List 'x' can add a String Object, and that's it. When you get an item from the List 'x', you can count on the fact that a String is going to come back. This also helps by removing unnecessary casting, which can make code hard to read when you go back 6 months later and try to remember what your code does. Your compiler/IDE will help you to remember what type should be going in to List 'x' by displaying an error if you try to add any other Object type.

If you want to add multiple Object types to a List then you could add an Annotation to suppress the compile error

List y = new ArrayList();
share|improve this answer
This is bad style. Don't suppress warnings, use List<Object>. Example: List<Object> y = new ArrayList<Object>(); y.add(1); y.add("abc"); y.add(true); –  Sean Patrick Floyd Sep 22 '10 at 13:10
(The auto-boxing I used in my example is also bad style, of course) –  Sean Patrick Floyd Sep 22 '10 at 13:10
If you're using 1.4 or earlier the first thing to do is to upgraded your JVM. –  Tony Ennis Sep 22 '10 at 13:52
I don't want to start a flame war, I just want to give justification for leaving the Java 1.4 reference. I'm sure there is at least one other poor developer out there that has no choice but to use less than the most current tools when maintaining an old product. It's an unfortunate fact that some of us have no recourse but to continue to use an old JVM on large legacy projects because the business will only allow updates to custom code, but not to supporting libraries. There is also the justification of the cost of retesting an entire code base that could cause an old JVM to be used. –  bakoyaro Sep 24 '10 at 19:27

I know of at least one case when declaring a variable with an interface does not work. When you want to use reflection.

I made a bug fix on some code where I declared a variable as Map<String, MyObject> and assigned it an instance of HashMap<String, MyObject>. This variable was used as a parameter in a method call that was accessed via reflection. The problem is that reflection tried to find a method with HashMap signature and not the declared Map signature. Since there was no method with a HashMap as a parameter I was unable to find a method by reflection.

Map<String, Object> map = new HashMap<String, Object>();

public void test(Map<String, Object> m) {...};

Method m = this.getClass().getMethod("test", new Class<?>[]{map.getClass()});

Will not find the method that uses the interface. If you make another version of test that uses HashMap instead then it will work - but now you are forced to declare your variable with a concrete class and not the more flexible interface...

share|improve this answer
the bug is the in the method lookup code. a sophisticated lookup will not require exact parameter type match, instead, it simulates compiler's algorithm to find a suitable method. –  irreputable Sep 22 '10 at 21:59
The actual bug here is you are using map.getClass(), which will return HashMap.class, for the method lookup, while you should use Map.class instead. –  Jorn Sep 22 '10 at 22:32
@John seems like a small typo but it is more than that. The whole purpose behind using reflection in this particular case is that I DON'T know which method to call. I am passed a List<Object> for the parameters. If I knew that I wanted to use the method with the Map<> parameter I wouldn't be using reflection :) –  BigMac66 Sep 23 '10 at 13:35

All these answers are the same recite from some dogma they read somewhere.

A variable declaration and initialization statement, Type x = new Constructor();, is definitely part of implementation detail. It's not part of a public API (unless it's public final, but List is mutable so that's inappropriate)

As an implementation detail, who you are trying to fool with your abstractions? It's better to keep the type as specific as possible. Is it an array list or a linked list? Should it be thread safe or not? The choice is important for your implementation, you carefully chose the specific list impl. Then you declare it as a mere List as if it doesn't matter and you don't care?

The only legitimate reason to declare it as List is I'm too lazy to type. That also covers the argument that if I need to move to another List impl I have one less place to modify.

This reason is legitimate only when the variable scope is small, and you can see all of its usages from one glance. Otherwise, keep the most specific type, so that its performance and semantic characteristics are manifest across all the code that use the variable.

share|improve this answer
I mostly disagree with this, but it doesn't deserve -3; upvoting because it raises valid arguments (even though I disagree with the conclusion). –  sleske Feb 9 '11 at 12:51
BTW, one point where I disagree is "The choice is important for your implementation, you carefully chose the specific list impl" If that is the case, using the concrete type might be justified, but in my experience, it often is not the case. When e.g. using collection classes, I almost always just use ArrayList & HashSet, and only reconsider if that causes problems (i.e. practically never). In that case using List/Set better expresses my intention, i.e. "I just want a list". –  sleske Feb 9 '11 at 12:52
+1; I fully agree on that. If the scope is small then use the specific type. I was tossed here from your other answer: –  maba Oct 10 '12 at 7:42

This is a Java quirk, due to limited type inference and doctrine OOP. For local variables it's mostly style; if you need some specific feature of the subtype, use the subtype (examples below), but otherwise fine to use either.

Java style is to use the supertype, to enforce interfaces even within the body of implementations, and for consistency with visible types (Effective Java 2nd Edition: Item 52: Refer to objects by their interfaces). In languages with more type inference, such as C++/C#/Go/etc., you don't need to explicitly state the type, and the local variable will have the specific type.

For visible types (public or protected: fields, or parameters and return value of methods), you almost always want to use the most general type: interface or abstract class, to provide better flexibility (Effective Java: Item 40: Design method signatures carefully). However, for types that are not visible (private or package-private members, or local variables), it's ok to use either (it's just style) and sometimes necessary to use more specific types, including concrete classes.

See Effective Java for standard guidelines; personal thoughts follow.

The reason to use more general types even if not visible is to reduce noise: you're stating that you only need the more general type. Using general types on members that are not visible (like private methods) also reduces churn if you ever change types. However, this doesn't apply to local variables, where it's just changing one line anyway: ConcreteFoo foo = new ConcreteFoo(); to OtherConcreteFoo foo = new OtherConcreteFoo();.

Cases where you do need the subtype include:

  • You need members only present on the subtype, e.g.:
    • some feature of the implementation, like ensureCapacity for ArrayList<T>
    • (common in test code) some member of a fake class, like (hypothetically) FakeFileSystem#createFakeFile.
  • You rely on the behavior of the subtype, notably in overrides of the supertype's methods, like:
    • having a more general type of parameter,
    • more specific return type, or
    • throwing a more specific or fewer exception types.

As an example of the last, see Should I close a StringReader?: StringReader.html#close overrides Reader.html#close and does not throw an IOException, so using StringReader instead of Reader for the local variable means you don't need to handle an exception that can't actually occur, and significantly reduces boilerplate.

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.