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I'm creating a library to be used by people but why should my method return a List instead of an ArrayList ?

Because if the user know the real type is a ArrayList he will use the accessor [] in a loop instead of iterator but if he doesn't know he will use an iterator.

Same question for LinkedList, if the return type is a List he won't be able to use the correct accessor

Am I right ?


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Depends how specific you want to be. Generally, using the Abstract parent class is better, it allows people to store the array you're returning in whatever structure implementing List they want. – BaL Jul 27 '12 at 7:15
Always program to the interface when possible. What did you think the iterator for an arraylist does internally? :) – Affe Jul 27 '12 at 7:17
Well, I'd most likely use a foreach loop and I can't remember when I last used the direct accessor on an ArrayList. If you always iterate over the list anyways you can as well use an iterator. – Thomas Jul 27 '12 at 7:25
How, exactly, do you want to use [] on a list? I always access my lists elements with get(int), which works on any list type. – arne.b Jul 27 '12 at 13:59
up vote 16 down vote accepted

Returning List will make it possible for users of your library to use anything that implements a List interface, while using an ArrayList will force them to use an ArrayList.

If in the future, you as a library creator decide to change your internal implementation, that changes will be hidden from the end user by the generic interface to your library.

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Ok but if i have created in my method a List<Obj> l = new ArrayList<Obj>(), the real nature is a ArrayList not a linkedlist so they have to use the accessor and not the iterator ? – kinaesthesia Jul 27 '12 at 7:15
Yes but that doesn't matter, you just specify with the interface that it's a List, but then the user can choose the implementation – BaL Jul 27 '12 at 7:17
@BaL could you explain what it means that the user can choose the implementation? If the library function returns a List backed by an ArrayList, the user cannot choose to treat it the same as a LinkedList, e.g., the List will not respond to getFirst() or getLast() – cyang Jul 27 '12 at 7:29
@cyang Both parties are a bit more free - it is easy for the end user to convert a List to something more specific (see James Poulson's answer), but a bit harder to do so from one specific implementation to other. Perhaps more importantly, library creator can trivially change the internal implementation without breaking client code. It is a general principle, which is not as apparent with this particular example (because Java provides rich functionality for manipulating lists). – ipavlic Jul 27 '12 at 7:45
@cyang Let's say you have a class for reading from a database. It has a method to return a reader class. That class could read from an Oracle database, MSSQL or something as simple as a text file. It might be returning a OracleReader, a MsSqlReader or a FileReader, and each of them will implement a countRows() method. As an end-user you really don't care about the type of the database. Instead of that, the class might return a DatabaseReader, and you as an end user could then use countRows() on that. If the database changes, your code is still okay. – ipavlic Jul 27 '12 at 8:59

Because the users of your library should never know that you are using an ArrayList internally.

For example, say you return an ArrayList and lots of people have started using your library. Now if you suddenly realize a LinkedList better suits your purpose, then you break compatibility for all the folks who are presently using your code.

This is why it is always better to code to an interface, not an implementation, and even more so when you are writing code that is specifically meant to be re-used. The interface (List in this case) acts as a contract between your code and the client's code. It tells them what your code does (interface), without telling them how it does it (by not exposing the implementation).

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Return an interface (or failing that a super class?) if possible. This way the method can have a broader application if overriden. This might prevent some class-specific methods from being available on the returned object but there's nothing stopping a programmer taking the List data and copying it to whatever Collection they prefer to use.

List myList = new MyLibrary().getList();

ArrayList myArrayList = new ArrayList(myList);
LinkedList myLinkedList = new LinkedList(myList);
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Related Javadoc: ArrayList constructor LinkedList constructor – James Poulson Jul 27 '12 at 7:36

They don't have to use an iterator - the List interface supports get(int index) as a method. If you want flexibility to change the underlying container to anything supporting the list interface, use List. If specific ArrayList methods are required on what you return, use ArrayList.

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Because your user can make from your List either ArrayList or LinkedList, you will leave him a choice. It's called Programming to Interface. You should give users of your API as much freedom as you can and this technique is one of the ways how to achieve it.

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1. Its the concept of Interface Polymorphism.

2. Its better to have List<My_Obj> arr = new ArrayList<My_Obj>;

3. Suppose you want to use LinkedList instead of ArrayList as somepoint, then you donot need to worry abt how to do it..

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If You are returning List then it is possible for users of your library to use anything that implements a List interface. It may be Array List or Linked List.

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I typically choose the most general type possible. In this case, you could return a type that's even more general than a List, such as Collection or Iterable.

By returning Iterable, the compiler will prevent the calling code from attempting to add elements to your list. This is much stronger than relying on Collections.unmodifiableList() to fail at runtime.

Using more general types also gives you more room to manoeuvre in the future. Perhaps your method's going to load your data from a streaming source rather than an in-memory source: then Iterable becomes a much more suitable than List.

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