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I've seen code like this many times:

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

Why do people take the parent of ArrayList (and other classes) instead of the type of the generated object?

Does that take less performance? Or why should someone do this?

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marked as duplicate by NINCOMPOOP, sᴜʀᴇsʜ ᴀᴛᴛᴀ, Rohit Jain, Jon Skeet, Sean Reilly Aug 20 '13 at 7:35

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8  
What is it with the fixation on "performance"? 90% of the time, that's about the least important aspect of writing code! –  Joachim Sauer Aug 20 '13 at 7:31
2  
    
You can also take a look at this : stackoverflow.com/questions/17459553/… –  Marc Aug 20 '13 at 7:34
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If I can't see the reason for a thing in a programm, for what else should I ask? I wouldn't say that taking the parent-reference gives you a more "readable" code. :) But now I have the answer, thanks to all. –  TrudleR Aug 20 '13 at 7:58
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@TrudleR: it communicates intent: List x = new ArrayList() means that you don't really need any special features of ArrayList, you "promise" to "only" use the features exposed by the List interface. Taking it further would be Collection x = new ArrayList() or even Iterable x = new ArrayList(). –  Joachim Sauer Aug 20 '13 at 8:02

7 Answers 7

up vote 23 down vote accepted

When someone writes code like this, he/she is trying to follow a basic OO design principle which says -

Program to an interface, not to a concrete implementation

I have explained this principle in one of my blog posts. Look in the Class Inheritance VS Interface Inheritance section.

To summarize the post, when you use a reference of a parent type to refer to an instance of a sub-type, you get a lot of flexibility. For example, if you ever need to change your sub-type implementation in the future, you will be able to do that easily, without changing much of your code.

Consider the following method -

public void DoSomeStuff(Super s) {
    s.someMethod();
}

and a call to this method -

DoSomeStuff(new Sub());

now, if you ever need to change the logic inside someMethod, you can easily do it by declaring a new subtype of Super, say NewSubType, and changing the logic inside that implementation. In this way, you will never have to touch other existing code which utilizes that method. You will still be able to use your DoSomeStuff method in the following way -

DoSomeStuff(new NewSubType());

Had you declared the parameter of DoSomeStuff to be of Sub, you would then have to change its implementation too -

DoSomeStuff(NewSubType s) {
    s.someMethod();
}

and it may also chain/bubble to several other places.

In terms of your collection example, this lets you change the list implementation that a variable is pointing to without much hassle. You can easily use a LinkedList in place of an ArrayList.

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+1 Good explanation. –  christopher Aug 20 '13 at 7:36
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"Program to an interface, not to a concrete implementation" is a good advice. However, it's not really an argument to do List<String> list = new ArrayList<String>(); because a) this code is still tied to ArrayList due to the constructor and b) it's more about API design and not the private implementation. It's one of the java things you learn from the beginning which is not really justified. Often the implementation offers some niceties which you will never see if you insist on using the interface. Answer is still good, of course. (+1) –  atamanroman Aug 20 '13 at 7:41
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BUT, his argument still stands. You can swap out functionality by changing the argument. This supports several nice code features, such as dependency injection, loose coupling and substitutability. –  christopher Aug 20 '13 at 7:44
    
@atamanroman: A consequence of that principle encourages you to refer to the concrete instances in terms of their interfaces. This is why I think it's relevant here. –  Sayem Ahmed Aug 20 '13 at 7:44
    
@Chris: Totally agree with you. –  Sayem Ahmed Aug 20 '13 at 7:45

It means you can swap out the type of list at any point with anything that implements the List interface, as opposed to creating a rigid model that can only use ArrayList. For example:

private List<String> list;

public SomeConstructor()
{
     // At this point, you can make it any type of object you want.
     list = new ArrayList<String>();
     list = new LinkedList<String>();
     list = new AttributeList<String>();
}

This will abstract your code that uses the list object, away from the details like what exact object type list is. All it needs to know is that it has the add method etc. This is called Loose Coupling.

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When you write:

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

Then you are sure you'll use only the functionality of the interface List.
(ArrayList implements List, so List is more flexibl). Using this, allows you to change the ArrayList to other types in the future (like LinkedList..).

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To sort things out:

For more flexibility you initiate interface List:

So if you don't need all ArrayList use List only.

You can write something like: List<String> = Arrays.asList("aa", "bb","cc").

For sure, less functionality can help to performance. As you know If you want to use multithreaded application, use Vector instead but it will down your performance.

enter image description here

Took from here

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1  
Source pleace :) –  Tichodroma Aug 20 '13 at 7:36
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wilsonmar.com/1arrays.htm –  Maxim Shoustin Aug 20 '13 at 7:42
    
@Maxim Shoustin: Good picture! Does this mean, that I should take "AbstractMap" as reference for all the map-collection-objects? –  TrudleR Aug 20 '13 at 8:01
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@TrudleR: no, AbstractMap is an implementation detail you should never really care about: You either reference the map using the Map interface or a more specific interface (such as NavigableMap). In rare cases you might need the specific implementation type, but AbstractMap itself is rarely referenced by anyone except when they extend it. –  Joachim Sauer Aug 20 '13 at 8:04

Because a method don't have to know what list-implementation you use.

A Method just needs to know that is is a list.

The Method can still be used.

Always program to an interface, not to a concrete implementation. (In this case List)

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Generally it is preferred to work with the Interface class (List in this case) so that any List implementation could later be substituted with minimal fuss if requirements change.

Although ArrayList possibly supports some methods that are not on the List interface, this declaration makes it clear that those extra methods are not relevant in that case.

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

In collection framework List is an interface while ArrayList is implementation. Main reason you'd do this is to decouple your code from a specific implementation of the interface also this will be helpful in case if you wish to move to some other implementation of List in the future.

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