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When using collections in Java, we are advised to use Interface instead of concrete types.

Like: List<Object> list = new ArrayList<Object>();

But, using ArrayList<Object> list = new ArrayList<Object>(); will also does the same job, right?

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  • the reason is polymorphism
    – gjman2
    Commented Oct 4, 2013 at 8:38
  • 1
    I was waiting for this to explode :D Commented Oct 4, 2013 at 8:38
  • possible duplicate of stackoverflow.com/questions/4062982/…
    – Jayaram
    Commented Oct 4, 2013 at 8:39
  • Just one example from real life. I had to use dynamic proxies to make one workaround (long story), but as you already know, to make dynamic proxy you have to use interface. But all references in project was, you guess, concrete type references. So I had to refactor all methods that was using concrete type with their interfaces. Not a load of work, but the lesson is, you have to use interfaces for the sake of OOP as you never know when someone/you'll have to replace concrete type.
    – Matej
    Commented Oct 4, 2013 at 8:44

6 Answers 6

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Yes, but if you later change your mind and use a LinkedList You have to change much more in your code.

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That is the Polymorphism which is the core concept of OOP.

It means ‘a state of having many shapes’ or ‘the capacity to take on different forms’. When applied to OOP , it describes a language’s ability to process objects of various types and classes through a single, uniform interface.

List is a Uniform interface and its Different implementations are like ArrayList ,LinkedList.....etc

Prefer to read :What does it mean to program to a interface?

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When you define your list as:

List myList = new ArrayList();

you can only call methods and reference members that belong to List class. If you define it as:

ArrayList myList = new ArrayList();

you'll be able to invoke ArrayList specific methods and use ArrayList specific members in addition to those inherited from List. Nevertheless, when you call a method of a List class in the first example, which was overridden in ArrayList, then method from ArrayList will be called not the one in the List. Also the first has the advantage that the implementation of the List can change (to a LinkedList for example), without affecting the rest of the code. This is will be difficult to do with an ArrayList, not only because you will need to change ArrayList to LinkedList everywhere, but also because you may have used ArrayList specific methods.

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There's a useful principle: for declared types, use the loosest (vaguest) interface possible (and List is 'looser' than ArrayList).

In practice, this means if you only need to access methods declared in List<Object> on your list instance (which is actually an ArrayList), then declare it as List<Object>. This means you can change your mind on the exact type of list later and you only need to change the line that actually instantiates the ArrayList (or LinkedList or whatever you choose).

This has implications for method signature too: if you were passing around an ArrayList instead of a List, and then changed your mind about it being an ArrayList, you have to go and edit lots of method signatures.

Please read up on Polymorphism if you'd like to know more.

Tangentially related is the Liskov Substitution Principle:

What is the Liskov Substitution Principle?

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Interfaces or should I say base calsses are used to generalize things and problems at hand. So when you implement an interface you can always get the specific objects.

For example: From Animal interface or super class you can always derive specific interfaces or calsses like Lion, but not the other way, becaus its true that a Lion is an animal but several other animals cannot be derived from Lion. Thats why it is advised to make things general and hence use interfaces. Same applies in your case. You can always get ArrayList and other implementations from a List.

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Say you have a class with the following method

public ArrayList<T> foo (ArrayList<T> someInput) {

    //Do some  operations on someInput here...

    return someOutput;

}

Now, what happens if you change the program so that it uses LinkedList objects instead of ArrayList objects? You will get a compiler error wherever this method is called, and you would have to go through and refactor your code so that it accepts LinkedList objects.

If you had programmed to an interface and used a List instead:

public List<T> foo (List<T> someInput) {

    //Do some operations on someInput here....

    return someOutput;

}

If this was the case, no refactoring would be necessary as both the LinkedList and ArrayList classes implement List so there would be no compiler errors. This makes it incredibly flexible. It does not matter to the method what it takes in and what it returns, as long as the objects implement the List interface. This allows you to define behaviour without exposing any of the underlying implementation.

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