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

When I use the above line compiler gives me type mismatch error. But as I understand Object is super class of String and if I create list of object then it should also accept String. So why above statement is wrong. I am looking for an explanation.

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No. The type in generic doesn't work that way. You can do it with List<? extends Object> list = new ArrayList<String>();, but it is not usable (can get() but cannot add()). –  nhahtdh Feb 18 '13 at 11:41
This post seems to explain it pretty well... stackoverflow.com/a/12973616/828193 –  user000001 Feb 18 '13 at 11:43
Also make sure both list and arraylist are from the same package... I.e make sure they are both from java.util, otherwise you get an error –  Savlon Feb 18 '13 at 11:47

5 Answers 5

up vote 4 down vote accepted

One sentence, because

Generic types are not polymorphic

i.e., even though java.lang.String is a subtype of java.lang.Object polymorphism doesn't apply to generic types. It only applies to collection types. thus

List<Object> list = new ArrayList<String>(); //this isn't valid
    List<Object> list = new ArrayList<Object>(); //valid
List<? extends Object> list = new ArrayList<String>();//valid

Why can't generic types be polymorphic?

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Because you define what possible list can be associated with.

The correct way would be

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

which is the same as

List<? extends Object> list = new ArrayList<String>();

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Just replace:

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


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


List<Object> list = new ArrayList<Object>()

It is important here that you operate with the same data type

Or you can also use

 List<?> list = new ArrayList<Object>();
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Declaring the 2nd way with <?> will make all methods which takes the type T from the generic unusable, only methods which doesn't involve T can be invoked. –  nhahtdh Feb 18 '13 at 11:45

The type of the variable declaration must match the type you pass to the actual object type. If you declare List<Foo> foo then whatever you assign to the foo reference MUST be of the generic type . Not a subtype of <Foo>. Not a supertype of <Foo>.

Simple Generic types are not polymorphic

List<Parent> myList = new ArrayList<Child>() \\ Invalid

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A is a super type of B does not imply List<A> is a super type of List<B>. If such proposition holds, consistency of type system will be violated. Consider the following case:

// ! This code cannot pass compilation.
List<String> list1 = new ArrayList<String>();
List<Object> list2 = list1;  // Error
// Previous conversion causes type contradiction in following statements.
list2.add(new SomeOtherClass());
String v = list1.get(0);  // list1.get(0) is not String!

That's why List<Object> should not be super type of List<String>.

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