Consider below method doSomething(List<Object>) which accepts List<Object> as parameter.

private void doSomething(List<Object> list) {
    // do something

Now consider below code snippet which tries to call doSomething() where I try to pass List<String> to doSomething()

List<Object> objectList;
List<String> stringList;

doSomething(stringList); // compilation error incompatible types
doSomething(objectList); // works fine 

Even below code throws compilation error

objectList = stringList;  // compilation error incompatible types

My question is why List<String> can not be passed to a method which accepts List<Object>?


This generic question in Java may look confusing to any one who is not very familiar with Generics as in first glance it looks like String is object so List<String> can be used where List<Object> is required but this is not true. It will result in compilation error.

It does make sense if you go one step further because List<Object> can store anything including String, Integer etc but List<String> can only store Strings.

Also have a look at: Why not inherit from List<T>?

  • 5
    The problem is not exactly that the called can store anything: the real problem is, if it would be allowed, the caller would not be sure of having a String instance, so would have to handle it as in pre-generics days (instanceof operator). – robermann Mar 3 '14 at 11:18

Because while String extends Object, List<String> does not extend List<Object>

In general, if Foo is a subtype (subclass or subinterface) of Bar, and G is some generic type declaration, it is not the case that G<Foo> is a subtype of G<Bar>.

This is because collections do change. In your case, If List<String> was a subtype of List<Object>, then types other than String can be added to it when the list is referenced using its supertype, as follows:

List<String> stringList = new ArrayList<String>;
List<Object> objectList = stringList;// this does compile only if List<String> where subtypes of List<Object>
objectList.add(new Object());
String s = stringList.get(0);// attempt to assign an Object to a String :O

and the Java compiler has to prevent these cases.

More elaboration on this Java Tutorial page.

  • 3
    +1; anyway you can call doSomething(((List<Object>)(List<?>) stringList)) – robermann Mar 3 '14 at 11:03

You could put an object of a wrong type into the list IF this worked:

private void doSomething(List<Object> list) {
    list.add(new Integer(123)); // Should be fine, it's an object

List<String> stringList = new ArrayList<String>();
doSomething(stringList); // If this worked....
String s = stringList.get(0); // ... you'd receive a ClassCastException here

The reason for these limitations have to do with variance considerations.

Take the following code:

public void doSomething(List<Object> objects)
  objects.add(new Object());

Expanding your example, you could try to do the following:

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


for (String s : strings)

Hopefully it's obvious why this would break if the compiler allowed this code to be compiled (which it doesn't) - a ClassCastException would occur for the second item in the list when trying to cast the Object to a String.

To be able to pass generalized collection types, you need to do this:

public void doSomething(List<?> objects)
  for (Object obj : objects)

Again, the compiler is watching your back and were you to replace the System.out with objects.add(new Object()) the compiler wouldn't allow this because objects could have been created as List<String>.

For more background on Variance see the Wikipedia artical Covariance and contravariance


It is sometimes expected that a List<Object> would be a supertype of a List<String> , because Object is a supertype of String .

This expectation stems from the fact that such a type relationship exists for arrays:

Object[] is a supertype of String[] , because Object is a supertype of String . (This type relationship is known as covariance .)

The super-subtype-relationship of the component types extends into the corresponding array types.

No such a type relationship exists for instantiations of generic types. (Parameterized types are not covariant.)

Check here for more details


From Java Tutorials of Generics:

Let's test your understanding of generics. Is the following code snippet legal?

List<String> ls = new ArrayList<String>(); // 1
List<Object> lo = ls; // 2 

Line 1 is certainly legal. The trickier part of the question is line 2. This boils down to the question: is a List of String a List of Object. Most people instinctively answer, "Sure!"

Well, take a look at the next few lines:

lo.add(new Object()); // 3
String s = ls.get(0); // 4: Attempts to assign an Object to a String!

Here we've aliased ls and lo. Accessing ls, a list of String, through the alias lo, we can insert arbitrary objects into it. As a result ls does not hold just Strings anymore, and when we try and get something out of it, we get a rude surprise.

The Java compiler will prevent this from happening of course. Line 2 will cause a compile time error.

Source : Generics and Subtyping


If you are not sure what datatype it will take in you can make use of Generics in Java as follows

public static void doSomething(List<?> data) {


public static void main(String [] args) {
    List<Object> objectList = new ArrayList<Object>();
    List<String> stringList = new ArrayList<String>();

But while using the data, you will be required to specify proper data type as a Type Cast

  • 1
    No relation to the question, I think – Konstantin Yovkov Mar 3 '14 at 10:53
  • 1
    Ya, I know has no relation to question, but since you had added proper comment at the question, thought it would be good to share possible Generic way using Generics in Java :-/ – rsakhale Mar 3 '14 at 10:56

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