I'm a newbie in Generic and my question is: what difference between two functions:

function 1:

public static <E> void funct1  (List<E> list1) {


function 2:

public static void funct2(List<?> list) {



  • 1
    If String refers to java.lang.String, I think funct2 is quite redundant in the wildcard expressions, since java.lang.String is final class and cannot be extended. – nhahtdh Jun 8 '12 at 4:44
  • 1
    This is strange because technically you can't extend String since its a final class. – Lai Xin Chu Jun 8 '12 at 4:44
  • however there is no restriction on using function 2: as it allows subclasses of String(though impossible) or the String class itself... – ria Jun 8 '12 at 4:46
  • Best answer is given here. stackoverflow.com/questions/18176594/… – user6433435 Nov 23 '16 at 10:19

The first signature says: list1 is a List of Es.

The second signature says: list is a List of instances of some type, but we don't know the type.

The difference becomes obvious when we try to change the method so it takes a second argument, which should be added to the list inside the method:

import java.util.List;

public class Experiment {
    public static <E> void funct1(final List<E> list1, final E something) {

    public static void funct2(final List<?> list, final Object something) {
        list.add(something); // does not compile

The first one works nicely. And you can't change the second argument into anything that will actually compile.

Actually I just found an even nicer demonstration of the difference:

public class Experiment {
    public static <E> void funct1(final List<E> list) {

    public static void funct2(final List<?> list) {
        list.add(list.get(0)); // !!!!!!!!!!!!!! won't compile !!!!!!!!!

One might as why do we need <?> when it only restricts what we can do with it (as @Babu_Reddy_H did in the comments). I see the following benefits of the wildcard version:

  • The caller has to know less about the object he passes in. For example if I have a Map of Lists: Map<String, List<?>> I can pass its values to your function without specifying the type of the list elements. So

  • If I hand out objects parameterized like this I actively limit what people know about these objects and what they can do with it (as long as they stay away from unsafe casting).

These two make sense when I combine them: List<? extends T>. For example consider a method List<T> merge(List<? extends T>, List<? extends T>), which merges the two input lists to a new result list. Sure you could introduce two more type parameters, but why would you want to? It would be over specifying things.

  • finally wildcards can have lower bounds, so with lists you can make the add method work, while get doesn't give you anything useful. Of course that triggers the next question: why don't generics have lower bounds?

For a more in depth answer see: When to use generic methods and when to use wild-card? and http://www.angelikalanger.com/GenericsFAQ/FAQSections/TypeArguments.html#FAQ203

  • 5
    It's also worth noting that it's not just on puts. With a List<E>, you can write E obj = list.get(0), but with List<?> you can only write Object obj = list.get(0). – yshavit Jun 8 '12 at 6:50
  • @Jens schauder. Both ? and E allows only object methods to invoke on the object. And one can add to List<E> and can't do same with List<?>. Then why do we need List<?> at all ? – Babu Reddy H Oct 17 '15 at 16:26
  • @BabuReddyH tried to answer your question. – Jens Schauder Oct 18 '15 at 5:05

Generics makes the collection more type safe.

List<E> : E here is the Type Parameter, which can be used to determine the content type of the list, but there was No way to check what was the content during the runtime.

Generics are checked only during compilation time.

<? extends String> : This was specially build into java, to handle the problem which was with the Type Parameter. "? extends String" means this List can have

objects which IS-A String.

For eg:

Animal class Dog class extends Animal Tiger class extends Animal

So using "public void go(ArrayList<Animal> a)" will NOT accept Dog or Tiger as its content but Animal.

"public void go(ArrayList<? extends Animal> a)" is whats needed to make the ArrayList take in Dog and Tiger type.

Check for references in Head First Java.

  • can i only use ? as shown in above example List<?> list? then what types of object is can store – Pramod Kumar Jun 8 '12 at 5:07
  • "?" is used to make the collection being able to take the arguments from the called method which extends the type mentioned here " <? extends Animal>". – Kumar Vivek Mitra Jun 8 '12 at 5:10
  • List<?> list in this example user has not defined the type... then what type of object it will take? – Pramod Kumar Jun 8 '12 at 5:12
  • List<?> indicates a list which has an unknown object type. – Kumar Vivek Mitra Jun 8 '12 at 5:20

The first is a function that accepts a parameter that must be a list of items of E type.

the second example type is not defined

List<?> list

so you can pass list of any type of objects.


List as a parameter type says that the parameter must be a list of items with any object type. Moreover, you can bind the E parameter to declare references to list items inside the function body.

The List as a parameter type has the same semantics, except that there is no way to declare references to the items in the list other than to use Object. Other posts give additional subtle differences.

  • sorry i have some mistake in my question and i edited the question. – Fio Jun 8 '12 at 4:50
  • @Gene can you please explain why in second function parameter must be a list of objects that derive from String. As Parameter is not defining its object type "List<?> list" so i think it can hold any type of object along with String. – Pramod Kumar Jun 8 '12 at 4:58
  • Instead of saying "first" or "second", include the relevant code to avoid confusion (and edits to the OP). – user166390 Jun 8 '12 at 5:04

I usually explain the difference between <E> and <?> by a comparison with logical quantifications, that is, universal quantification and existential quantification.

  • corresponds to "forall E, ..."
  • corresponds to "there exists something(denoted by ) such that ...."

Therefore, the following generic method declaration means that, for all class type E, we define funct1

public static <E> void funct1  (List<E>; list1) {


The following generic method declaration means that, for some existing class denoted by <?>, we define funct2.

public static void funct2(List<?> list) {


(Since your edit) Those two function signatures have the same effect to outside code -- they both take any List as argument. A wildcard is equivalent to a type parameter that is used only once.


In addition to those differences mentioned before, there is also an additional difference: You can explicitly set the type arguments for the call of the generic method:

List<Apple> apples = ...
ClassName.<Banana>funct2(apples); // for some reason the compiler seems to be ok
                               // with type parameters, even though the method has none

ClassName.<Banana>funct1(apples); // compiler error: incompatible types: List<Apple>
                                  //                 cannot be converted to List<Banana>

(ClassName is the name of the class containing the methods.)

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