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I have a List which is declared like this :

 List<? extends Number> foo3 = new ArrayList<Integer>();

I tried to add 3 to foo3. However I get an error message like this:

The method add(capture#1-of ? extends Number) in the type List<capture#1-of ?
extends Number> is not applicable for the arguments (ExtendsNumber)
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11  
Note that List<? extends Number> does not mean "list of objects of different types, all of which extend Number". It means "list of objects of a single type which extends Number". –  Pavel Minaev Sep 13 '10 at 18:54
1  
Google Capture Conversion to find out what the error/warning means. –  Buhake Sindi Dec 20 '10 at 20:43

4 Answers 4

up vote 80 down vote accepted

Sorry, but you can't.

The wildcard declaration of List<? extends Number> foo3 means that the variable foo3 can hold any value from a family of types (rather than any value of a specific type). It means that any of these are legal assignments:

List<? extends Number> foo3 = new ArrayList<Number>;  // Number "extends" Number
List<? extends Number> foo3 = new ArrayList<Integer>; // Integer extends Number
List<? extends Number> foo3 = new ArrayList<Double>;  // Double extends Number

So, given this, what type of object could you add to List foo3 that would be legal after any of the above possible ArrayList assignments:

  • You can't add an Integer because foo3 could be pointing at a List<Double>.
  • You can't add a Double because foo3 could be pointing at a List<Integer>.
  • You can't add a Number because foo3 could be pointing at a List<Integer>.

You can't add any object to List<? extends T> because you can't guarantee what kind of List it is really pointing to, so you can't guarantee that the object is allowed in that List. The only "guarantee" is that you can only read from it and you'll get a T or subclass of T.

The reverse logic applies to super, e.g. List<? super T>. These are legal:

List<? super Number> foo3 = new ArrayList<Number>; // Number is a "super" of Number
List<? super Number> foo3 = new ArrayList<Object>; // Object is a "super" of Number

You can't read the specific type T (e.g. Number) from List<? super T> because you can't guarantee what kind of List it is really pointing to. The only "guarantee" you have is you are able to add a value of type T (or subclass of T) without violating the integrity of the list being pointed to.


The perfect example of this is the signature for Collection.copy():

public static <T> void copy(List<? super T> dest,List<? extends T> src)

Notice how the src list declaration uses extends to allow me to pass any List from a family of related List types and still guarantee it will produce values of type T or subclasses of T. But you cannot add to the src list.

The dest list declaration uses super to allow me to pass any List from a family of related List types and still guarantee I can write a value of a specific type T to that list. But I be cannot guaranteed of getting values of type T if I read from the list.

So now, thanks to generics wildcards, I can do any of these calls with that single method:

// copy(dest, src)
Collection.copy(new ArrayList<Number>(), new ArrayList<Number());
Collection.copy(new ArrayList<Number>(), new ArrayList<Integer());
Collection.copy(new ArrayList<Object>(), new ArrayList<Number>());
Collection.copy(new ArrayList<Object>(), new ArrayList<Double());

Consider this confusing and very wide code to exercise your brain. The commented out lines are illegal and the reason why is stated to the extreme right of the line (need to scroll to see some of them):

  List<Number> listNumber_ListNumber  = new ArrayList<Number>();
//List<Number> listNumber_ListInteger = new ArrayList<Integer>();                    // error - can assign only exactly <Number>
//List<Number> listNumber_ListDouble  = new ArrayList<Double>();                     // error - can assign only exactly <Number>

  List<? extends Number> listExtendsNumber_ListNumber  = new ArrayList<Number>();
  List<? extends Number> listExtendsNumber_ListInteger = new ArrayList<Integer>();
  List<? extends Number> listExtendsNumber_ListDouble  = new ArrayList<Double>();

  List<? super Number> listSuperNumber_ListNumber  = new ArrayList<Number>();
//List<? super Number> listSuperNumber_ListInteger = new ArrayList<Integer>();      // error - Integer is not superclass of Number
//List<? super Number> listSuperNumber_ListDouble  = new ArrayList<Double>();       // error - Double is not superclass of Number


//List<Integer> listInteger_ListNumber  = new ArrayList<Number>();                  // error - can assign only exactly <Integer>
  List<Integer> listInteger_ListInteger = new ArrayList<Integer>();
//List<Integer> listInteger_ListDouble  = new ArrayList<Double>();                  // error - can assign only exactly <Integer>

//List<? extends Integer> listExtendsInteger_ListNumber  = new ArrayList<Number>(); // error - Number is not a subclass of Integer
  List<? extends Integer> listExtendsInteger_ListInteger = new ArrayList<Integer>();
//List<? extends Integer> listExtendsInteger_ListDouble  = new ArrayList<Double>(); // error - Double is not a subclass of Integer

  List<? super Integer> listSuperInteger_ListNumber  = new ArrayList<Number>();
  List<? super Integer> listSuperInteger_ListInteger = new ArrayList<Integer>();
//List<? super Integer> listSuperInteger_ListDouble  = new ArrayList<Double>();     // error - Double is not a superclass of Integer


  listNumber_ListNumber.add(3);             // ok - allowed to add Integer to exactly List<Number>

  // These next 3 are compile errors for the same reason:
  // You don't know what kind of List<T> is really
  // being referenced - it may not be able to hold an Integer.
  // You can't add anything (not Object, Number, Integer,
  // nor Double) to List<? extends Number>      
//listExtendsNumber_ListNumber.add(3);     // error - can't add Integer to *possible* List<Double>, even though it is really List<Number>
//listExtendsNumber_ListInteger.add(3);    // error - can't add Integer to *possible* List<Double>, even though it is really List<Integer>
//listExtendsNumber_ListDouble.add(3);     // error - can't add Integer to *possible* List<Double>, especially since it is really List<Double>

  listSuperNumber_ListNumber.add(3);       // ok - allowed to add Integer to List<Number> or List<Object>

  listInteger_ListInteger.add(3);          // ok - allowed to add Integer to exactly List<Integer> (duh)

  // This fails for same reason above - you can't
  // guarantee what kind of List the var is really
  // pointing to
//listExtendsInteger_ListInteger.add(3);   // error - can't add Integer to *possible* List<X> that is only allowed to hold X's

  listSuperInteger_ListNumber.add(3);      // ok - allowed to add Integer to List<Integer>, List<Number>, or List<Object>
  listSuperInteger_ListInteger.add(3);     // ok - allowed to add Integer to List<Integer>, List<Number>, or List<Object>
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Why are we allowed to write a sentence like ` List<? extends Number> foo3 = new ArrayList<Integer>();` if we can't an element to this list further? –  articlestack Oct 23 '11 at 9:42
2  
@articlestack: Adding isn't the only useful thing to do with a list. Once a list is populated, reading from a list may be useful. Generic wildcards allows for writing code that works generically for a family of lists, e.g. works for both List<Integer> or List<Double>. For example, look at the signature of the Collection.copy(). The src List argument uses extends to read from the src list, while the the dest List argument uses super to write to the dest list. This allows one method that can copy from List<Integer> or List<Double> into List<Number> or List<Object>. –  Bert F Nov 1 '11 at 0:09

Producer Extends, Consumer Super to the rescue!

Understand the mnemonic, and your question will be answered; here's another topical SO question to get you started.

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1  
+1 for best/correct answer, not sure why this is at the bottom (also, that is a fantastic book) –  BlueRaja - Danny Pflughoeft May 7 '10 at 21:24
    
Strange that this isn't at the top, since it obviously is the most correct answer. –  pgsandstrom Aug 22 '12 at 13:28

You can't (without unsafe casts). You can only read from them.

The problem is that you don't know what exactly the list is a list of. It could be a list of any subclass of Number, so when you try to put an element into it, you don't know that the element actually fits into the list.

For example the List might be a list of Bytes, so it would be an error to put a Float into it.

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You could do this instead:

  List<Number> foo3 = new ArrayList<Number>();      
  foo3.add(3);
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