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This is an example which I made up to be a simplification of my real code, so I apologize if it is a little contrived. What I would like to do is to effectively get two type parameters out of a single nested type argument. I'm pretty sure this is impossible, but I thought I'd give it a shot.

//Not legal java code
public class Foo<C extends Collection<T>> { //where T is another type parameter
    private C coll;

    public Foo(C coll) {
        this.coll = coll;

    public void add(T elem){
     * I may need to retrieve the collection again, or pass it
     * on to another function that needs the specific C type
    public C getColl(){
        return coll;
List<String> strings = new ArrayList<String>();
Foo<List<String>> foo = new Foo<List<String>>(strings);

I know that I could do it by adding another type parameter:

public class Foo<C extends Collection<T>,T>

but then I have to add the redundant:

Foo<List<String>,String> foo = new Foo<List<String>,String>(strings);

And in my real world case, my generics can sometimes be specified in the implements clause like

public class Bar implements Baz<String>

Having to specify that second type parameter is even more painful then, because it feels like it throws the implementation details in my face. Having to say


when there is a relationship between String and Bar already, just seems inelegant. I get that its Java, so that goes with the territory, but just curious if there was a solution for this.

share|improve this question

It's not possible and I don't think it's ideal anyway because there is nothing in your existing class that requires invariance.

Foo<T,C extends Collection<T>>

could more generally be

Foo<T,C extends Collection<? super T>>

if the only reason to have T is to allow mutation of the collection.

Note, if you're concerned about having to specify two type parameters frequently, you can create a shallow subclass:

class DerivedFoo<T> extends Foo<Collection<T>,T>

and you can use factory methods to avoid having to double-specify at creation time

public static <T> Foo<Collection<T>,T> fromCollection(Collection<T> c)

You can also abstract the interface into an interface to get the benefits of concise types that you get with DerivedFoo above.

share|improve this answer
The factory method idea is interesting, but it still bothers me that the type is specified twice even though my code dictates that they always be the same. – Russell Leggett Nov 9 '11 at 0:42
@RusselLeggett, ok, so you do need invariance then, no Collection<? super T>? Yep. That's a pain. My advice would be to deal with the complexity in your library and try to expose terse APIs by having factories whose return type is interface Foo<T> extends ComplicatedFoo<CollectionSubType<T>,T> so that clients can just use the single parameter version. – Mike Samuel Nov 9 '11 at 1:00

Why wouldn't you just use T as your only type parameter, as in:

public class Foo<T> { //where T is another type parameter
private Collection<T> coll;

public Foo(Collection<T> coll) {
    this.coll = coll;

public void add(T elem){
share|improve this answer
I'm curious to see why this wouldn't be the solution as well. – ty1824 Nov 8 '11 at 23:41
As I said, it's a contrived example, but what if the type of collection that went in mattered as well. It could be a list or a set or a TreeList. Let's say I added a getter to retrieve the collection again - the type would matter. – Russell Leggett Nov 8 '11 at 23:50

Prior to Java7, constructors don't do type inference, the workaround is to have a static factory method. That's no longer necessary. In Java 7 you can

Foo<List<String>,String> foo = new Foo<>(strings);

Regarding T and C, if we have 2 type parameters with constraints between them, there got to be some degree of redundancy. In your example, since one parameter C totally dictates the another parameter T, the redundancy seems unbearable. I don't see a solution.

But you probably can feel better if the type parameters are reordered

Foo<String,Bar> foo = new Foo<>(bar);

so we declare String first; then further provide a Baz<String> which is Bar

share|improve this answer

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